Case No: HP14 A 02748 |
CHANCERY DIVISION
PATENTS COURT
Fetter Lane, London, EC4A 1NL |
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B e f o r e :
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Case No: HP-2014-000038 MERCK SHARP & DOHME LIMITED |
Claimant |
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(1) ONO PHARMACEUTICAL CO. LIMITED (2) TASUKU HONJO |
Defendants |
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Case No: HP14 A 02748 (1) BRISTOL MYERS SQUIBB COMPANY (2) ONO PHARMACEUTICAL CO. LIMITED (3) TASUKU HONJO |
Claimants |
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(1) MERCK & CO. INC. (2) MERCK SHARP & DOHME LIMITED |
Defendants |
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Henry Carr QC, Anna Edwards-Stuart (instructed by Freshfields) for Ono, Prof Honjo and Bristol Myers Squibb
Hearing dates: 16th, 17th, 20th, 21st, 22nd, 27th and 28th July 2015
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Crown Copyright ©
Mr Justice Birss:
Topic | Para |
Introduction | 1 |
The issues | 3 |
The witnesses | 13 |
The skilled person | 19 |
Common general knowledge | 22 |
The patent | 97 |
Claim construction | 115 |
Added matter | 118 |
Priority / insufficiency/ lack of technical contribution | 122 |
Novelty | 173 |
Dana Farber 557 | 176 |
Wyeth 499 | 204 |
Inventive step | 206 |
The Latchman paper | 209 |
Dana Farber 557 | 239 |
The Tchekmedyian and Davis abstracts | 242 |
Summary and Conclusion | 243 |
Annex 1 – bibliography | Annex 1 |
Annex 2 – Immune system diagram | Annex 2 |
Introduction
The issues
Claim 1: Use of an anti-PD-1 antibody which inhibits the immunosuppressive signal of PD-1 for the manufacture of a medicament for cancer treatment.
Claim 3: Anti-PD-1 antibody which inhibits the immunosuppressive signal of PD-1 for the use in cancer treatment.
i) Novelty in the light of:a) PCT Application WO 01/14557 published on 1st March 2001 ("Dana Farber 557" );b) PCT Application WO 02/079499 filed on 2nd April 2002 and published on 10th October 2002 ("Wyeth 499").ii) Obviousness in the light of:
a) Dana Farber 557;b) "PD-L2 is a second ligand for PD-1 and inhibits T-cell activation" by Latchman et al (2001) Nature Immunology 2(3) pp261-268 ("the Latchman paper");c) "MDX-010 (human anti-CTLA4): a phase 1 trial in malignant melanoma" by Tchekmedyian et al (2002) Proc Am Soc Clin Oncol, 21 Abstract 56 ("the Tchekmedyian abstract");d) "MDX-010 (human anti-CTLA4): a phase 1 trial in hormone refractory prostate carcinoma (HRPC)" by Davis et al (2002) Proc Am Soc Clin Oncol, 21 Abstract 74 ("the Davis abstract");iii) Entitlement to the first priority date. This is challenged on the ground that the claim is not supported across its full width by the disclosure. It is admitted that if priority is lost, the claims are invalid over the Iwai paper (see below).
iv) Insufficiency / lack of technical contribution. This is really the same argument as arises in relation to priority.
v) Added matter.
The witnesses
The skilled person
Common general knowledge
The field of cancer immunotherapy
Immunotherapy – responsiveness of different cancers
Receptors, ligands and pathways
T-cells
Merck's detailed case on common general knowledge
(1) Activation of a naïve T-cell requires at least two independent signals: (a) the recognition of antigen by the T-cell receptor (signal one); and (b) a co-stimulatory signal delivered by antigen-independent molecules (signal two).
(i) Prof Rudd qualified this proposition to relate to activation of the majority of naïve T-cells and made the point that the second signal is delivered by an independent surface receptor. As qualified, this proposition is not disputed.
(2) Activation of naïve T-cells leads to their proliferation and differentiation into effector T-cells, i.e., CD8+ cytotoxic T lymphocytes (CTLs) and CD4+ helper T-cells.
(3) Activation of effector T-cells leads to proliferation of those effector T-cells, killing of target cells (by CTLs) and secretion of cytokines (by CTLs and helper T-cells).
(ii) Propositions (2) and (3) are common ground.
(4) Many tumours can in in vitro experiments induce T-cell mediated immune responses (i.e. CTL and helper T-cell responses) specific to those tumours due to the presence of unique antigens on the malignant cells. These T-cell-mediated responses are mediated by T-cells that have developed specificity for the malignant cells. Such tumour-specific T-cells are detectable in humans with established tumours, as well as healthy individuals. However tumours can suppress or evade immune responses directed toward them in vivo.(5) Some tumour cells are more immunogenic than others.
(6) T-cells can be induced to mediate an immune response which can inhibit the growth of a tumour.
(i) Propositions (4)-(6) are common ground.(7) Observations that tumour-infiltrating lymphocytes can be predictive of the prognosis of a subject with cancer provide support for the role of T-cell immunity in attenuating tumour progression.
(ii) This proposition is common ground. There was a detailed point in this context about Treg cells and cytolytic T-cells but it did not matter.(8) Stimulating T-cell immune responses to tumours by activating stimulatory receptors for application in cancer treatment was well established, for example, through tumour vaccines and high dose IL-2 treatment in metastatic renal cancer and metastatic melanoma.
(iii) Prof Rudd agrees that this proposition is common general knowledge, save that he states that the connection between IL-2 treatment and co-stimulatory receptors was less clear.(9) Some cancers, such as melanoma, are responsive to cancer immunotherapy approaches designed to enhance the body's immune response against cancers.
(10) T-cell mediated immune responses specific for a self-antigen can contribute to autoimmune disease.
(iv) Points (9) and (10) are common ground.
(11) CD28 is a membrane receptor that is constitutively expressed by most T-cells.
(12) B7-2 is constitutively expressed at low levels on most antigen presenting cells (APCs), such as dendritic cells, macrophages, and B-cells and its expression is rapidly up-regulated upon activation or IFN-? treatment of monocytes and dendritic cells. B7-1 is not expressed constitutively but is induced and expressed later on APCs after activation.
(13) Both B7-1 and B7-2 bind to CD28.
(i) It is common ground that points (11)-(13) were common general knowledge. B7-1 and B7-2 are therefore ligands for the CD28 receptor.
(14) B7-1 or B7-2 binding to CD28 provides the co-stimulatory signal (signal two) that along with the antigen signal (signal one), which binds to the T-cell receptor, activate naïve T-cells or enhance activation of effector T-cells.
(ii) Prof Rudd agreed this was common general knowledge, save that he made the point that B7-1 and B7-2 binding to CD28 provides "a" co-stimulatory signal. Merck accepted this qualification.
(15) CTLA-4 is a T-cell membrane receptor whose surface expression is induced upon activation of naïve T-cells and is homologous to CD28.
(iii) This was common ground subject to a qualification by Prof Rudd that human CTLA-4 has some homology to CD28. They share 33% amino acid homology.
(16) B7-1 and B7-2 bind to CTLA-4 with higher affinity than to CD28.
(17) The binding of B7-1 or B7-2 to CTLA-4 inhibits T-cell activation.
(iv) These two points (16) and (17) are common ground. B7-1 and B7-2 are therefore ligands for both the CD28 receptor and the CTLA-4 receptor.
(18) CTLA-4 fusion proteins (CTLA-4-Ig) block B7-CD28 interactions by binding to B7-1 and B7-2 and ameliorate graft-versus-host disease, allograft rejection in mice and humans and T-cell-mediated autoimmune disease in mice and humans.
(19) CTLA-4 knockout mice develop lethal T-cell mediated autoimmunity at a young age.
(20) Antibodies to CTLA-4 (anti-CTLA-4 antibodies) that block the binding of B7-1 and B7-2 to CTLA-4 enhance T-cell proliferation and cytokine production in vitro and enhance CTL and helper T-cell responses in mice.
(21) Blockade of the binding of B7-1 and B7-2 to CTLA-4 using an anti-CTLA-4 antibody exacerbates autoimmune disease in experimental autoimmune encephalomyelitis, a mouse model for human multiple sclerosis.
(22) Blockade of CTLA-4 using an anti-CTLA-4 antibody as a monotherapy can prevent growth of tumour cells in mice, cause rejection of pre-established tumours and provide protection against re-challenge with the tumours.
(v) It is common ground that propositions (18)-(22) were common general knowledge.
(23) An anti-CTLA-4 antibody was progressed into human clinical trials including in melanoma and initial positive results were reported at the ASCO Annual Meeting in May 2002.
(vi) This is best addressed in the CTLA-4 section below.
(24) PD-1 is a membrane receptor whose surface expression is induced upon activation of T and B-cells.
(i) Prof Rudd agreed that proposition (24) was common general knowledge.
(25) PD-1 is homologous to CTLA-4 and CD28 and is a member of the CD28 receptor family.
(ii) Prof Rudd agreed, subject to a qualification similar to that applied to point (15). PD-1 has some homology to CTLA-4 and CD28. PD-1 and CTLA-4 have 20% amino acid identity and CD-28 and CTLA-4 have 15% amino acid identity.
(26) PD-1 gene knockout mice develop autoimmune diseases, including lupus-like nephritis and dilated cardiomyopathy.
(iii) Prof Rudd agreed that this proposition was common general knowledge. The significance of PD-1 knockout mice is an important element in this case.
(27) PD-1 is the only identified receptor for PD-L1 and PD-L2.
(iv) PD-L1 and PD-L2 are ligands. As stated, this point is not in dispute but it needs to be seen in the context of the major issue about knowledge of the PD-1 pathway below.
(28) PD-L1 and PD-L2 are surface membrane proteins that are homologous to B7-1 and B7-2.
(v) Prof Rudd agreed, subject to a qualification similar to points (15) and (25). He accepted PD-L1 and PD-L2 have some homology with B7-1 and B7-2. The Latchman paper reports that the members of the B7 family (B7-1, B7-2, ICOS, PD-L1 and PD-L2) share 21-27% homology.
(29) PD-L1 and PD-L2 are expressed in both lymphoid and non-lymphoid tissues and their expression is up-regulated upon activation or IFN-? treatment of human monocytes and dendritic cells. PD-L1 is also expressed on activated human and mouse T-cells.
(vi) It is common ground this was common general knowledge.
(30) PD-L1 and / or PD-L2 expression had been detected in a number of the human and murine cancer cell lines which had been tested.
(vii) Prof Rudd "broadly" agreed with this, his qualification was that the Latchman paper had found expression of PD-L1 in some transformed breast cell lines, but not others. With that qualification the point is not disputed.
(31) It was established that the binding of PD-L1 or PD-L2 to PD-1 inhibits T-cell activation, although one group had reported that PD-L1 can stimulate T-cell activation.
(viii) This is the major issue about knowledge of the PD-1 pathway, addressed below.
(32) Ligand or receptor Ig fusion proteins and antibodies which prevent the formation of endogenous ligand-receptor pairs were tools used to block signalling mediated by receptors in the B7-CD28 family.
(i) Prof Rudd's view was that this overstates the position. His qualification was that although Ig fusion proteins and antibodies can block signalling, there will be those that do not block or only partially block signalling. I accept Prof Rudd's point.
(33) Antibodies to receptors or ligands in the B7-CD28 family can be generated and tested for their ability to bind to their target and prevent the formation of ligand-receptor pairs using standard techniques.
(ii) Prof Rudd agreed that this was common general knowledge. Merck also pointed out that Prof Rudd accepted that the making and screening of anti-PD-1 antibodies that inhibit the immunosuppressive signal of PD-1 was within the common general knowledge of the skilled person. This is correct but needs not to be taken out of context. The point which is not disputed is that if a skilled team wished to make and screen anti-PD-1 antibodies that inhibit the immunosuppressive signal of PD-1, they could do so as a matter of common general knowledge.
(34) In vitro T-cell assays can be used to study the functional effects of ligands and receptors and their modulation on T-cell activity.
(iii) Prof Rudd agreed this was common general knowledge subject to a qualification which does not matter.
(35) The manner in which ligands are presented, for example on the same surface (in "cis") or on different surfaces (in "trans"), in in vitro experimental models can result in ligated receptors being in close proximity to each other or apart from each other, respectively, on the target cell and thus influence the functional effects on the target cell achieved by inhibitory ligands.
(iv) Prof Rudd agreed that the cis/trans arrangement can affect the functional effects achieved by inhibitory ligands, but made the point that it is not a universal rule. That was not in dispute. There was a debate about the significance of a cis/trans arrangement but it is best dealt with in the context in which it arises.
(36) Knockout mice, transgenic mice and mouse tumour models are in vivo mouse models that are used to test the functional effects of ligands and receptors and their modulation.
(v) This is common ground. Knockout mice are strains of mice in which a single gene has been disabled (knocked out). This allows the function of that gene to be studied by seeing what happens when it is not there.
(37) Studies on CTLA-4 function and blockade informed the direction of research regarding the role of the PD-1 – PD-L pathway.
(vi) As stated the point is not in dispute but there are questions of degree. The issue is addressed in the CTLA-4 section below.
The B7 ligand and CD28 receptor families; T-cell co-stimulation and inhibition.
What was thought about the PD-1 pathway at the priority date
i) The skilled team regarded the PD-1 pathway, that is to say the interactions between the PD-1 receptor and the PD-L1/L2 ligands, as an inhibitory pathway; but the skilled team were aware as part of their common general knowledge that there was evidence of a discrepancy, in that the ligands PD-L1/L2 had been shown also to have a co-stimulatory effect.ii) The existence of a debate about the results was part of the common general knowledge. The skilled team knew that a proven explanation for these results had not been provided and knew there was more than one potential explanation.
iii) I reject the submission that the skilled team thought in terms of a "net effect" of the PD-1 receptor in vivo as being inhibitory. I was not persuaded that at the priority date the picture was a clear as Prof Boussiotis suggested. The impact of the loss of the PD-1 gene in knockout mice was the loss of an inhibitory function in vivo but nevertheless the existence of the discrepancy meant that the PD-1 receptor might not have an exclusively inhibitory effect in all circumstances.
iv) Knowledge of the second receptor theory without knowledge of the other alternative theories is not a fair representation of the common general knowledge. Any skilled person who was sufficiently interested in the behaviour of PD-L1/L2 and/or PD-1 to know of or encounter the second receptor theory would also be equally aware of the alternative theories.
The significance of CTLA-4
The patent
"The transplanted tumor cells proliferation was completely inhibited in PD-1-deficient mice to which J558 cells had been transplanted (figure. 5(c)). These results present that inhibition of PD-L1 or PD-1 is effective on cancer treatment."
Claim construction
Added matter
Priority/ insufficiency/ lack of technical contribution
i) There is no disclosure of an anti-PD-1 antibody being generated or tested in the priority document.ii) The claims are too wide to be supported by the narrower teaching of the priority document, because the teaching is limited to treating tumours which express PD-L1. That is because there is no data in the priority document about tumours which do not express PD-L1. Moreover a paragraph in the document, particularly when translated accurately, teaches that PD-L1 expression by the tumour is required. As an alternative, Merck contends that support is limited to treating tumours which express PD-1 ligands or are immunogenic, but even here that is not enough to support the unamended claim. In any case the skilled person would not have been able to predict based on the priority document that all cancers or substantially all cancers would be susceptible to anti-PD-1 therapy as required for the claims to be enabled across their breadth by the priority document.
iii) The unamended claims are too wide for the same reasons as are advanced in the added matter objection, i.e. to produce the unamended claim there has been selection of the following: PD-1 from a disclosure of {PD-1 or PD-L1}; an anti-PD-1 antibody from other therapeutic agents; cancer from a list including cancer, infection and other T-cell disorders; and (for the amended claim) melanoma from a list of cancers. For this argument the comparison is between the claims and the first priority document.
i) The claims are excessively broad since they cover any and all cancers but the patent does not render it plausible that all cancers can be treated by an anti-PD-1 inhibitory antibody. The patent does not enable an anti-PD-1 antibody that is suitable to treat all cancers, but at best presents an unduly burdensome research programme to find one. The patent does not disclose a principle of general application across all antibodies falling within the scope of the claims and so the patent's technical contribution, if any, is not as broad as its claims.ii) In fact there are cancers which are not treated by the claimed antibodies. The examples relied on are colorectal cancer, prostate cancer and multiple myeloma.
i) In examples 4 and 5, the priority document contains crucial in vivo mouse tumour model experiments in PD-1 knockout mice and expressly teaches that anti-PD-1 inhibitory antibodies would be expected to have a similar effect. Thus the fact that an anti-PD-1 antibody is not made or tested in the priority document does not matter.ii) The disclosure of the priority document is not limited to treating tumours which express PD-L1. The skilled person would not have believed that expression of PD-L1 on the tumour was required for tumour growth to be inhibited.
iii) The experiments in the priority document are evidence that blockade of PD-1 inhibits tumour growth in two different types of cancer. The skilled person would recognise that these results have a broad application in the treatment of cancer because the blockade treats the immune system rather than being directed to an attribute of any particular cancer. This makes it plausible that the invention is effective for treating a wide range of cancers.
iv) The plausibility of being able to treat a wide range of cancers has been corroborated by evidence published after the priority date. Anti-PD-1 antibodies are in clinical trials on a very wide range of cancers. Clinical approvals have been granted in a diverse group of cancers: including non-small cell lung cancer, melanoma and renal cancer, and others. Merck has not proved that anti-PD-1 antibodies are ineffective in colorectal cancer, prostate cancer and multiple myeloma.
v) The skilled person would not have identified any type of cancer which it was implausible that anti-PD-1 antibodies would treat and no such cancer has been identified in post-published evidence. The patent (and the priority document) give the skilled person enough information, as a result of in vivo cancer models, to make a fair prediction that such an antibody may well work and would be worth proceeding in trials. That is all that the law requires.
vi) The selection from lists argument as a point on priority is no better than it was when advanced for added matter. The priority document provides proper support for the claim.
The law on priority and insufficiency
"239. The specification must disclose the invention clearly enough and completely enough for it to be performed by a person skilled in the art. The key elements of this requirement which bear on the present case are these:
i) the first step is to identify the invention and that is to be done by reading and construing the claims;
ii) in the case of a product claim that means making or otherwise obtaining the product;
iii) in the case of a process claim, it means working the process;
iv) sufficiency of the disclosure must be assessed on the basis of the specification as a whole including the description and the claims;
v) the disclosure is aimed at the skilled person who may use his common general knowledge to supplement the information contained in the specification;
vi) the specification must be sufficient to allow the invention to be performed over the whole scope of the claim;
vii) the specification must be sufficient to allow the invention to be so performed without undue burden."
Plausibility
Assessment
"However it is likely difficult to talk about all of tumor treatments by the PD-1/PD-L1 pathway because PD-L1 is not highly expressed in all of tumor tissues."
i) Immunogenicity of a particular tumour type will vary from patient to patient;ii) All tumours express antigens which are not found in normal cells;
iii) Tumours that are non-immunogenic can become immunogenic through mutation over time; and
iv) A treatment itself may cause otherwise non-immunogenic tumours to become immunogenic.
Colorectal cancer, prostate cancer and multiple myeloma
Undue burden
Priority, sufficiency and Agrevo - conclusion
Novelty
"The skilled person would understand that the claim in question owes its novelty to the discovery of the new therapeutic use of the medicament. This emerges from a number of the cases, for example see the passages from Eisai quoted at [26] and [27] in Actavis v Merck. As Jacob LJ said at the end of [27]:
'the novelty of the process (i.e. use of X in the manufacture of a medicament for Y' comes from the 'new therapeutic use'.
Thus the skilled person would understand that the technical subject matter of the claim was concerned with the ultimate end use of the medicament, from which it derived its novelty."
"In the European Patent Office the view is taken that, with claims in either form, the actual achievement of the therapeutic effect is a functional technical feature of the claim, as opposed to a mere statement of purpose or intention."
Novelty: Dana Farber 557
"The present invention is based, at least in part, on the discovery that PD-1 is a receptor for B7-4 molecules expressed on antigen presenting cells. PD-1 transmits a negative signal to immune cells, similar to CTLA-4. B7-4 molecules are expressed on the surface of antigen presenting cells and provide a co-stimulatory signal to immune cells and can transmit downregulatory signals to immune cells, depending upon the molecule to which they bind. Thus, modulation of PD-1, B7-4, and/or the interaction between B7-4 and PD-1 results in modulation of the immune response."
Novelty: Wyeth 499
"In another application, upregulation or enhancement of a B7-4 co-stimulatory function is useful in the induction of tumor immunity. Endogenous expression of wild-type B7-4 on tumor cells inhibits the immune response against tumor cells. Accordingly, inhibition of the interaction between B7-4 on tumor cells and PD-1 is useful in inducing tumor immunity. In one embodiment a PD-1 antagonist (e.g. a non-activating antibody against PD-1 or B7-4 or a small molecule PD-1 or B7-4 antagonist) is administered to a subject having or at risk of a tumor."
Inventive step
"The question of obviousness must be considered on the facts of each case. The court must consider the weight to be attached to any particular factor in the light of all the relevant circumstances. These may include such matters as the motive to find a solution to the problem the patent addresses, the number and extent of the possible avenues of research, the effort involved in pursuing them and the expectation of success."
The Latchman paper
"Thus, we have described a subfamily of inhibitory molecules within the B7-CD28 family. The PD-L–PD-1 pathway may play a key role in the induction and/or maintenance of peripheral tolerance and autoimmune disease. The expression of PD-1 ligands in peripheral tissues suggests that this pathway may dampen inflammatory responses at these sites. It is worth noting that PD-L1 and PD-L2 mRNA expression are up-regulated in a variety of tumor cell lines. Cell surface expression of PD-L1 was confirmed in three of four human breast cancer lines examined. These findings give impetus to the investigation of whether PD-L expression on tumors attenuates anti-tumor responses as well as the role of the PD-1 pathway in the pathogenesis of human autoimmune disease. Because PD-L1 and PD-L2 can inhibit effector T cell proliferation and cytokine production, the PD-L–PD-1 pathway may be an attractive therapeutic target. Blocking the PD-1 pathway may enhance anti-tumor immunity, whereas stimulating this pathway may be useful for down-regulating ongoing immune responses in transplant rejection and autoimmune and allergic diseases."
"13.3 Together [the findings disclosed in Latchman] indicated that the PD-1/PD-L pathway was one of nature's important mechanisms for tolerance induction. They would provide immediate interest and impetus for the skilled person to block inhibitory signaling of the PD-L1/PD-L2-PD-1 pathway in order to induce anti-tumor immunity, as proposed in the last paragraph of the discussion of the Latchman paper.
13.4 It would have been obvious for the skilled person to test the effects of blocking PD-1 mediated signaling in an in vivo tumor model such as a mouse model in which a tumor is implanted or in mice which are known to develop tumors spontaneously. I believe the skilled person would have used an antibody against murine PD-1 or one of the murine PD-1 ligands as the blocking agent and would test its effect on tumor growth in that model.
13.5 In my opinion, the skilled person would in the first instance, choose to test an agent that blocked the signaling of PD-1, as opposed to a blocking agent against the ligands, because Latchman had shown that some tumors express PD-L1 and some express PD-L2. A blocking agent against PD-1 would be expected to prevent inhibitory signaling from either PD-L1 or PD-L2 from mediating their inhibitory effects through PD-1 on T cells.
13.6 I consider that in a transplanted tumor model an obvious tumor cell line to use would have been the P815 mastocytoma cell line. The results shown in Figure 3c of Latchman are that murine PD-L1 and PD-L2 mRNA are both expressed by P815 tumor cells; P815 had been extensively studied before and was well known to be immunogenic; and previous studies have documented that immunogenic tumor cells are the ones amenable to immune-based approaches for growth inhibition. Together these reasons made it a good candidate for the test of improving anti-tumor immunity by the blockade of PD-1 mediated inhibition.
13.7 Such mouse models and tumor cell lines were commercially available and easy to purchase by the skilled person in July 2002.
13.8 Methods for generating monoclonal antibodies would have been well known to the skilled person in July 2002 although a significant amount of practical work would have been required to generate an anti-PD-1 monoclonal antibody. However, such work would not have been unusual and would have been well within the norm for developing a therapeutic antibody at that time. For example ….
13.9 Before carrying out the mouse tumor model test, the skilled person, using standard assays known before July 2002, would have confirmed that a generated anti-PD-1 antibody binds to the PD-1 protein, blocks the binding of the PD-1 ligands to PD-1 and increases T cell responses as a result of blocking PD-1 signaling.
13.10 I consider that the generation and testing of an anti-PD-1 antibody in a mouse tumor model would have been logical and obvious for the skilled person to do based on the information in Latchman. For these reasons, I do not believe that this can be regarded as inventive or innovative in the light of what Latchman describes along with what the skilled person would have known from their common general knowledge.
13.11 The experiments in Latchman teach the skilled person that PD-L1 and PD-L2 through PD-1 mediate a potent inhibitory signal on antigen-specific mediated T cell activation, cell cycle progression and cytokine production. Although these experiments were not done in the context of tumors, they provide a strong expectation that blocking PD-1 mediated signaling would enhance anti-tumor immunity. There are a number of additional factors which would have made the skilled person expect a positive outcome:
(1) The PD-L1/PD-L2 mediated inhibition seen in Latchman was observed in the context of moderate to low intensity TCR signals. Tumors are in general weakly immunogenic, thereby their low intensity TCR signaling would have a high chance of being inhibited by PD-1 and therefore PD-1 blockade would be expected to have a beneficial effect on anti-tumor immunity by enhancing T cell responses.
(2) Antibodies to CTLA-4, which was considered to be a paradigm for PD-1, had already demonstrated that up-regulation of the immune response as a result of blocking signals which suppress T cell functions provides anti-tumor effects in mouse models. This prior work would have been very encouraging to the skilled person.
(3) CTLA-4's ligands, B7-1 and B7-2, were known not to be expressed on tumors. They are expressed on APCs. PD-1 ligands are expressed both on APCs and on tumors themselves suggesting that the PD-1 pathway might have greater relative importance as an immunosuppressive pathway that compromises anti-tumor immunity. Therefore blocking of this pathway would have a very high chance to enhance T cell responses against tumors."
15 Q. You would say that it demonstrates a reasonable expectation of
16 the broad applicability of the blockade of PD-1
17 immunosuppressive signal in the treatment of cancer.
18 A. Correct.
19 Q. We have talked about the excitement when you saw the
20 anti-tumour mouse models for the CTLA-4 blockade in 1996.
21 A. Yes.
22 Q. If you had seen this in July 2002, rather like Professor Rudd,
23 you would have been stopping your colleagues in the street and
24 saying, "Have you seen these antitumour mouse models in
25 respect of the PD-1 blockade? would you not?
2 A. Of course, it would be very, very exciting.
(T2/35415-3552)
Dana Farber 557
The Tchekmedyian and Davis abstracts
Summary and Conclusion
i) At the priority date the common general knowledge of the person skilled in the art included the idea that the PD-1 pathway was an important aspect of the immune system with a role in self-tolerance. It could be a target for therapeutic manipulation. This knowledge included the concept that PD-1 was an inhibitory receptor. However it also included knowledge of a debate about the PD-1 pathway. It was known that ligands to PD-1 also had a co-stimulatory effect and it was known that a proven explanation had not emerged.ii) The in vivo mouse data contained in the first priority document, in which two different kinds of tumour are transferred to PD-1 knockout mice, represent an important advance. The data make plausible the idea that an agent which blocks the PD-1 receptor can manipulate the immune system in such a way as to treat cancers in general, not only those tumours which express PD-1 ligands. Nevertheless, while the reasonable prediction which the priority document supports is a wide one, it does not purport to promise that every cancer patient in all circumstances can be treated. Claims 1 and 3 are plausible and are entitled to priority.
iii) The patent enables the skilled person to make and use anti-PD-1 antibodies as anti-cancer medicines. Moreover, and crucially, the evidence today shows that anti-PD-1 antibodies have been approved to treat a number of different cancers and are worth investigating in a very wide range of cancers. The evidence today also shows that anti-PD-1 monotherapy probably does not treat prostate cancer and most colorectal cancers, but this does not demonstrate a lack of technical contribution or undue burden. The law does not require perfection.
iv) The prior art document Dana Farber 557 discloses the idea of manipulating the PD-1 pathway and includes the idea of an anti-PD-1 agent as a therapeutic agent to be used to treat a number of diseases including cancer. That agent could be an anti-PD-1 antibody. However the document includes evidence of both the inhibitory effect of the PD-1 receptor and the co-stimulatory effect of PD ligands. While its disclosure may be enough to support the general idea of using an agent which acts somehow on the PD-1 pathway in medicine, it does not make plausible the specific idea of an anti-PD-1 agent to treat cancer. The same is true for the prior art Wyeth 499. Therefore claims 1 and 3 are novel.
v) The claims involve an inventive step over the Latchman paper and Dana Farber 557 because the common general knowledge includes knowledge of the existence of the debate about the cause of the co-stimulatory role of PD-1 ligands. Although it was known that the PD-1 receptor was inhibitory, the existence of the debate meant that a skilled person who conducted a test of PD-1 blockade against a tumour in a mouse, would not have a fair expectation of success. The mouse tumour results in the patent were exciting and were not predictable from the prior art. Claims 1 and 3 are not obvious.
vi) The Tchekmedyian and Davis abstracts do not render the claims obvious either. They are not concerned with the PD-1 pathway at all.
Annex 1 – Bibliography other than cited prior art
Dong, H. et al. (1999). B7-H1, a third member of the B7 family, co-stimulates T-cell proliferation and interleukin-10 secretion. Nature Medicine 5(12): 1365-1369, Dec. 1999.
Nishimura, H. et al. (1999). Development of Lupus-like Autoimmune Diseases by Disruption of the PD-1 Gene Encoding an ITIM Motif-Carrying Immunoreceptor. Immunity 11: 141-151, 1999.
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Annex 2 – immune system diagram - Figure 10 of the primer: