Ex Parte Hawiger et alDownload PDFPatent Trial and Appeal BoardSep 27, 201209925284 (P.T.A.B. Sep. 27, 2012) Copy Citation UNITED STATES PATENT AND TRADEMARK OFFICE UNITED STATES DEPARTMENT OF COMMERCE United States Patent and Trademark Office Address: COMMISSIONER FOR PATENTS P.O. Box 1450 Alexandria, Virginia 22313-1450 www.uspto.gov APPLICATION NO. FILING DATE FIRST NAMED INVENTOR ATTORNEY DOCKET NO. CONFIRMATION NO. 09/925,284 08/09/2001 Daniel Hawiger RUJ-001CNCPRCE2 2660 959 7590 09/28/2012 NELSON MULLINS RILEY & SCARBOROUGH LLP FLOOR 30, SUITE 3000 ONE POST OFFICE SQUARE BOSTON, MA 02109 EXAMINER SCHWADRON, RONALD B ART UNIT PAPER NUMBER 1644 MAIL DATE DELIVERY MODE 09/28/2012 PAPER Please find below and/or attached an Office communication concerning this application or proceeding. The time period for reply, if any, is set in the attached communication. PTOL-90A (Rev. 04/07) UNITED STATES PATENT AND TRADEMARK OFFICE __________ BEFORE THE PATENT TRIAL AND APPEAL BOARD __________ Ex parte DANIEL HAWIGER, MICHEL C. NUSSENZWEIG, and RALPH M. STEINMAN __________ Appeal 2012-007915 Application 09/925,284 Technology Center 1600 __________ Before DEMETRA J. MILLS, ERIC GRIMES, and ERICA A. FRANKLIN, Administrative Patent Judges. FRANKLIN, Administrative Patent Judge. DECISION ON APPEAL This is an appeal under 35 U.S.C. § 134(a) involving claims to methods for enhancing the development of tolerance to a preselected antigen. The Patent Examiner rejected the claims as failing to comply with the written description requirement and as lacking enablement. We have jurisdiction under 35 U.S.C. § 6(b). We affirm. Appeal 2012-007915 Application 09/925,284 2 STATEMENT OF THE CASE Claims 6-9 and 13-21 are on appeal. Independent claims 6, 13, 14, and 18 are representative and read as follows: 6. A method for enhancing the development of tolerance to a preselected antigen for which tolerance is desired, in a mammal comprising exposing ex vivo or in vivo dendritic cells from said mammal to a conjugate comprising said preselected antigen covalently bound to an anti-human DEC-205 antibody or an anti-murine DEC-205 antibody that binds to human DEC-205 under conditions that promote dendritic cell quiescence, said human DEC-205 protein comprising an amino acid sequence as set forth in SEQ ID NO: 7, and wherein said preselected antigen is selected from the group consisting of allergens, autoantigens and antigens participating in allograft rejection. 13. A method for enhancing the development of tolerance to a preselected antigen for which tolerance is desired in a mammal, comprising exposing ex vivo or in vivo dendritic cells from said mammal to a conjugate comprising said preselected antigen covalently bound to an anti-human DEC-205 antibody, wherein the antibody is reactive with an amino acid sequence as set forth in SEQ ID NO: 7, under conditions that promote dendritic cell quiescence, wherein said preselected antigen is selected from the group consisting of allergens, autoantigens and antigens participating in allograft rejection. 14. A method for enhancing the development of tolerance to a preselected antigen for which tolerance is desired, in a mammal comprising exposing ex vivo or in vivo dendritic cells from said mammal to a conjugate comprising said preselected antigen covalently bound to an anti-murine DEC-205 antibody, wherein the antibody is reactive with an amino acid sequence as set forth in SEQ ID NO: 7, under conditions that promote dendritic cell quiescence, and wherein said preselected antigen is selected from the group consisting of allergens, autoantigens and antigens participating in allograft rejection. 18. A method for enhancing the development of tolerance to a preselected antigen in a mammal, the method comprising exposing ex vivo or in vivo dendritic cells from the mammal to a conjugate comprising the preselected Appeal 2012-007915 Application 09/925,284 3 antigen bound to an anti-mouse DEC-205 antibody that cross reacts with human DEC-205 under conditions that promote dendritic cell quiescence, wherein the mouse DEC-205 protein comprises the amino acid sequence of SEQ ID NO: 10. The Examiner rejected the claims as follows: • claims 6-9 and 13-21 under 35 U.S.C. § 112, first paragraph, as failing to comply with the written description requirement; • claims 6-9 under 35 U.S.C. § 112, first paragraph, as failing to comply with the written description requirement (new matter); • claims 6-9 and 13-21 under 35 U.S.C. § 112, first paragraph, as lacking enablement; and • claims 16 and 17 under 35 U.S.C. § 112, second paragraph as being indefinite. 1 WRITTEN DESCRIPTION The Examiner‟s position is that the Specification does not convey to an artisan that Appellants had possession, at the time of filing, of the conjugate recited in the claimed method. (Ans. 6.) The Examiner found that the claim “term [„]human DEC-205[‟] would appear to encompass full length human DEC-205[,] as well as mutants and variants or alleles of said human protein….” (Id.) The Examiner found that the while the full length murine DEC-205 protein was disclosed in the Specification of the parent application, there was no disclosure of the full length human DEC-205. (Id.) Specifically, the Examiner found that human DEC-205 contains 1 (Ans. 15.) Appellants do not present the indefiniteness rejection for review. (App. Br. 5; Ans. 27.) Therefore, we do not address this rejection further. Appeal 2012-007915 Application 09/925,284 4 approximately 1800 amino acids and that the Specification disclosed sequences for two peptides derived from the human DEC-205 having 30 and 25 amino acids, respectively, but did not disclose the identity of the remaining approximately 1750 amino acids. (Id.) Appellants contend that the Specification‟s “disclosure of the partial human DEC-205 sequence and the full length murine DEC-205 sequence, in combination with knowledge available in the art, were sufficient to demonstrate to one of ordinary skill that they had full possession of the complete human DEC-205 protein, and antibody conjugates against the protein, at the time the present application was filed.” (App. Br. 7.) According to Appellants, the fact that they successfully isolated and characterized full-length mouse DEC-205 from whole murine thymus using mAb NLDC-145, an anti-mouse DEC-205 antibody, and successfully raised antibodies against N-terminal peptides from mouse DEC-205 protein “provides clear evidence that the partial human DEC-205 sequence described in the present disclosure put Appellants in possession of the complete DEC-205 protein and antibodies against the protein.” (Id. at 10.) Further, Appellants assert that “[i]t was also well within the skill in the art to have generated full-length human DEC-205 protein, as well as variants of the human DEC-205 protein.” (Id. at 11.) Additionally, Appellants submit the Declaration of Dr. Michel Nussenzweig as evidence that “the cloning techniques and techniques for generating antibodies described in the specification were ultimately successfully used to clone and isolate human DEC-205 and to produce antibodies against full-length human DEC-205.” (Id. at 11.) According to Appellants, this fact “provides clear evidence that Appellants were in fact Appeal 2012-007915 Application 09/925,284 5 indeed in possession of the claimed invention based on the descriptive text provided within the four corners of Appellants‟ originally filed disclosure.” (Id.) Moreover, Appellants contend that “the structure and function of human DEC-205 clearly correlates to that of mouse DEC-205,” such that the disclosure of an “in-depth characterization of mouse DEC-205, including its full-length sequence… provides further basis for fully meeting the Written Description requirement.” (Id. at 8.) Regarding claims 18-21, Appellants assert that “these claims are drawn to methods employing antibody conjugates that bind to full length murine DEC-205 protein … (SEQ ID NO:10),” which sequence is explicitly disclosed in the Specification. (Id. at 6.) Further, Appellants assert that while these claims require the antibody conjugates to “cross-react with human DEC-205, the epitopes of human DEC-205 that the conjugates bind to are thus, by definition, shared with (i.e., cross-reactive with) murine DEC- 205.” (Id. at 7.) According to Appellants, “the sequence of these epitopes is provided as part of the full length murine DEC-205 sequence recited in the claims (SEQ ID NO: 10).” (Id.) Analysis I. Claims 6-9 and 13-17 After considering all the evidence and arguments, we conclude that the disclosure as originally filed did not reasonably convey to those skilled in the art that the inventors had possession of the subject matter of claims 6- 9 and 13-17 as of the filing date. Ariad Pharm., Inc. v. Eli Lilly and Co., 598 F.3d 1336, 1351 (Fed Cir. 2010). Appellants do not challenge the Examiner‟s interpretation of these claims as encompassing methods of using Appeal 2012-007915 Application 09/925,284 6 antibody conjugates that bind any part of full length human DEC-205, as well as variants thereof. Nor do Appellants dispute the Examiner‟s finding that the full length human DEC-205 was not disclosed in the Specification. Rather, Appellants assert that the inventors, nevertheless, had full possession of the complete human DEC-205 protein, and antibody conjugates against the protein, at the time the application was filed, as evidenced by the disclosure of the partial human DEC-205 sequences, the full length murine DEC-205 sequence, and the skill and knowledge available in the art to generate full-length human DEC-205 and its variants. (App. Br. 7.) According to Appellants, Dr. Nussenzweig‟s declaratory testimony that “the cloning techniques and techniques for generating antibodies described in the specification were ultimately successfully used to clone and isolate human DEC-205 and to produce antibodies against full-length human DEC-205” also provides evidence that the inventors were in possession of the claimed invention. (Id. at 11.) We disagree with Appellants. Dr. Nussenzweig‟s declaration refers to a cloned human DEC-205 sequence that was not disclosed in the Specification. Moreover, the fact that Dr. Nussenzweig “ultimately successfully” cloned and isolated human DEC-205 and produced antibodies against full length human DEC-205 does not establish that the inventors were in possession of the subject matter at the time the application was filed. Consequently, while we recognize Dr. Nussenzweig‟s apparent expertise in the field of immunology, we do not accord his testimony persuasive weight. The written description requirement “requires a description of an invention, not an indication of a result that one might achieve if one made that invention.” Regents of the University of California v. Eli Lilly & Co., 119 Appeal 2012-007915 Application 09/925,284 7 F.3d 1559, 1568 (Fed. Cir. 1997). Indeed, to comply with the written description requirement, an applicant must “describe[] the invention, with all its claimed limitations, not that which makes it obvious….” Id. at 1566 (citation omitted). Thus, Appellants have not satisfied this requirement by asserting that their disclosure, in combination with the skill and knowledge available in the art, would have allowed an artisan to generate, i.e., eventually gain possession of, the undisclosed full-length human DEC-205 and its variants. Accordingly, we affirm the rejection of claims 6-9 and 13- 17. II. Claims 18-21 While we agree with Appellants that the full length murine DEC-205 protein is explicitly disclosed in the Specification as SEQ ID NO:10, we do not agree that this disclosure provides evidence that the inventors were in possession of the recited antibody conjugates, wherein the antibody cross reacts with human DEC-205. Specifically, Appellants have not provided evidence establishing such possession by merely asserting that “the epitopes of human DEC-205 that the conjugates bind to are …, by definition, shared with (i.e., cross-reactive with) murine DEC-205.” (App. Br. 7.) Appellants have not described which epitopes of murine DEC-205 are shared with (i.e., cross-reactive with) those of human DEC-205, and therefore have not adequately shown that they were in possession of antibody conjugates binding to such epitopes at the time the application was filed. Accordingly, we affirm the rejection of claims 18-21. Appeal 2012-007915 Application 09/925,284 8 NEW MATTER The Examiner rejected claims 6-9 as containing new matter. (Ans. 9.) We do not reach the new matter rejection, as we have previously affirmed the Examiner‟s rejection of these claims as failing to comply with the written description requirement. ENABLEMENT The Examiner‟s position is that the Specification is not enabling for the claimed methods. (Ans. 10.) The Examiner found that the Specification does not disclose how to use the instant invention for the enhancing of tolerance or treating allograft rejection in humans in vivo or treating autoimmune disease in humans in vivo. (Id.) The Examiner found that the Specification disclosed data resulting from experiments in mice, however, no diseases were actually treated. (Id. at 14.) The Examiner found the state of the art is unpredictable in the absence of evidence as to how to use the invention. (Id. at 10.) In particular, the Examiner found that Nossal 2 taught that „“[t]here has been a great deal of discussion as to whether suppression can be achieved in therapeutic models by applying the principles coming from model situations.”‟ (Id. at 12-13.) The Examiner also found that Nossal explained that animal models are not necessarily analogous to the situations encountered in human disease. (Id. at 13.) The Examiner found that the Specification provided no working examples demonstrating that the claimed invention can be used for the induction of tolerance/treatment of disease in vivo in humans or any animal model. (Id.) According to the 2 Gustav J.V. Nossal, Immunologic Tolerance, Fundamental Immunology (1989). Appeal 2012-007915 Application 09/925,284 9 Examiner, it is well known in the art that rodent models for the study of transplantation do not produce results that are readily applicable to humans. (Id.)(citing Tueveson‟s 3 discussion of the ease with which rejection is usually suppressed in rodent models as compared to humans). Additionally, the Examiner found that Mestas 4 disclosed that the immune response of mice differs in numerous significant ways from the immune response in humans. (Id. at 15.) According to the Examiner, the state of the art is, thus, that it is highly unpredictable whether any particular method can be used to successfully achieve allograft transplantation in humans. (Id. at 13.) Further, the Examiner found that the Specification does not provide evidence regarding the use of the claimed method to treat autoimmune disease, as recited in claims 6 and 13. (Id.) The Examiner found that the high degree of unpredictability in the art is evidenced by (a) Spack, 5 which discusses unsuccessful attempts to treat an autoimmune disease (Multiple Sclerosis) by inducing tolerance to myelin protein and (b) McKown, 6 which explained that attempts to treat an autoimmune disease (rheumatoid arthritis) by inducing tolerance to collagen have been unsuccessful. (Id. at 13-14.) 3 G. Tueveson et al., New Immunosuppressants: Testing and Development in Animal Models and the Clinic: with Special Reference to DSG, 136 Immunology Review 101-107 (1993). 4 Mestas et al., Of Mice and Not Men: Differences between Mouse and Human Immunology, 172 Journal of Immunology 2731-2738 (2004). 5 Edward G. Spack, Antigen-specific therapies for the treatment of multiple sclerosis: a clinical trial update, 6(11) Exp. Opin. Invest. Drugs 1715-1727 (1997). 6 McKown et al., Lack of Efficacy of Oral Bovine Type II Collagen Added to Existing Therapy in Rheumatoid Arthritis, 42(6) Arthritis & Rheumatism 1204-1208 (1999). Appeal 2012-007915 Application 09/925,284 10 Based on the foregoing, the Examiner concluded that undue experimentation would be required of a skilled artisan to practice the claimed invention. (Id. at 15.) Appellants contend that the Specification is enabling. (App. Br. 14.) Specifically, Appellants assert that the Specification discloses “in vivo experiments in mice demonstrating that (1) antigen delivered to dendritic cells in vivo induces persistent T cell activation …, (2) the absence of persistent T cell activation in mice injected with an anti-DEC-205 antibody fused to hen egg lysozyme (αDEC/HEL) is not due to a lack of antigen and, therefore, that targeting of antigen to DEC-205 causes persistent T cell activation …, and (3) techniques for assessing dendritic cell function in mice receiving multiple doses of an anti-DEC-205 antibody fused to hen egg lysozyme (αDEC/HEL).” (Id.) According to Appellants, based on these in vivo working examples in mice, which “were (and still are) widely accepted animal models for assessing the clinical value of biological therapeutics,” a skilled artisan would not doubt that the disclosed mouse data correlates with the claimed invention nor that the claimed methods are fully enabled. (Id.) Regarding McKown, Appellants assert that, contrary to the Examiner‟s suggestion, the reference does not support a lack of predictability for the claimed invention. (Id. at 15.) According to Appellants, McKown provided many rationales for the failure of the combination therapies to provide significant clinical improvement in the disease, “none of which implicate a failure to induce tolerance to collagen per se.” (Id.) Moreover, Appellants assert that McKown‟s studies “did not involve targeting antigen (e.g., collagen) to DEC-205 and dendritic cells… [and] [a]s such, the teachings do not speak to the predictability of the Appeal 2012-007915 Application 09/925,284 11 presently claimed invention.” (Id.) Similarly, Appellants assert that Spack‟s studies did not establish any unpredictability of the claimed invention because its studies also did not involve targeting antigen (e.g., collagen) to DEC-205 and dendritic cells. (Id.) Regarding Tueveson, Appellants assert that the reference only suggested that data from small animal models should not be the sole basis for clinical decision making. (Id. at 16.) As for Mestas, Appellants assert that the reference teaches that the differences between mice and humans “should be taken into account when using mice as preclinical models of human disease.” (Id.) Analysis “[T]o be enabling, the specification of a patent must teach those skilled in the art how to make and use the full scope of the claimed invention without „undue experimentation.”‟ Genentech, Inc. v. Novo Nordisk, A/S, 108 F.3d 1361, 1365 (Fed. Cir. 1997)(quoting In re Wright, 999 F.2d 1557, 1561 (Fed. Cir. 1993)). “That some experimentation may be required is not fatal; the issue is whether the amount of experimentation required is „undue.”‟ In re Vaeck, 947 F.2d 488, 495 (Fed. Cir. 1991). Some experimentation, even a considerable amount, is not “undue” if, e.g., it is merely routine, or if the specification provides a reasonable amount of guidance as to the direction in which the experimentation should proceed. See In re Wands, 858 F.2d 731, 737 (Fed. Cir. 1988). Here, after considering all of the evidence and arguments, we agree with Appellants that based upon the disclosures in the Specification, the skill in the art, the state of the prior art, and the breadth of the claims, a skilled artisan would not have had to resort to undue experimentation to use the claimed methods for enhancing the development of tolerance to a Appeal 2012-007915 Application 09/925,284 12 preselected antigen in a mammal. We agree with Appellants that the art recognized the mouse as an acceptable animal model for assessing the clinical value of biological therapeutics. While the mouse model differs from a human model, the Examiner has not established that correlating the data from the mouse model to the human would have required an artisan to resort to undue experimentation. See In re Wright, 999 F.2d 1557, 1562 (Fed. Cir. 1993)(The Examiner has the initial burden to establish a reasonable basis to question the enablement provided for the claimed invention.). The evidence cited by the Examiner in support of his conclusion of nonenablement is concerned largely with the difficulty or unpredictability of achieving clinically useful treatment of disease in humans (see Answer 12-14). The claims, however, are directed to methods of “enhancing the development of tolerance to a preselected antigen” (e.g., claim 6), and the Examiner has not established that the only practical utility of the claimed method is in treatment of human disease. Thus, because the claims do not require achieving a therapeutically effective result, enabling the claimed method does not require that result either. See CFMT, Inc. v. Yieldup Int’l Corp., 349 F.3d 1333, 1338 (Fed. Cir. 2003) (“Title 35 does not require that a patent disclosure enable one of ordinary skill in the art to make and use a perfected, commercially viable embodiment absent a claim limitation to that effect.”). Accordingly, we reverse the non-enablement rejection. Appeal 2012-007915 Application 09/925,284 13 SUMMARY We affirm the rejection of claims 6-9 and 13-21 under 35 U.S.C. § 112, first paragraph, as failing to comply with the written description requirement; we reverse the rejection of claims 6-9 and 13-21 under 35 U.S.C. § 112, first paragraph, as lacking enablement. No time period for taking any subsequent action in connection with this appeal may be extended under 37 C.F.R. § 1.136(a). AFFIRMED alw Copy with citationCopy as parenthetical citation
