Ex Parte MABASHI-ASAZUMA et alDownload PDFPatent Trial and Appeal BoardJan 2, 201914504195 (P.T.A.B. Jan. 2, 2019) Copy Citation UNITED STA TES p A TENT AND TRADEMARK OFFICE APPLICATION NO. FILING DATE FIRST NAMED INVENTOR 14/504,195 10/01/2014 HIDEAKI MABASHI-ASAZUMA 110 7590 01/03/2019 DANN, DORFMAN, HERRELL & SKILLMAN 1601 MARKET STREET SUITE 2400 PHILADELPHIA, PA 19103-2307 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 ATTORNEY DOCKET NO. CONFIRMATION NO. 3309-P06081USOO 1049 EXAMINER BROWN, MINDY G ART UNIT PAPER NUMBER 1636 MAIL DATE DELIVERY MODE 01/03/2019 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 HIDEAKI MABASHI-ASAZUMA and DONALD L. JARVIS 1 Appeal2018-000093 Application 14/504, 195 Technology Center 1600 Before ULRIKE W. JENKS, JOHN G. NEW, and DAVID COTTA, Administrative Patent Judges. NEW, Administrative Patent Judge. DECISION ON APPEAL 1 Appellants identify The University of Wyoming as the real party-in- interest. App. Br. 3. Appeal2018-000093 Application 14/504, 195 SUMMARY Appellants file this appeal under 35 U.S.C. § I34(a) from the Examiner's Final Rejection of claims 1-11, 18-21, 23, 24, and 25 as unpatentable under 35 U.S.C. 103(a) over the combination of Jarvis (US 6,461,863 Bl, October 8, 2002) ("Jarvis") and Sandig et al. (US 2012/0214975 Al, August 23, 2012) ("Sandig"). 2 We have jurisdiction under 35 U.S.C. § 6(b ). We AFFIRM. NATURE OF THE CLAIMED INVENTION Appellants' invention is directed to compositions for reducing fucosylation of glycoproteins in insect cells and methods of use of such compositions for the production of recombinant humanized proteins. Abstract. REPRESENTATIVE CLAIM Claim 1 is representative of the claims on appeal and recites: 1. A recombinant baculovirus expression vector for transient expression of GDP-4-dehydro-6-deoxy-D-mannose reductase (RMD) for producing a protein of interest having a stable fucose negative phenotype in an insect cell, said vector comprising the following operably linked components, 2 The Examiner also rejected claims 11 and 24 as unpatentable under 35 U.S.C. § 112, second paragraph, for failing to particularly point out and distinctly claim the subject matter. Final Act. 3. The Examiner has withdrawn this rejection. See Advisory Act., August 19, 2016, at 4. 2 Appeal2018-000093 Application 14/504, 195 i) an expression control sequence functional early in infection operably linked to a codon optimized RMD encoding nucleic acid, early expression of said RMD reducing endogenous GDP-L-fucose levels; and ii) an insertion site suitable for insertion of one or more nucleic acids encoding at least one heterologous protein of interest, having a stable fucose-negative phenotype. App. Br. 28 (emphasis added). ISSUES AND ANALYSES We adopt the Examiner's findings, reasoning, and conclusion that the claims are prima facie obvious over the combined cited prior art. We address the arguments raised by Appellants below. A. Claims 1-11, 18-21, and 23-25 Issue 1 Appellants argue that the combined cited prior art fails to teach or suggest all of the limitations of the claims on appeal. App. Br. 16. Analysis The Examiner finds that Jarvis teaches a recombinant baculovirus expression vector for transient expression of an oligosaccharide-processing enzyme in an insect cell. Final Act. 4 (citing Jarvis col. 1, 11. 18-19; col. 2, 11. 28--43; col. 51, 11. 31-32). The Examiner finds that Jarvis teaches a vector comprising the following operably-linked components: an expression control sequence functional early in infection operably linked to a codon optimized an oligosaccharide-processing enzyme encoding nucleic acid; and an 3 Appeal2018-000093 Application 14/504, 195 insertion site suitable for insertion of one or more nucleic acids encoding at least one heterologous protein of interest. Id. at 4--5 (citing Jarvis col. 2, 11. 28--43; col. 10, 11. 9--13; col. 4, 11. 24--34). The Examiner finds, however, that Jarvis fails to expressly teach GDP-4-dehydro-6-deoxy-D-mannose reductase ("RMD"). Final Act. 6. The Examiner finds that Sandig relates to oligosaccharide processing enzymes, and teaches an expression unit encoding RMD. Id. ( citing Sandig Abstr., ,r,r 30-33, 94). The Examiner concludes that it would have been obvious to a person of ordinary skill in the art to modify the recombinant baculovirus expression vector taught by Jarvis to include RMD to develop recombinant baculovirus expression vectors for transient expression of various oligosaccharide-processing enzymes, including RMD. Id. at 6-7. The Examiner further concludes that, given the teachings of the prior art and the level of ordinary skill in the art, a skilled artisan would have had a reasonable expectation of success in practicing the claimed invention. Id. at 7. Appellants point to their Specification to document their past efforts attempting to block recombinant glycoprotein fucosylation in the baculovirus-insect cell system, using an approach previously used to block core al,6-fucosylation in Chinese hamster ovary ("CHO") cells genetically transformed to overexpress RMD. App. Br. 16 (citing Spec. 30-32). Appellants note that, although they were able to isolate Sf9 and Hi5™ subclones that initially had fucose-negative phenotypes, and were able to produce a non-fucosylated recombinant glycoprotein, the fucose-negative phenotype of these cell lines was unstable, and that both insect cell lines resulting from this original effort reverted to fucose-positive phenotypes 4 Appeal2018-000093 Application 14/504, 195 after only a small number of passages in culture. Id. According to Appellants, it was not until the allegedly novel baculoviral vectors of claims 1-3 were designed and tested that Appellants were able to achieve the goal of producing a genetically stable baculovirus-insect cell system that could be used to produce heterologous proteins of interest lacking fucosylation. Id. at 16-1 7. Appellants assert that this outcome was surprising, and in no way predictable from the teachings of Jarvis or Sandig. Id. at 17. Appellants argue that Jarvis teaches that early and late promoters are interchangeable, and does not address temporal control of expression nucleic acids within the vector to produce a desired result. App. Br. 17. Appellants contend that another problem their invention overcomes is the inability of the prior art to produce non-fucosylated antibodies which have higher levels of effector function when expressed in the baculovirus-insect cell system, and that this result was also not at all predictable from the teachings of Jarvis and Sandig. Id. Appellants therefore argue that there could have been no reasonable expectation of success in combining the references, because Jarvis and Sandig provide no basis for expecting that a recombinant baculovirus expression vector having the ability to transiently express RMD immediately after infection would successfully yield therapeutic proteins having a stable fucose-negative phenotype. App. Br. 17. Appellants assert that the importance of the timing of RMD expression cannot be overstated because it was necessary to deplete endogenous cellular levels of GDP-fucose prior to the onset of production of the foreign protein in baculovirus-infected cells. Id. Appellants contend that neither Jarvis nor Sandig teaches or suggests to a person of ordinary skill in the art any reasonable expectation of the 5 Appeal2018-000093 Application 14/504, 195 successful functioning of the claimed baculovirus vector and kit for the production of non-fucosylated products. Id. Appellants further contend that Jarvis neither teaches nor suggests an appreciation of any of the problems experienced by Appellants in the development of their claimed invention. App. Br. 18. Notably, Appellants argue, Jarvis teaches, in relevant part, a baculovirus expression vector comprising at least a first glycosylation enzyme transcriptional unit including a structural gene encoding an oligosaccharide-processing enzyme, with the gene operatively positioned under the control of a baculoviral immediate early, delayed early, early or late promoter. Id. (citing Jarvis col. 2, 11. 38--43). Appellants assert that this teaches nothing more than that any one of the listed promoters would function equally well as any other in practicing the Jarvis invention. Id. at 18-19. Furthermore, Appellants argue, the baculoviral vectors of the present invention are designed to limit or prevent fucosylation whereas the enzymes of Jarvis are designed to add to, or modify oligosaccharide moieties on a target protein of interest. Id. at 19. Appellants argue that, although Sandig acknowledges the problem of high immunogenicity exhibited by the recombinant glycoproteins produced by cell lines, Appellants assert that Sandig neither teaches nor suggests any solution to that problem. App. Br. 19. Appellants contend that, like Jarvis, Sandig reflects no preference for, or appreciation of the importance of immediate RMD transient expression for successfully overcoming the problems experienced by Appellants in the development of their invention. Id. Therefore, Appellants argue, the motivation to combine the teachings of the references cannot be found without impermissibly employing hindsight 6 Appeal2018-000093 Application 14/504, 195 reconstruction of the invention using Appellants' Specification as a guide. Id. With respect to the Examiner's finding that Sandig teaches the general conditions of the claimed invention, Appellants assert that there is nothing in Sandig that would lead a person of ordinary skill in the art to construct a recombinant baculovirus vector having a control sequence functional early in infection and operably linked to a codon-optimized RMD-encoding nucleic acid to produce one or more proteins of interest having a stable, fucose-negative phenotype. App. Br. 19. Rather, Appellants argue, Sandig exemplifies the introduction of a constitutively expressed RMD gene, which the present inventors demonstrate is unsuccessful in a baculovirus-insect cell system. Id. Furthermore, Appellants argue, given that Jarvis teaches a nucleic acid detection kit that lacks essential elements of Appellants' claims because it does not include a baculoviral vector for early and transient expression of RMD and a late promoter for driving expression of a therapeutic protein of interest, Appellants assert that the Examiner cannot reasonably conclude that claims 18-21 are rendered unpatentable over the teachings of the cited prior art references. App. Br. 19-20. We do not find Appellants' arguments persuasive. As an initial matter, Appellants argue that the combined cited prior art references do not teach all of the limitations of the claims, but Appellants, in their Appeal Brief, do not expressly indicate which limitations of the claims are not taught or suggested by the references. Rather, we understand the gravamen of Appellants' arguments to be that a person of ordinary skill in the art would have had no expectation of success in combining the teachings of 7 Appeal2018-000093 Application 14/504, 195 Jarvis and Sandig, because the references provide no basis for expecting that a recombinant baculovirus expression vector having the ability to transiently express RMD immediately after infection, and with later expression of the protein of interest, would successfully yield therapeutic proteins having a stable fucose-negative phenotype. See App. Br. 17. In other words, Appellants argue that the combined references would not lead a person of ordinary skill in the art to understand the temporal separation of enzyme expression and protein expression, as recited in some of the claims, e.g., independent claim 3. Appellants also argue that the Examiner has derived the motivation for combining the references solely from the disclosures of Appellants' Specification, and thus impermissibly employed hindsight reasoning. See id. at 19. We find neither argument persuasive. Appellants' claim 1 recites, in relevant part: "an expression control sequence functional early in infection operably linked to a codon optimized RMD encoding nucleic acid, early expression of said RMD reducing endogenous GDP-L-fucose levels." Appellants assert that having the expression control sequence be functional early in infection is essential to the success of their claimed invention because, by that mechanism, endogenous cellular levels of GDP-fucose are depleted prior to the onset of production of the foreign protein in baculovirus infected cells. See App. Br. 17. However, Jarvis teaches that: The present invention overcomes the drawbacks in the prior art by providing new and improved baculoviral expression vectors, insect cell lines, compositions and various methods of use. The invention first provides a baculovirus expression vector characterized as: . . . comprising at least a first glycosylation enzyme transcriptional unit, the transcriptional unit comprising a 8 Appeal2018-000093 Application 14/504, 195 structural gene encoding an oligosaccharide processing enzyme, the gene operatively positioned under the control of a baculoviral immediate early, delayed early, early or late promoter. Jarvis col. 2, 11. 28--43 (emphasis added). In other words, Jarvis expressly teaches that the baculovirus expression vector comprises the transfected gene encoding an "oligosaccharide processing enzyme" that is operatively positioned under the control of a baculoviral early promotor. Furthermore, independent claim 3 additionally requires: "ii) an insertion site suitable for insertion of one or more nucleic acids encoding at least one heterologous protein of interest operably linked to a promoter active later in infection for production of said protein(s) of interest having a stable fucose-negative phenotype." Appellants contend that the references do not teach that the protein of interest is operably linked to a promoter active later in infection, i.e., temporally separated from the early promotion of the synthesis of the enzyme gene. See, e.g., App. Br. 18; Reply Br. 4--5. Indeed, Appellants argue, such is the key element of their invention. Id. However, we find that Jarvis expressly teaches: In particular aspects of the present invention, the vectors further comprise a baculovirus structural gene, with gp64, p 10 and/or polyhedrin being preferred examples. Certain embodiments of the present invention include at least one heterologous structural gene encoding a selected protein, the gene operatively positioned under the control of and in frame with, a promoter. Preferred are baculoviral promoters, more preferred are very late baculoviral promoters, and particularly preferred are the polyhedron and/or plO promoter. Alternatively the promoter is a promoter naturally associated with the heterologous structural gene. 9 Appeal2018-000093 Application 14/504, 195 Jarvis col. 4, 11. 24--42 (emphasis added). Jarvis thus teaches that expression of the enzyme preferably promoted early in infection (see col. 2, 11. 28--43) whereas the structural protein (i.e., the "protein of interest" of the claims) is promoted preferably later following transfection. We agree with the Examiner that a person of ordinary skill in the art would understand that Jarvis thus teaches or suggests a temporal separation between early promotion of the enzyme gene and later promotion of the gene encoding the protein of interest, as recited in claim 3. Although it is true that Jarvis does not teach RMD, Sandig teaches an expression unit that comprises: "a polynucleotide comprising a [transfected] nucleic acid sequence encoding an enzyme which uses GDP-6-deoxy-D- lyxo-4-hexulose as a substrate, wherein the enzyme does not catalyze the reaction which converts GDP-6-deoxy-D-lyxo-4-hexulose into GDP L- fucose," and that, preferably, "the enzyme which uses GDP-6-deoxy-D- lyxo-4-hexulose as a substrate is selected from the group consisting of GDP- 6-deoxy-D-lyxo-4-hexulose reductase (synonym[ous] with GDP-4-keto-6- deoxy-D-mannose reductase, abbreviated RMD)." Sandig ,r,r 32, 33, 94. Production of non-fucosylated glycoproteins is desirable because, as Sandig teaches, such glycoproteins are less immunogenic: The lack of fucose on glycoproteins has been shown to have specific advantages. For example, in monoclonal antibodies, immunoglobulins, and related molecules, it has been shown that absense [sic] of the core fucose sugar from the N-glycan attached to Asn297 of the Fe portion (CH2 domain) of immunoglobulins increases or alters its binding to Fe receptors. Id. at ,r 8. We therefore agree with the Examiner that a person of ordinary skill in the art would have been motivated to combine the system of Jarvis 10 Appeal2018-000093 Application 14/504, 195 with the gene for the enzyme taught by Sandig to produce non-fucosylated glycoproteins of interest. Appellants argue that a person of ordinary skill in the art would not have had a reasonable expectation of success in combining the references because, based on their experience, expression of the enzyme has to be under control of a baculovirus early promoter. However, Appellants point to no teaching of either Jarvis or Sandig that teaches or suggests that combining the references could not reasonably be expected to be successful. See, e.g., In re Langi, 795 F.2d 887,897 (Fed. Cir. 1985) (holding that only a reasonable expectation of success, not absolute predictability, is necessary for a conclusion of obviousness). More importantly, Jarvis expressly teaches that expression of the enzyme gene can be under the control of a baculoviral immediate early, delayed early, early or late promoter. See Jarvis col. 2, 11. 42-53. We agree with the Examiner that a person of ordinary skill in the art would reasonably expect success in combining the teachings of Jarvis and Sandig to arrive at the claimed invention. Nor are we persuaded by Appellants' argument that the Examiner impermissibly arrived at a motivation to combine the references through hindsight analysis. We have explained supra why a person of ordinary skill would have been motivated to combine the references, i.e., to adapt the system of Jarvis to transfect a structural enzyme that produces RMD, as taught by Sandig. Furthermore: Any judgment on obviousness is in a sense necessarily a reconstruction based upon hindsight reasoning, but so long as it takes into account only knowledge which was within the level of ordinary skill at the time the claimed invention was made and does not include knowledge gleaned only from applicant's disclosure, such a reconstruction is proper. 11 Appeal2018-000093 Application 14/504, 195 In re McLaughlin, 443 F.2d 1392, 1395 (C.C.P.A. 1971). Because we have found that the references establish a motivation to combine the references, we cannot agree with Appellants that the Examiner impermissibly relied on hindsight analysis to establish a motive to combine. Issues 2 and 3 Appellants argue that a person of ordinary skill in the art would not have been motivated to combine the references to arrive at the claimed invention. App. Br. 20. Appellants also argue that a person of ordinary skill in the art would have had no reasonable expectation of success in combining the references. Id. at 22. These arguments are essentially reiterative of those argued supra, and we find them no more persuasive upon repetition. We consequently affirm the Examiner's rejection on this ground. B. Claim 3 Issue Appellants argue claim 3 separately. App. Br. 22. Claim 3 recites: 3. A recombinant baculovirus expression vector for transient expression of GDP-4-dehydro-6-deoxy-D-mannose reductase (RMD) for producing a protein of interest having a stable fucose negative phenotype in an insect cell, said vector comprising the following operably linked components, i) an expression control sequence functional early in infection operably linked to a codon optimized RMD encoding nucleic acid, early expression ofRMD reducing endogenous GDP-L- fucose levels; 12 Appeal2018-000093 Application 14/504, 195 ii) an insertion site suitable for insertion of one or more nucleic acids encoding at least one heterologous protein of interest operably linked to a promoter active later in infection for production of said protein(s) of interest having a stable fucose-negative phenotype. Id. at 28. Appellants contend that the Examiner has not articulated a reason by which a person of ordinary skill in the art would have been motivated to combine the references. Id. at 23. Analysis Appellants again rely upon the arguments presented supra that the Examiner has not articulated a reason by which a person of ordinary skill in the art would have been motivated to combine the references. App. Br. 23. We note that we have expressly addressed the limitations of claim 3 in our analysis, supra. We are not persuaded by Appellants' argument, for the reasons that we have explained, and we affirm the Examiner's rejection of claim 3. C. Claim 18 and its dependent claims 19--21 Issue Appellants argue that the combined references neither teach nor suggest a kit comprising at least one nucleic acid molecule encoding an oligosaccharide processing enzyme. App. Br. 24. Analysis Appellants contend that the term "kit" appears only once in Jarvis. App. Br. 24 ( citing Jarvis col. 11, 11. 25-37). Appellants argue that this 13 Appeal2018-000093 Application 14/504, 195 single use of the term "kit" in Jarvis is insufficient as teaching or suggesting the kit of claim 18. Id. Appellants note that the Examiner acknowledges that Jarvis fails to explicitly disclose a baculovirus comprising RMD driven by an immediate early expression control sequence for stabilizing inhibition of fucosylation and an insertion site for later expression of a non-fucosylated therapeutic protein of interest. App. Br. 2 5. Appellants therefore dispute the Examiner's contention that it would have been obvious to modify the nucleic acid detection kit of Jarvis described above to include baculoviral vectors for stabilizing inhibition of fucosylation for production of a non-fucosylated protein of interest. Id. The Examiner responds that the combination of Jarvis and Sandig teaches the limitations of claims 18-21. Ans. 11. The Examiner finds that a kit is comprised of parts or elements which are taught by the combination of references and that a person of ordinary skill in the art would be motivated to combine the elements so as to develop effective kits that can be used to produce a protein of interest lacking fucose. Id. We are not persuaded by Appellants' arguments. Claim 18 recites: 18. A kit for the production of at least one protein of interest lacking fucose or with a reduced amount of fucose comprising at least one recombinant baculovirus comprising at least one nucleic acid molecule encoding the enzyme GDP-4-dehydro-6- deoxy-D-mannose reductase (RMD) operably linked to an immediate early expression control sequence for expression early after infection, thereby reducing endogenous GDP-L- fucose levels, and an insertion site for at least one additional nucleic acid molecule encoding at least one protein of interest operably linked to a control sequence for expression later in infection for production of at least one protein of interest having a stable fucose-negative phenotype due to early expression of 14 Appeal2018-000093 Application 14/504, 195 said RMD mediated by said immediate early express10n sequence. Claim 18 thus recites no additional limiting structural requirements for a "kit" than does independent composition claim 3, or the other claims on appeal, other than the preambular language reciting the term "kit." We cannot differentiate this from the "kit" recited in the relevant claims on appeal at issue in AstraZeneca LP v. Apotex, Inc., 633 F.3d 1042 (Fed. Cir. 2010), which included a "kit claim," included a limitation reciting: "a label indicating administration by nebulization in a continuing regimen at a frequency of not more than once per day." AstraZeneca, 633 F.3d at 1048. However, this additional limitation notwithstanding, the Federal Circuit held that, because the printed label added no patentable weight to the remaining limitations, all of which were already known in the prior art, the claims were invalid. Id. at 1065. Here, the analysis is even simpler. Claim 18 and its dependents provide no structural limitation regarding the constitution of the preambular term "kit" beyond the limitations of the composition claims, e.g., claim 3, that we have already concluded are obvious over the combined cited prior art. Indeed, claim 18 and its dependents provide no limiting requirement with respect to what actually may constitute a "kit" beyond the composition of claim 3. Nor do the disclosures of Appellants' Specification enlighten us as to what may constitute a "kit" beyond the limitations recited in claim 18, claim 3, and the other claims on appeal. See Spec. 5. We consequently agree with the Examiner's conclusion that the limitations of claim 18 would have been obvious to a person of ordinary skill in the art. We consequently affirm the Examiner's rejection of claim 18, and dependent claims 19-21. 15 Appeal2018-000093 Application 14/504, 195 DECISION The Examiner's rejection of claims 1-11, 18-21, and 23-25 under 35 U.S.C. § 103(a) is affirmed. No time period for taking any subsequent action in connection with this appeal may be extended under 37 C.F.R. § 1.136(a)(l )(iv). AFFIRMED 16 Copy with citationCopy as parenthetical citation
