`U.S. Patent 9,855,302 B2
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`UNITED STATES PATENT AND TRADEMARK OFFICE
`___________________
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`BEFORE THE PATENT TRIAL AND APPEAL BOARD
`___________________
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`GENOME & COMPANY,
`Petitioner
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`v.
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`THE UNIVERSITY OF CHICAGO,
`Patent Owner
`___________________
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`Case No. PGR2019-00002
`U.S. Patent 9,855,302 B2
`___________________
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`REPLY DECLARATION OF JONATHAN BRAUN, M.D., Ph.D., IN POST
`GRANT REVIEW OF U.S. PATENT NO. 9,855,302
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`TABLE OF CONTENTS
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`PGR2019-00002
`U.S. Patent 9,855,302 B2
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`Page(s)
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`I.
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`II.
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`INTRODUCTION ........................................................................................... 1
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`APPLICABLE LEGAL PRINCIPLES ........................................................... 2
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`III. EXTENSIVE HUMAN ONCOLOGY CLINICAL EXPERIENCE .............. 3
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`IV. THE ‘302 PATENT DISCLOSURE ............................................................... 4
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`A.
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`V.
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`The Claimed Functional Check Point Inhibitors ............................................. 4
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`PROPERTIES OF BIFIDOBACTERIUM SPECIES ARE
`UNPREDICTABLE AND SOMETIMES STRAIN SPECIFIC ..................... 5
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`A. Different Strains of Bifidobacterum Longum Drive Different Immune
`Responses .................................................................................................... 5
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`B.
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`C.
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`D.
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`E.
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`F.
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`G.
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`H.
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`I.
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`O’Mahoney’s Data Is Sufficient To Draw Conclusions Regarding the the
`Properties of the Bifidbacterium Strains Described Therein ....................... 5
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`Dong Described Immunostimulatory Bifidobacterium Longum and Its
`Methodology Is Sound ................................................................................. 8
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`Lopez Describes Species And Strain Specific Effects Of Bifidobacterium
`And its Methodology is Sound .................................................................. 11
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`Lee Describes Bifidobacterium Adolescentis Spm 2012 Exerting An Anti-
`Proliferative Effect Human Colon Cancer Cell Lines ............................... 14
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`Reddy ......................................................................................................... 15
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`Cancer Immunotherapy Is Vastly More Complex and Uncertain Than
`Simply Targeting Immune Checkpoints .................................................... 16
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`Check Point Inhibitors Show Low Response Rates In A Limited Number
`Of Cancers And For Only A Subset Of Cancer Patients Having Those
`Cancers ...................................................................................................... 17
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`Extensive and Undue Experimentation Is Required To Practice the Claims
`of the ‘302 Patent ....................................................................................... 20
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`VI. The ‘302 Claims are Obvious ........................................................................ 23
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`A.
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`B.
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`(Ground 2) Korman ‘401 in View of Singh and Dong Render Obvious
`Claims 1-9, 12-17, and 19-25, and 27-28 .................................................. 23
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`Korman '401 in View of Kohwi Renders Obvious Claims 1-4, 7-9, 12-17,
`19-25, and 27-28 ........................................................................................ 25
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`i
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`1. Claims 5, 6, 9, 10, 11, 23, 24 and 26 Are Obvious ................................... 28
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`C.
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`Ground (9) Korman ‘401 in View of Mohania and Prakash ‘449 Renders
`Obvious Claims 1-9, 12-17, and 19-25, and 27-28 ................................... 29
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`PGR2019-00002
`U.S. Patent 9,855,302 B2
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`I, Jonathan Braun, M.D., Ph.D., being of legal age, hereby declare affirm, and
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`PGR2019-00002
`U.S. Patent 9,855,302 B2
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`state the following:
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`I.
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`INTRODUCTION
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`1.
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`As I testified in my declaration signed October 2, 2018 (“Opening
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`Declaration”), which I understand has been labeled as Exhibit 1002 in this
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`proceeding, I have been retained on behalf of Genome & Company/Petitioner, to
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`serve as an independent expert and provide expert opinions regarding U.S. Patent
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`No. 9,855,302 (“the ‘302 patent”) (Ex. 1001).
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`2.
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`Relevant aspects of my educational background, career history, and
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`other qualifications were provided in my Opening Declaration and will not be
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`repeated here. (See Ex. 1002 at ¶¶ 6-14.)
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`3.
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`I provided testimony in my Opening Declaration regarding the
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`technical subject matter of the ‘302 patent and the application of various references
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`that are prior art to the ‘302 patent. In particular, I was asked to consider what a
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`person of ordinary skill in the art would have understood from the ‘302 patent,
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`whether the specification teaches a person of ordinary skill in the art how to make
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`and use the claimed invention without undue experimentation, and whether the
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`prior art discussed herein rendered the claimed invention obvious to a person of
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`ordinary skill in the art.
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`4.
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`In this Reply Declaration, I have been asked to consider Patent
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`Owner’s Response (“POR”) and the Declaration of Dr. Mani (Ex. 2007) vis a vis
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`my opinions regarding the enablement and validity of the claims of the ‘302 patent.
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`5. My testimony in this declaration, like my Opening Declaration, is
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`through the eyes of a person of ordinary skill in the art as defined in ¶¶ 38-40 of
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`my Opening Declaration.
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`6.
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`I have also relied on the knowledge and experience I acquired from
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`more than 33 years of practicing, researching, and teaching oncology, pathology,
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`microbiology and immunology.
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`7.
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`I have personal knowledge of the facts and opinions set forth in this
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`declaration, and, if called upon to do so, I would testify competently thereto. All
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`of the opinions and conclusions found in this declaration are my own.
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`8.
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`I am being compensated at a rate of $550.00 per hour for my services.
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`This compensation is in no way based on the content of my opinions or the
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`outcome of this matter.
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`II. APPLICABLE LEGAL PRINCIPLES
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`9. My understanding of certain legal standards were previously stated in
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`¶¶ 15-37 of my Opening Declaration and will not be repeated here.
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`III. EXTENSIVE HUMAN ONCOLOGY CLINICAL EXPERIENCE
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`10.
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`I have extensive human oncology clinical experience.
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`11.
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`In my 24 years as Chair of Pathology and Laboratory Medicine at
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`UCLA, I have directed all surgical pathology and clinical laboratory services for
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`UCLA Health, with responsibility for surgical pathology diagnosis for over
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`200,000 patients, and 5.5 million laboratory tests.
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`12. Over 65% of surgical pathology cases are pathology consultations to
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`provide critical information for diagnosis or management of cancer patients, as are
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`over 20% of clinical laboratory testing. In performing these clinical cancer
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`services, I directed the activities of over 100 pathology-specialist clinicians and
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`over 600 technical staff, as well their roles in the 12 concurrent biweekly cancer
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`patient-management tumor boards where oncologists, radiation oncologists, and
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`subspecialist pathologists radiologists together perform patient-level diagnosis and
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`treatment-planning.
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`13. As a member of senior leadership in UCLA Health, I participated in
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`or led multiple line-management and strategy initiatives for our clinical cancer
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`portfolio. Recent examples included the UCLA Health ambulatory cancer care
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`strategy; the Urologic Oncology Institute and integrated neurocancer service line;
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`regional proton-beam services; CAR-T cell therapy; and genome-wide NGS
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`somatic and germline cancer clinical diagnostics).
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`IV. THE ‘302 PATENT DISCLOSURE
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`A. The Claimed Functional Check Point Inhibitors
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`14.
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`In my Opening Declaration, I addressed the meaning of the claimed
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`check point inhibitor (“CPI”). I opined that the ‘302 specification defined CPI
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`functionally as “a protein or polypeptide that binds an immune checkpoint”
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`including “antibodies or antigen binding fragments that bind to and inhibit an
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`immune checkpoint protein” as well as “interfering nucleic acids” which inhibit an
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`immune checkpoint protein. See Ex. 1002, ¶49, see also ¶¶ 47, 48, 50. I also
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`declared that the functionally claimed CPI comprised a “limitess number of
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`possibilities.” See Ex. 1002, ¶ 41.
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`15. The ‘302 specification does not provide any guidance for making
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`fragments or interfering nucleic acid molecules that successfully function as CPIs.
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`16. Dr. Mani at his deposition (Ex. 1042, 19:7-29:6) references Exhibits
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`2009, 2011-2014, and 2016 and states that some of those references may deal with
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`fragments of antibodies that function as checkpoint inhihibitors. Ex. 1042 at 20:7-
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`21:15.
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`17. None of Exhibits 2009, 2011-2014, and 2016 describe a fragment of
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`an antibody that functions as checkpoint inhibitor.
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`18. Exs. 2009 and 2011 both describe anti-KIR antibodies. Ex. 2012
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`describes anti-PD-1 and anti-LAG-3 antibodies. Ex. 2013 describes an LAG
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`fusion protein. Ex. 2014 describes an anti-VISTA antibody. And Ex. 2016
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`describes an anti-TIM-3 antibody.
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`19.
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`I am not aware of any antibody fragments or interfering nucleic acids
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`that have shown efficacy as a CPI in treating cancer.
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`V.
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`PROPERTIES OF BIFIDOBACTERIUM SPECIES ARE
`UNPREDICTABLE AND SOMETIMES STRAIN SPECIFIC
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`A. Different Strains of Bifidobacterum Longum Drive Different
`Immune Responses
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`20. PO represented that Bifidobacterium longum strain 1714 described in
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`O’Mahoney (Ex. 1017) was immunosuppressive. PO stated:
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`O'Mahoney et al. teach that the disclosed Bifidobacterium
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`strain suppresses such immune responses.
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`Ex. 1014, 123-132, 132.
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`21.
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`In a subsequent response, PO reiterated that “O’Mahoney describes
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`suppression of immune response.” Ex. 1014, 57-65, 64.
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`22. The ‘302 patent describes Bifidobacterium longum as
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`immunostimulatory. Ex. 1001, 38:36-58; 39:12-40:54.
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`B. O’Mahoney’s Data Is Sufficient To Draw Conclusions Regarding
`the Properties of the Bifidbacterium Strains Described Therein
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`23. PO alleges that O’Mahony does not provide sufficient data or
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`statistical analysis to justify the conclusions Petitioner ascribes to it. POR, 24.
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`These allegations do not hold up to scrutiny.
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`U.S. Patent 9,855,302 B2
`24. PO states that the O’Mahony does not report any comparative in vivo
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`testing of Bifidobacterium strains. POR, 20-21. This is untrue. O’Mahony [087,
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`088] highlighted their own mouse previously published in vivo comparative testing
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`of Bifidobacterium, ref. 8 [0151].
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`25. PO alleges a series of deficits in O’Mahony, by mistakenly
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`demanding that each example must test at once all the immunologic properties of
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`the system. POR, 20-24. This willfully ignores the actual and reasonable design
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`of examples, which cumulatively presents an orderly, sequential assessment of
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`these properties. And, it presents them in distinct tissue settings, which exemplifies
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`the immunologic “cascade” concept that O’Mahony highlights at [0088] and which
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`is endorsed by the PO at POR, 22.
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`26. Thus, PO alleges due to example 5 that “O’Mahony reports on just a
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`handful of cytokine measurements”, and does not present IL-10. POR, 21.
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`However, the series of examples actually present data for 6 cytokines (and the
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`critical signaling intermediate, NFkB), most in both in vitro and in vivo settings.
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`As I discuss below for Lopez, these cytokines span the key molecules in dendritic
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`cell-T cell interaction, and O’Mahoney evaluates them in both tissue culture and
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`animal contexts.
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`27.
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`Cytokine
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`in vitro
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`in vivo
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`IL-6
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`IL-10
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`IL-12
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`Table 5
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`Fig 4
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`Fig 8
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`Table 6
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`Fig 7
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`IFN-alpha
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`Table 6
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`IFN-gamma
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`Table 6
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`Fig 6
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`TNF-a
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`Fig 5
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`Fig. 8, 16
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`NF-kB
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`Fig 9, 10
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`28. PO criticizes O’Mahony for incomplete description of donor numbers
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`and absence of statistics (POR, 20) and lack of positive and negative controls
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`(POR, 22). However, such information and statistics is included in Fig. 4, 5, 6, 7,
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`8, 9, 10, and 16.
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`29. PO criticizes O’Mahony “for too many gaps… to reach any
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`conclusions about differences between the 1714 and 35624 strains” (POR, 22).
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`However, the central point of the O’Mahony patent is demonstration that certain
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`Bifidobacterial species (notably 1714) can be strongly immunosuppressive.
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`30. PO alleges that a POSITA requires an explanation for why “a
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`difference in an effect on peripheral blood cells in vitro as corresponding to a
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`difference in an effect on cancer in vivo.” POR, 24. I note here, and detail in a
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`subsequent section, that dendritic cell IL-12 and its induction of Th1 IFNgamma is
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`well-understood to be a crucial component of anti-tumor immunity by stimulation
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`of the immune system. The existence of Bifidobacterium sp. that are deficient in
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`inducing immunostimulatory dendritic cells (due to relative low IL-12 production
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`and high IL-10) is thus obvious to a POSITA as a significant unpredictability in the
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`efficacy of a given species of Bifidobacterium on a particular cancer.
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`C. Dong Described Immunostimulatory Bifidobacterium Longum and
`Its Methodology Is Sound
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`31. PO alleges that a POSITA would have not have concluded from Dong
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`that the B. longum described therein is immunostimulatory. In support thereof, PO
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`alleges that Dong’s methodology is flawed. POR, 51. Patent Owner also alleges
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`that Dong shows B. Longum’s upregulation of IL-10, a cytokine known to be anti-
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`inflammatory (POR, 58).
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`32. PO is incorrect. Dong describes Bifidobacterium longum as
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`immunostimulatory. See Ex. 1002, ¶¶ 113, 170-74.
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`33.
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`I also note that the inventors of the ‘302 Patent, Drs. Gajewski, Sivan,
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`and Corrales, expressly referenced Dong as describing immunostimulatory
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`bifidobacterium longum. The inventors state: “[s]timulatory interactions between
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`bifidobacteria [longum] and the host immune system, including those associated
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`with interferon-(cid:1) (IFN(cid:1)) have been described previously. (13-16). We thus
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`hypothesized that members of this genus could represent a major component of the
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`beneficial antitumor immune effects observed in JAX mice”. Ex. 2005, 1085. In
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`the preceding equation from the inventors, reference number 15 is Dong.
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`34. Contrary to PO’s assertions, Dong’s methodology is not flawed.
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`35. Dong was published in “Early Human Development,” a peer-reviewed
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`publication. Accordingly, the methodology for generating the data referenced
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`therein passed the peer review process, and thus, was not judged to be flawed by an
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`independent review process
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`36. Further, PO incorrectly states that “…there was no way to know the
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`baseline microbiota of Dong’s SPF rats.” (POR p. 54). In fact, it was already
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`well-known that rodents bred together in a single facility have a shared baseline
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`microbiome composition (Vanessa K. Ridaura, et al., Gut Microbiota from Twins
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`Discordant for Obesity Modulate Metabolism in Mice, Science, 341:1079,
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`1241214 (2013) (Ex. 1045). The rats studied by Dong were bred and housed in a
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`single facility, so a POSITA would understand that all rats used in the study had a
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`shared baseline micrbiome composition prior to the experimental intervention. In
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`this regard, the PO misrepresented my response (Ex. 2033, 66:19–23), which
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`actually concerned the microbiome composition after the experimental
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`intervention.
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`37. PO alleges that Dong’s experimental design prevents attribution of the
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`observations to B. longum. POR, 55. However, PO affirms that the BS group
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`simply administered B. longum, and that Dong provides a direct comparison of the
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`substantial differences in immunologic state of the BS group to a control which
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`had not received this administration. A POSITA readily understands that any such
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`differences between these two groups are attributable to B. longum administration.
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`38. The PO allegation expands by questioning whether the effect of B.
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`longum was induced by the organism alone. POR, 55. However, this question
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`does not refute the effect of B. longum. A POSITA understands that, whether B.
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`longum acted alone or in part via its ecologic effect on other microbiome members,
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`administration of this organism elicited the observed host response.
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`39. PO alleges that the RT-PCR cytokine analysis was unreliable, because
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`Dong did not specify technical controls used in the RNA preparation. POR, 56.
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`However, this is invalid for two reasons. First, technical controls for RNA
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`isolation are so routinely used for such experimentation that they are rarely
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`documented in publications, and indeed unwelcome by editors as superfluous. So,
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`a POSITA would assume that Dong was using a routine protocol that included
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`such technical quality checks. Second, contamination and degradation, if present,
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`adds variability between individual samples regardless of their experimental group.
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`Accordingly, they are detectable in the variance (e.g., standard error) of each
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`group. In contrast to the PO allegation , they would not render any observations
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`unreliable, unless the variances undermined statistical significance for the observed
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`findings. Since Dong reported variances and drew conclusions only on statistically
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`significant findings a POSITA would understand that the PO allegation is specious.
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`40. With respect to PO’s argument that B. longum induced upregulation
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`of IL-10 (POR, 57), a cytokine known to be anti-inflammatory, Dong showed that
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`Bifidobacterium longum induced maturation in dendritic cells characterized by
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`increased expression of the immunostimulatory CD86 surface protein and IL-12
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`cytokine. Dong also demonstrated their immunostimulatory function by capacity to
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`induce T cell IFN-γ, the hallmark of Th1 activation, which in turn is the hallmark
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`of immunostimulatory host response in cancer. Dunn et al., The Three Ez of
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`Cancer Immunoediting, Annu. Rev. Immunol. 2004, 22:329-360. Ex. 1046.
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`41. Significantly, the ‘302 patent also pointed to elevated levels of T-cell
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`induced IFN-γ as evidence of Bifidobacterium’s immunostimulatory function to
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`activate dendritc cells. Ex. 1001, 39:43-40:54.
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`42. Accordingly, like the inventors of the ‘302 Patent, a POSITA would
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`have concluded that Dong described B. Longum as being immunostimulatory.
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`D. Lopez Describes Species And Strain Specific Effects Of
`Bifidobacterium And its Methodology is Sound
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`43. PO’s expert attacks Lopez, asserting that its methodology is
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`unreliable, and therefore, does not “provide[] credible evidence.” POR, 19, 24-36.
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`However, a subsequently published, peer reviewed journal cited Lopez as
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`describing strain specific effects of Bifidobacterium that correlate to different in
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`vivo effects on the immune system, i.e., Th1 and Th2 responses
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`It is known that different probiotic bacteria present different effects upon the
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`immune system [7, [Lopez]],.. Some strains promote Th1 responses,
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`characterized by the production of IFN(cid:1) and TNF(cid:2), whereas other strains
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`induce anti-inflammatory cytokines generating a Th2 profile [Lopez]
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`Sanchez, Borja Sánchez et al., The Effects of Bifidobacterium breve on Immune
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`Mediators and Proteome of HT29 Cells Monolayers., BioMed Research
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`International, 2015 (Article ID 479140):1-6 (2015). (Ex. 1044).
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`44. The above quote by Sanchez also shows, contrary to PO’s assertions
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`(POR, 32), that the data in Lopez demonstrates how the immune system would be
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`effected, in vivo, i.e, by generating a Th1 or Th2 response.
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`45. PO also alleges that Lopez does not provide sufficient data or
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`statistical analysis to justify the conclusions Petitioner ascribes to it.
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`46. PO alleges that Lopez's data is skewed and cannot be analyzed
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`quantitatively.
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`47. This conclusion is clearly false. Cytokine and maturation marker data
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`is not normally-distributed (affirmed by both Lopez and the PO and termed
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`“skewed” per the POR). However, non-parametric statistics (e.g., Wilcoxon-Mann-
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`Whitney or Kendall W methods) are well-established and widely used to
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`quantitatively analyze such data and these were the methods employed by Lopez.
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`48. The PO further alleges that critical conclusions about Bifidobacterium
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`differences cannot be quantitatively made with non-parametric statistical analysis,
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`because such analysis does not permit direct donor comparisons. But as even the
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`PO agrees, the ranking method of such analysis permits quantitative comparison of
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`groups. This is how Lopez presented and interpreted the study findings. For
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`example, see Lopez p. 160: “No relevant differences were observed in the
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`production of IL-8 (p = 0.207, Kendall test) and IL-6 (p = 0.192), but,
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`interestingly, independently of the donor, the variety of bifidobacterial strains
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`differed substantially in their capacities to induce IL-1β (p = 0.041), IL-10 (p =
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`0.001), TNFα (p = 0.008) and IL-12 (p = 0.008).”
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`49. PO also alleges that Figure 2 does not provide sufficient information
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`to determine whether there were any differences in the cytokine profiles and that
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`there is insufficient information to conclude the differences in cytokine profiles
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`amounted to biological differences. In support thereof, PO also alleges that Lopez
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`analyzed only 6 cytokines. PO is wrong.
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`50. The literature demonstrates that among more than 45 cytokines
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`discussed in major reviews by 2015, only 9 were known to reflect dendritic cell
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`immunstimulation. Patrick Blanco, et al., Dendritic cells and cytokines in human
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`inflammatory and autoimmune diseases, Cytokine & Growth Factor Reviews, 19
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`(Issue 1):41-52 (2008)(Ex. 1047. Lopez reported on 6 of these 9 cytokines, and
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`these 6 were the most widely studied for this biologic role.
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`51. Moreover, one of these cytokines, interferon-gamma, demonstrates a
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`biologic difference reported by Lopez that is crucial to anti-cancer immunity. It
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`was already widely understood that interferon-gamma is specifically the product of
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`T cells induced by IL-12 of immunostimulatory dendritic cells into the Th1 state.),
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`Exs. 1046 and 1047. And, Th1 and their interferon-gamma production are crucial
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`to anti-cancer immunity. Ex. 1046. It was obvious to a POSITA that the findngs of
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`Lopez (differential IL-12 and IFN-gamma induction between Bifidobacterium
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`species) was a biologic difference important to anti-cancer immunity. Thus,
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`contrary to the opinion of PO’s expert, that the data in Lopez shows how the
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`immune system would be effected, in vivo.
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`E.
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`Lee Describes Bifidobacterium Adolescentis Spm 2012 Exerting
`An Anti-Proliferative Effect On Human Colon Cancer Cell Lines
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`52. PO asserts that a POSITA would not have concluded that the anti-
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`proliferative effect of an N-butanol extract of Bifidobacterium Longum on human
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`colon cancer cell line was due to Bifidobacterium Longum. In particular, PO
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`alleges that Lee did not characterize the extract or run control experiments to
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`confirm what the material was in the extract responsible for the antiproliferative
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`effect.
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`53. Patent Owner is incorrect. Lee assayed three different extracts of
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`Bifidobacterium adolescentis SPM 2012, only one of which – N-butanol - showed
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`inhibition of proliferation of three colon cancer cell lines. A POSITA, therefore,
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`would have assumed that the inhibition of proliferation of the three colon cancer
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`cell was not an artifact.
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`54. Further, while Lee does not state what component(s) of
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`Bifidobacterium adolescentis SPM 2012 were extracted by the N-butanol and
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`responsible for the anti-cancer activity, a POSITA would have understood the
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`experiments in Lee to show that the Bifidobacterium adolescentis SPM 2012 was
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`responsible for the anti cancer activity. Indeed, Lee stated that Bifidobacterium
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`adolescentis SPM 2012 was chosen for the assays because it exhibited the highest
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`efficacy of three Bifidobacterium adolescentis strains for inhibiting the growth of 3
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`different colon cancer cell lines. The N-butanol experiment was merely to “further
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`characterize the functional substances of B. adolescentis SPM0212.” P. 3.
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`F. Reddy
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`55. Subsequently published, peer reviewed articles described Reddy as
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`showing Bifidobacteria exerting anti tumor activity.
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`56. Reza Aghebati Maleki et al., Effects of some natural
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`immunomodulatory compounds in combination with thalidomide on survival rate
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`and tumor size in fibrosarcoma-bearing mice, Advanced Pharmaceutical Bulletin,
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`15
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`U.S. Patent 9,855,302 B2
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`4, Suppl 1:465-470 (2014) (Ex. 1048, 466) states that Reddy describes
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`“Bifidobacteria show inhibitory effects on colon … cancer[]”. Blanda Di Luccia et
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`al., Lactobacillus gasseri SF1183 Affects Intestinal Epithelial Cell Survival and
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`Growth, PLoS ONE, 8(7):e69102 (2013) (Ex. 1049, 1) states that Reddy describes
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`“in vivo studies have shown the inhibitory activity of [Bifidobacteria Longum] on
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`…colon tumors in animal models”
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`G. Cancer Immunotherapy Is Vastly More Complex and Uncertain
`Than Simply Targeting Immune Checkpoints
`
`57. PO asserts that all cancer cells express and present foreign antigens on
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`their surfaces, and therefore, all cancer cells are recognizable, at least in theory, by
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`the immune system. POR, 4-9
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`58.
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`Immune checkpoints, however, suppress the functioning of the
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`immune system, thereby allowing the tumor cells to evade the immune system.
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`Thus, according to PO, by administering a checkpoint inhibitor to inhibit the
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`function of the immune checkpoint, the functioning of the immune system will be
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`restored and, in theory, all cancer cells, regardless of cancer type, will be
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`recognized by the immune system and destroyed. POR, 8-9.
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`59. PO’s theory ignores that fact that there are many immune mechanisms
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`by which tumor cells evade the immune system.. Immune checkpoints are only one
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`of those immune mechanisms.
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`16
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`60. For example, tumor cells can secrete immunosuppressive factors such
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`as TGF-ß, indoleamine-pyrrole-2,3-dioxygenase (1DO), tryptophan-2,3-
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`dioxygenase (TDO), galectin 3, or natural killer cell decoys. Ex. 2028, 308, 309.
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`Tumor cells can also produce immunosuppressive metabolites such as lactic acid,
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`adenosine, and prostaglandins. Id. They can also decrease their antigenicity by
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`downregulating or extinguishing HLA class I molecules. Id.
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`61. Non-tumor cells can also contribute to immunosuppressive
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`mechanisms. These include “regulatory T [Treg] cells that could be attracted to
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`some tumors by chemokines, and myeloid-derived suppressor cells and their
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`contact-dependent immunosuppression, which involves nitrogen oxide (NO) and
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`reactive oxygen species (ROS). Ex. 2028, 309.
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`62. Another mechanism by which the tumor cells evade the immune
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`system is the inability of the immune cells to penetrate the tumor. Ex. 2028, 310.
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`63. PO’s expert admitted he did not account for any of these known
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`alternative possibilities of immunosuppressive mechanisms when providing his
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`enablement analysis. Ex. 1042: 47:21-59:3.
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`H. Check Point Inhibitors Show Low Response Rates In A Limited
`Number Of Cancers And For Only A Subset Of Cancer Patients
`Having Those Cancers
`
`64. PO asserts that “cancers from all manner of tissue types and all
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`degrees of mutational burden have been shown to respond to CPI therapy,” and
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`17
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`therefore, it “would not have been necessary to test all cancers for CPI efficacy.”
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`See POR, 9-13, 6. PO alleges that a sample of clinical trial reports, whose results
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`are tabulated in a demonstrative Table at page 10 of the POR, showed responses in
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`cancers arising in a wide variety of tissue types that are collectively representative
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`of all cancers. POR, 11. Further, PO alleges those reports showed responses in
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`cancers throughout the mutational landscape, as shown in annotated Figures at p.
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`11 and 12 of the POR. Id.
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`65. Patent Owner grossly overstates its case. Those clinical trial reports
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`provide data for a total of 3 different checkpoint inhibitors: CTLA-4, PD-1, and
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`PD-L1; and for 16 types of cancer. None of the CPI’s are antibody fragments or
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`interfering nucleic acids. Nor do sixteen cancers do not correspond to all “cancers
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`from all manner of tissue types” as alleged by PO. Furthermore, the clinical trial
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`reports do not provide data for cancers throughout the mutational landscape.
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`Nearly 50% (13 of 29) of the cancers listed on the annotated Figure on page 11 of
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`the POR were not shown as being responsive to checkpoint inhibitors, and the low
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`response rates for each type of CPI are even more limited in terms of the cancer
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`types: CTLA-4 (4/29); PD-1 (12/29); and PD-L1 (2/29). See, e.g., claims 13, 14,
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`16-18, and 27-29. And approximately 25% percent of the cancers listed on a
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`smaller sample size of cancers (3 of 12) were not shown as being responsive to
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`checkpoint inhibitors.
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`18
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`66. Patent Owner also overstates the value of the “response rates” of those
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`clinical trials. Most of the clinical trials were Phase I trials that tested for safety,
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`not efficacy, and thus, did not include controls. Furthermore, many of the sample
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`sizes were extremely small and thus could not rule out the natural variability of
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`cancer progression. Accordingly, those clinical trial responses are preliminary
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`findings at best.
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`67. PO alleges Ex. 2037 shows a response rate of 2/3 for chronic
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`lymphocytic leukemia administered a PD-1 antibody. Ex. 2037 actually shows that
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`two of the patients exhibited stable disease. However, one patient had Stage A
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`CLL and the other had Stage C CLL. Further, the patients were reported as having
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`“advanced” CLL, not progressive CLL. (Dr. Mani was therefore wrong when he
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`testified that the patients had progressive CLL, and therefore, acted as its own
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`control. (Ex. 104*, 62:10-15 (“when a patient comes in with progressive disease,
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`the patient is their own control”). Accordingly, given the extremely small sample
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`size and the lack of a control, the reported response rates are not reliable.
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`68. Ex. 2038 is a short poster presentation reporting on the “safety/
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`tolerability” of a PD-1 antibody administered alone or in combination with an
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`CTLA-4 antibody to glioblastoma patients (no control). Each arm comprised 10
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`patients, with six of the ten patients showing an overall survival of 6 months. The
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`trial did not include a control.
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`19
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`69. Ex. 2039 in its Abstract describes administering an CTLA-4 antibody
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`to ten glioblastoma patients (no control). The overall survival (OS) for the 6 best
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`patients was 5.1 months, which compares to “currently available treatments for
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`recurrent glioblastoma [that] are inadequate [having] a mean survival [of]
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`approximately six months.”
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`70. Ex. 2040 reports on administering a CTLA-4 antibody to treat patients
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`having advanced pancreatic ductal adenocarcinoma. Two out of fifteen patients
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`were reported as showing stable disease at 7 and 22 weeks. The authors conclude
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`that “there is insufficient data to conclude that ipilimab alone or the combination of
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`ipilimab + GVAX leads to better clinical outcomes.” P. 388
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`71. Ex. 2043 reports administering a PD-1 antibody to treat patients with
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`platinum resistant ovarian cancer (no controls). Three of the thirteen patients
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`exhibited partial responses. The authors concluded that the PD-1 antibody has
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`“encouraging clinical efficacy.”
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`I.
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`Extensive and Undue Experimentation Is Required To Practice
`the Claims of the ‘302 Patent
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`72. PO asserts that cancer treatment typically involves trial and error
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`before “settling on a treatment that provides a satisfactory benefit,” and therefore,
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`such trial and error testing is routine. POR at 16-19.
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`73. PO’s assertions are groundless. It is undisputed the ‘302 specificatio