Lars Winther et al.Download PDFPatent Trials and Appeals BoardMay 27, 20212020005320 (P.T.A.B. May. 27, 2021) 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. 10/097,106 03/13/2002 Lars Winther IMDX-001US0 8528 159930 7590 05/27/2021 Plant & Planet Law Firm 11440 W. Bernardo Court, Suite 300 San Diego, CA 92127 EXAMINER DIBRINO, MARIANNE ART UNIT PAPER NUMBER 1644 NOTIFICATION DATE DELIVERY MODE 05/27/2021 ELECTRONIC 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. Notice of the Office communication was sent electronically on above-indicated "Notification Date" to the following e-mail address(es): USPTO@dockettrak.com ipdocket@pnplf.com mgodfrey@pnplf.com PTOL-90A (Rev. 04/07) UNITED STATES PATENT AND TRADEMARK OFFICE BEFORE THE PATENT TRIAL AND APPEAL BOARD Ex parte LARS WINTHER, LARS OESTERGAARD PETERSEN, SOEREN BUUS, JOERGEN SCHOELLER, ERIC RUUD, and OEYSTEIN AAMELLEM Appeal 2020-005320 Application 10/097,106 Technology Center 1600 Before DONALD E. ADAMS, JEFFREY N. FREDMAN, and TAWEN CHANG, Administrative Patent Judges. CHANG, Administrative Patent Judge. DECISION ON APPEAL Pursuant to 35 U.S.C. § 134(a), Appellant1 appeals from the Examiner’s decision to reject claims 1–4, 7, 9, 11, 26, 27, 29–33, and 36. We have jurisdiction under 35 U.S.C. § 6(b). We AFFIRM. 1 We use the word “Appellant” to refer to “applicant” as defined in 37 C.F.R. § 1.42. Appellant identifies the real parties in interest as Dako Denmark A/S and Immudex ApS. Appeal Br. 3. Appeal 2020-005320 Application 10/097,106 2 STATEMENT OF THE CASE “The genes located in the human [Major Histocompatibility Complex (MHC)] locus (HLA locus) encode a set of highly polymorphic membrane proteins that sample peptides in intracellular compartments and present such peptide epitopes to antigen specific receptors (TCR) on T-cells.” Spec. 3:33–4:3. “[B]iochemical interactions between peptide epitope specific membrane molecules encoded by the . . . MHC . . . and T-cell receptors (TCR) are required to elicit specific immune responses.” Id. at 2:29–33. The Specification states that “the present invention relates to novel MHC molecule constructs comprising one or more MHC molecules.” Id. at 1:26–28. According to the Specification, “[t]he constructs of the present invention can potentially express very high numbers of MHC molecules (poly-ligands) being well-defined TCR specific ligands,” which “bind with much higher avidity to antigen specific T-cells than the known prior art tetramer[ MHC complexes] under comparable conditions.” Id. at 8:16–23. CLAIMED SUBJECT MATTER The claims are directed to soluble MHC molecule constructs. Claim 1 is illustrative: 1. A soluble MHC molecule construct in a solubilizing medium or immobilized onto a solid or semi-solid support, said MHC molecule construct comprising a soluble dextran carrier molecule to which is attached a plurality of binding entities selected from streptavidin and avidin, wherein at least two or more of said plurality of binding entities are attached to an average of from 2 to 4 MHC molecules, and Appeal 2020-005320 Application 10/097,106 3 wherein said MHC molecule construct consists of a total number of 5 to 25 MHC molecules. Appeal Br. 21 (Claims App.).2 REJECTION(S) A. Claims 1–4, 7, 9, 11, 26, 27, 29–33, and 36 are rejected under pre- AIA 35 U.S.C. 103(a) as being unpatentable over Lihme3 and Wucherpfennig.4 Ans. 3. B. Claims 1–4, 7, 9, 11, 26, 27, 29–33, and 36 are rejected under pre- AIA 35 U.S.C. 103(a) as being unpatentable over Lihme, Wucherpfennig, and Romero.5 Ans. 3. 2 During prosecution, Appellant made the following species elections: human MHC class I complex (e.g., HLA-A201/ELAIGILTV/ß2m) as the MHC complex; CD28 as the biologically active molecule; polysaccharide (e.g., dextran) as the carrier; fluorescent tag (e.g., APC) as the labeling compound; soluble support; 1–3 MHC molecules per binding entity; 1 to 35 MHC molecules in total per construct; and streptavidin as the binding entity for both the MHC/carrier association and the biologically active molecule/carrier association. Response to Restriction and Election of Species Requirements (May 31, 2005); Ans. 2. The Examiner also states in the Answer that, “[s]ince Applicant did not elect a binding entity for the labeling molecule, the Examiner is examining the claims as they read upon the labeling compound attached to the carrier molecule or the MHC molecule.” Final Act. 2. 3 Lihme et al., WO 93/01498, published Jan. 21, 1993 (“Lihme”). We note that the Examiner refers to Lihme as “WO 93/01498 A1” in the Final Action and Answer, while Appellant refers to Lihme as “Immunodex” in the Appeal and Reply Briefs. 4 Wucherpfennig et al., WO 99/42597, published Aug. 26, 1999 (“Wucherpfennig). We note that the Examiner refers to Wucherpfennig as “WO 99/42597 A1” in the Final Action and Answer. 5 Romero et al., WO 99/50637, published Oct. 7, 1999 (“Romero”). Appeal 2020-005320 Application 10/097,106 4 OPINION A. Obviousness rejection over Lihme and Wucherpfennig (claims 1–4, 7, 9, 11, 26, 27, 29–33, and 36) 1. Issue The Examiner finds that [Lihme] teaches soluble polysaccharide carrier molecules having numerous superior advantages, wherein the carrier molecules are coupled directly or indirectly to immunoreactive molecules as well as to markers such as fluorescent labels, that are prepared under mild conditions using straightforward procedures that allow for highly controllable addition of the immunoreactive molecules, wherein these constructs exhibit remarkable stability and are particularly well suited for use in, for example, biologically relevant detection, quantification and targeting procedures. [Lihme] teaches that the carriers of the invention represents a significant advance with respect to the enhancement of sensitivity and reliability of immunodetection and assay procedures. Final Act. 2–3. The Examiner finds that “[Lihme] does not teach wherein the carrier comprises an immunoreactive component that is a peptide antigen in the MHC binding groove.” Final Act. 4. However, the Examiner finds that [Wucherpfennig] teaches that it is desirable to make soluble carrier constructs with at least 5-20 immunoreactive MHC molecules that comprise a peptide antigen, that the MHC molecules can be attached through one binding moiety or moieties including streptavidin, avidin or biotin, and that the carrier molecule may further comprise fluorescent or radioactive labels and biologically active molecules such as costimulatory molecules and/or adhesion protein molecules. Importantly, [Wucherpfennig] teaches that it is desirable to make these carrier molecules because they are superior in terms of Appeal 2020-005320 Application 10/097,106 5 avidity of binding to their cognate TCR ligand, over monovalent, divalent or tetravalent MHC molecules, and that these constructs can be used to isolate (and detect) T cells. Id. at 4. The Examiner concludes that a skilled artisan would have had reason to combine the teachings of Lihme and Wucherpfennig to arrive at the claimed invention, in order to make a superior, well-characterized, high avidity MHC-dextran construct that is particularly well suited for use in biologically relevant detection, quantification and targeting procedures, and for purposes of commercialization, said construct having an extraordinary high degree of stability in terms of shelf-life during prolonged storage in solution, said construct made by a method that exerts a high degree of control of the preparation process in a straightforward manner and under mild conditions. Final Act. 6. Appellant contends that a skilled artisan would not have had reason to combine Lihme and Wucherpfennig to arrive at the claimed invention, with a reasonable expectation of success. Appeal Br. 9–10. Appellant further contends that secondary considerations, including unexpected results exhibited by, and commercial success of, the claimed subject matter, support a finding of non-obviousness. Id. at 14–18. Appellant does not separately argue the claims. We therefore focus our analysis on claim 1 as representative. The issues with respect to this rejection are (1) whether a skilled artisan would have had reason to combine Lihme and Wucherpfenning to arrive at the invention of claim 1, with a reasonable expectation of success, and, if so, (2) whether Appellant has Appeal 2020-005320 Application 10/097,106 6 provided evidence of unexpected results and commercial success of the claimed subject matter that, when considered together with the evidence of obviousness, shows claim 1 to be non-obvious. 2. Analysis Unless otherwise noted, we adopt the Examiner’s findings of fact and reasoning regarding the rejection of claim 1 as obvious over Lihme and Wucherpfennig (Final Act. 2–6; Ans. 3–17). We are not persuaded by Appellant’s arguments, as explained below. Only those arguments timely made by Appellant in the briefs have been considered; arguments not so presented in the briefs are waived. See 37 C.F.R. § 41.37(c)(1)(iv) (2015); see also Ex parte Borden, 2010 WL 191083 at *2 (BPAI Jan. 7, 2010) (informative) (“Any bases for asserting error, whether factual or legal, that are not raised in the principal brief are waived.”). Motivation to combine/Reasonable expectation of success Appellant contends that a skilled artisan would not have had reason to combine Lihme and Wucherpfennig to arrive at the claimed invention, with a reasonable expectation of success. Appeal Br. 9–10. Appellant contends that “[Lihme] has nothing to do with T cell detection or MHC molecules,” while “Wucherpfennig makes no mention of the use of unbranched dextran carrier molecules and in fact, makes arguments for the importance of using dendrimer carriers or non-dendrimer branched polymers.” Id. at 10; see also id. at 11. Appellant contends that, furthermore, “Wucherpfennig teaches that MHCs are positioned at the termini of branched dendrimer structures, as opposed to also containing MHC at non-termini positions.” Id. at 11. Appeal 2020-005320 Application 10/097,106 7 Finally, Appellant contends that Wucherpfennig “prefers constructs of spherical, and therefore, inflexible carriers.” Id. at 11. Appellant contends that, [a]ccordingly, Wucherpfennig does not teach or suggest the important improvement of the instant invention of MHC carrier molecules with a flexible dextran structure, and does not teach the advantage of using a MHC multimer that can fold up into a compact conformation around a T cell.” Appeal Br. 11. Appellant further contends that “[t]he difference in overall structure and differences in spacing of MHC molecules likely lead to different engagement with the T cell and the number of T cell receptors on the T cell surface. This could lead to very different performance of the construct and also affect the optimal number of MHC molecules.” Id. As an initial matter, “[n]on-obviousness cannot be established by attacking references individually where the rejection is based upon the teachings of a combination of references. . . . [The reference] must be read, not in isolation, but for what it fairly teaches in combination with the prior art as a whole.” In re Merck & Co., 800 F.2d 1091, 1097 (Fed. Cir. 1986). Thus, to the extent Appellant argues that claim 1 is not obvious because neither Lihme nor Wucherpfennig discloses or suggests all of the limitations, we are not persuaded.6 6 Appellant contends in the Reply Brief that it does not improperly argue the references separately. Reply Br. 9. We are not persuaded because Appellant in its briefing does appear to argue the references separately, at least on occasion. For example, Appellant contends in the Appeal Brief that, “if one skilled in the art were to look primarily to the teachings of Wucherpfennig as the Examiner does, the instant invention, as claimed, would not be Appeal 2020-005320 Application 10/097,106 8 Neither do we agree that a skilled artisan would not have had reason to combine Lihme and Wucherpfennig based on the teachings of the two references, or that the teachings of the references would have discouraged a skilled artisan from combining them to arrive at the claimed invention. Lihme teaches conjugates comprising molecular species covalently attached to polymeric carrier molecules such as dextrans. Lihme Abstract. Lihme teaches that molecular species in the context of its invention is used to denote, among other things, “molecules which are capable of binding selectively or specifically to one or more target molecules, moieties, receptors or epitopes,” and that the conjugates of its invention are “particularly well suited for use . . . in biologically relevant detection, quantification and targeting procedures, e.g., in the fields of immunohistochemistry, detection of immunoreactive species, antibody immobilization, separation or purification, DNA hybridization tests and flow cytometry.” Id. at Abstract. Wucherpfennig teaches that its invention provides a method for detecting T cells having a defined MHC/peptide complex specificity comprising providing a monovalent, multivalent or multimeric MHC binding domain fusion protein or conjugate, as described above and comprising the defined MHC/peptide complex, contacting a population of T cells with the fusion protein or conjugate, and detecting the presence or absence of binding of the fusion protein or conjugate and T cells in the population. Wucherpfennig 9:20–25. obtained.” Appeal Br. 11. In any event, even if Appellant were merely “tak[ing] into account . . . both feasibility [and] motivation to combine,” Reply Br. 9, we are not persuaded for the reasons discussed below. Appeal 2020-005320 Application 10/097,106 9 Wucherpfennig does not limit carriers for its constructs to spherical, inflexible carriers, dendrimers, branched carriers and/or carriers that only binds MHCs at terminal positions. Instead, Wucherpfennig teaches that, as used therein, “carrier” simply means “a molecule, particle, composition, or other microscopic object to which may be conjugated, directly or indirectly, a multiplicity of MHC binding domains, so as to form a multimeric binding domain conjugate. Wucherpfennig 19:23–27; see also id. at 39:25–27 (stating that “[t]he carrier must be capable of being conjugated, either directly or indirectly, to a multiplicity of MHC binding domains”). Indeed, Wucherpfenning teaches that “[t]he MHC binding domain conjugates of [its] invention may be produced with any of a large variety of carrier.” Id. at 39:23–25. Finally, Lihme describes advantages of its constructs comprising a water-soluble carrier that is preferably a polysaccharide and particularly dextran. See, e.g., Lihme Abstract, 1:29–2:8; 8:3–9:5, 13:18–17:16. More specifically, Lihme teaches the importance of the importance of enhancing the sensitivity of immunochemical assay procedures and further teaches that, [g]enerally speaking, . . . the use of soluble carriers is to be preferred, since the presence of the carrier (with the coupled immunochemically reactive species and enzymes/marker molecules or the like) in homogeneous solution rather than as a heterogeneous phase, together with the relatively great conformational flexibility of such species in the solution phase, vastly enhances the rate and, in general, the extent of immunochemical reactivity with the immunochemical counterpart species which is to be detected or determined; in immunohistochemical applications the use of soluble carriers is virtually essential, since good tissue contact or penetration is necessary in order to ensure optimal access to the Appeal 2020-005320 Application 10/097,106 10 immunochemically reactive moieties or epitopes located on or within the tissue. Lihme 8:3–23. Lihme also teach specifically that “conjugates according to the invention based on certain preferred types of polymeric carrier molecules, viz. polymeric carrier molecules which are substantially linear, possesses tissue structure penetration properties in spite of a relatively high total molecular weight.” Id. at 17:12–16. Because Wucherpfennig teaches, e.g., that multimeric MHC conjugates comprising a carrier (id. at 7:21–23) may be used to detect T cells (i.e., that MHCs are “molecules which are capable of binding selectively or specifically to one or more target molecules, moieties, receptors or epitopes” to perform a “biologically relevant detection”), and because Lihme teaches the advantages of using polysaccharide carriers such as dextrans in immunochemical applications, we agree with the Examiner that it would have been obvious to use the multimeric MHC binding domains of Wucherpfennig as the molecular species in Lihme’s construct comprising the dextran carrier to arrive at the claimed invention. Appellant contends that, “[e]ven if the examples of Wucherpfennig are non-limiting, there must be some suggestion or motivation to modify the structures and such structures are notably different from the preferred embodiments of [Lihme], not to mention of the claimed invention.” Appeal Br. 11. Appellant contends that, “if one skilled in the art were to look primarily to the teachings of Wucherpfennig as the Examiner does, the instant invention, as claimed, would not be obtained.” Id. We are not persuaded for the reasons already discussed: Obviousness analysis requires the consideration of the teachings of both Lihme and Wucherpfennig, and, as explained above, a skilled artisan would have reason Appeal 2020-005320 Application 10/097,106 11 to combine the teachings of these references to arrive at the claimed invention. Appellant argues that the advantages disclosed in Lihme as to the dextran carriers are not relevant to the claimed invention and/or “the specific unexpected properties associated with the present invention (detection of low-affinity T cells).” Reply Br. 6–7. Appellant argues that, even if Lihme did disclose certain advantages of its dextran carrier constructs, such disclosure “has no bearing on a potential combination with MHCs of the Wucherp[f]ennig [reference,]” because “[t]here would be no way of known . . . that a hypothetical resulting product from combining with another reference would have any superior properties particular in the detection of T cells, a very different field and very different interaction.” Reply Br. 7. We are not persuaded. As discussed above, Lihme specifically teaches as one of the advantages of its invention the “enhance[ment] of the rate and . . . extent of immunochemical reactivity with the immunochemical counterpart species which is to be detected or determined,” Lihme 8:3–23, which we find to be relevant to the claimed invention as well as the alleged unexpected results of detection of low-affinity T-cells (i.e., counterpart species). Moreover, “[i]n determining whether the subject matter of a patent claim is obvious, neither the particular motivation nor the avowed purpose of the patentee controls. . . . [A]ny need or problem known in the field of endeavor at the time of invention and addressed by the patent can provide a reason for combining the elements in the manner claimed.” KSR Int’l Co. v. Teleflex Inc., 550 U.S. 398, 419-20 (2007). Likewise, “[o]bviousness does not require absolute predictability of success. . . . [A]ll that is required is a Appeal 2020-005320 Application 10/097,106 12 reasonable expectation of success.” In re O’Farrell, 853 F.2d 894, 903-04 (Fed. Cir. 1988). Appellant contends that a skilled artisan would be further discouraged from combining the references to arrive at the claimed invention because “Wucherpfennig teaches the desirability of having a large number of MHCs while the invention claims a limited number of MHCs, with a minimum of 5 and a maximum of 25.” Appeal Br. 10; see also Reply Br. 7. Appellant similarly contends in the Reply Brief that, [e]ven if [Lihme] taught a preferred number of immunoreactive molecules, it would have no bearing on a preferred number specifically for MHCs (as [they are] not disclosed by [Lihme]), let alone the optimal number of MHCs on a dextran backbone (5-25). The skilled person again would not know that superior, unexpected advantages would be associated specifically with MHCs, in combination with dextran, in a “less is more” fashion. Reply Br. 8. We are not persuaded. Wucherpfennig itself teaches preferred embodiments wherein the conjugates “comprise about 5 to about 500 MHC binding domains per carrier, preferably about 10 to about 200 MHC binding domains per carrier, and most preferably about 20 to about 100 MHC binding domains per carrier.” Wucherpfennig 7:24–27. Thus, Wucherpfennig teaches a range of MHC binding domains per carrier that overlaps the claimed range of 5 to 25 MHC molecules per construct. As our reviewing court has explained, “[i]n cases involving overlapping ranges, . . . even a slight overlap in range establishes a prima facie case of obviousness,” which “shifts the burden to the applicant to show that his invention would not have been obvious.” In re Peterson, 315 F.3d 1325, 1329–1330 (Fed. Cir. 2003). As we discuss further below with respect to Appellant’s Appeal 2020-005320 Application 10/097,106 13 arguments regarding unexpected results, Appellant has not provided persuasive evidence the claim limitation in question is not obvious despite the overlapping range. Moreover, we note that the references teach that the number of molecules attached to a carrier may affect, e.g., the steric conformation for binding and the strength of binding to a complementary immunological component and that the preferred number of MHC molecules per construct may depend on the density of the binding domains on the surface of the carrier. Lihme 16:10–18; Wucherpfennig 7:28–8:2. In short, the prior art suggests that the number of MHC molecules per construct is a result- effective variable, and “discovery of an optimum value of a result effective variable in a known process is ordinarily within the skill of the art.” In re Boesch, 617 F.2d 272, 276 (CCPA 1980). Appellant contends in the Reply Brief that Wucherpfennig “teaches that soluble MHC complexes, as presently claimed, should be avoided, effectively teaching away from combining with the soluble carriers of [Lihme].” Reply Br. 7. Appellant cites to a portion of Wucherpfennig stating that “[a] principal difficulty with using soluble MHC/peptide complexes as probes and therapeutics is that the affinity for the TCR is relatively low” and that the invention of Wucherpfennig, “by providing multivalent and multimeric MHC fusion proteins and conjugates[,] addresses this problem.” Reply Br. 7–8 (quoting Wucherpfennig 50:27–51:2). As an initial matter, Appellant raises this teaching away argument for the first time in the Reply Brief, thereby denying the Board the benefit of the Examiner’s response, without providing any showing of good cause as to why the late argument should be considered by the Board. Appellant has Appeal 2020-005320 Application 10/097,106 14 thus waived this argument. See 37 C.F.R. § 41.41(b)(2); Cf. Optivus Technology, Inc. v. Ion Beam Applications S.A., 469 F.3d 978, 989 (Fed. Cir. 2006) (argument raised for the first time in the Reply Brief that could have been raised in the opening brief is waived). In any event, we are not persuaded. “A reference may be said to teach away when a person of ordinary skill, upon reading the reference, would be discouraged from following the path set out in the reference, or would be led in a direction divergent from the path that was taken by the applicant.” In re Gurley, 27 F.3d 551, 553 (Fed. Cir. 1994). Nothing in the paragraph cited by Wucherpfennig would suggest to a skilled artisan that a soluble construct, such as that taught in Lihme, would be undesirable. Indeed, Wucherpfennig teaches that soluble MHC/peptide complexes are highly useful, Wucherpfennig 1:23–2:12, and that the invention of Wucherpfennig provides a solution to the difficulty in the prior art of using soluble MHC/peptide complexes as probes and therapeutics, id. at 50:27–51:2, 21:22–25 (describing one aspect of the invention as disclosing that “heterodimeric MHC Class II binding domains, including those of certain MHC Class II molecules which previously could not be produced as empty, soluble, stable heterodimers, may be produced using fusion proteins incorporating dimerization domains”). Appellant contends that, “[e]ven assuming . . . the references may superficially appear to be combinable,” a skilled artisan would not be motivated to make the combination or expect success in doing so because the art is highly complex and because of “the significant differences in the chemistries of the two references.” Appeal Br. 10. More particularly, Appellant contends that “the interaction between MHC molecules and TCR Appeal 2020-005320 Application 10/097,106 15 is more complex than conventional ligand-receptor models and therefore advances in the art are particularly challenging.” Id. Appellant notes that “MHC compounds are labile compounds, not easily obtainable, need to be folded correctly to be functional, and have low intrinsic binding affinity to TCRs.” Id. We are not persuaded. Although Appellant contends that “the interaction between MHC molecules and TCR is more complex than conventional ligand-receptor models” for a variety of reasons, Wucherpfennig already teaches use of the MHC molecules with a carrier, and, as further discussed below in the context of the Hansen Declaration, Appellant has not provided any persuasive evidence that a skilled artisan would not have had reasonable expectation of successfully combining such MHC molecules with the dextran carrier taught by Lihme, in order to achieve the advantages of dextran carriers discussed in Lihme. In this context, we note that “[a]ttorneys’ argument is no substitute for evidence.” Johnston v. IVAC Corp., 885 F.2d 1574, 1581 (Fed. Cir. 1989). Appellant cites to the Hansen Declaration7 in support of its arguments regarding lack of motivation to combine and lack of reasonable expectation of success. Appeal Br. 13. In particular, Appellant points out that “[t]he Hansen Declaration states that an expert in this field would not be motivated to combine the references” because [Lihme] does not indicate any insufficiencies in the ability of the disclosed constructs to detect the desired molecular species and provides no motivation to exchange the divinyl sulfone entities with any other entities let alone 7 Declaration of Bjarke Endel Hansen under 37 C.F.R. 1.132 (Sept. 20, 2017) (Hansen Declaration). Appeal 2020-005320 Application 10/097,106 16 MHC molecules. MHC molecules, albeit monomeric, were known at the time and yet [Lihme] did not think to employ these, likely because they did not aim for detecting T-cells and their limited availability at the time. . . . The Hansen Declaration indicates that Wucherp[f]ennig is concerned with a different purpose than [Lihne], namely MHC constructs for T-cell detection, which makes a poor starting point to think to combine them in the expectation of making any advancements. The teaching of Wucherp[f]ennig also does not indicate any insufficiencies in the ability of the disclosed constructs to detect T-cells. Rather, Wucherp[f]ennig emphasizes that the spherical constructs comprise binding entities at the termini, and that preferred constructs have as many termini as possible and are dendrimer structures, i.e. highly branched molecules in which the branches emanate from a central core. This would not motivate one to modify the branched carrier with multiple termini emanating from a central core of Wucherp[f]ennig to obtain a linear or straight dextran, as disclosed by [Lihme] . . . . Id. at 13–14; see also Reply Br. 6 (arguing that the fact Lihme discloses a number of advantages of its dextran carrier constructs “could also be taken as indication that the disclosure is optimal, and needs no modification”). That individual references do not suggest deficiencies in their own disclosures does not, on its own, suggest that a claim is non-obvious: As discussed above, “[n]on-obviousness cannot be established by attacking references individually where the rejection is based upon the teachings of a combination of references. . . . [The reference] must be read, not in isolation, but for what it fairly teaches in combination with the prior art as a whole.” In re Merck & Co., 800 F.2d 1091, 1097 (Fed. Cir. 1986). Likewise, the fact that Lihme does not explicitly suggest a construct comprising its preferred dextran carrier and MHC molecules does not evidence non-obviousness of Appeal 2020-005320 Application 10/097,106 17 the claimed invention, because Wucherpfennig provides the skilled artisan a reason to make constructs comprising a carrier and MHC binding domains. We are similarly unpersuaded by the argument that a skilled artisan would not have considered combining the references because “Wucherp[f]ennig is concerned with a different purpose than [Lihne], namely MHC constructs for T-cell detection.” Appeal Br. 13 (citing Hansen Decl. ¶ 17). Both Lihme and Wucherpfennig relate to the use, in immunological assays, of a molecular construct comprising a carrier coupled to, e.g., a targeting species. Lihme Abstract, 17:27–18:2; Wucherpfennig Abstract, 4:2–5, 7:21–23, 9:20–27. In this regard, we note that in the context of § 103 the determination of whether a reference is within the art to which the claimed subject matter pertains is “frequently couched in terms of whether the art is analogous,” In re Clay, 966 F.2d 656, 658 (Fed. Cir. 1992), which in turn depends on “(1) whether the art is from the same field of endeavor, regardless of the problem addressed, and (2) if the reference is not within the field of the inventor’s endeavor, whether the reference still is reasonably pertinent to the particular problem with which the inventor is involved.” Id. at 658–59. In the case of Lihme and Wucherpfennig, we find that both criteria are met as both references are involved in immunoassays and the references are pertinent to immobilized immuno-molecules such as MHC. As for the statements in the Hansen Declaration that a skilled artisan would not have had reason to combine Wucherpfennig’s MHC binding domains with Lihme’s linear dextran carriers because “Wucherphennig emphasizes that the spherical constructs comprise binding entities at the termini, and that preferred constructs have as many termini as possible and Appeal 2020-005320 Application 10/097,106 18 are dendrimer structures,” Hansen Decl. ¶ 17, we are not persuaded for the reasons already discussed above: Wucherpfennig does not limit its carriers to spherical constructs or dendrimers, and Lihme further teaches the advantages of its preferred polysaccharide carriers such as dextrans. In short, although we have carefully considered the Hansen Declaration, we decline to give it controlling weight in light of the totality of the evidence of record before us. In this regard, we note that “[t]he Board has broad discretion as to the weight to give to declarations offered in the course of prosecution. See Velander v. Garner, 348 F.3d 1359, 1371 (Fed. Cir. 2003) (‘[A]ccord[ing] little weight to broad conclusory statements [in expert testimony before the Board] that it determined were unsupported by corroborating references [was] within the discretion of the trier of fact to give each item of evidence such weight as it feels appropriate.’).” In re American Acad. of Science Tech Ctr., 367 F.3d 1359, 1368 (Fed. Cir. 2004) (alterations in original); see also In re Beattie, 974 F.2d 1309, 1313 (Fed. Cir. 1992) (opinion evidence in declarations has little value without factual support); Perreira v. Secretary of the Dept. of HHS, 33 F.3d 1375, 1377 n.6 (Fed. Cir. 1994) (“An expert opinion is no better than the soundness of the reasons supporting it.”).8 8 Appellant criticizes the Examiner’s explanation, in response to the statement in the Hansen Declaration that Lihme “provides no motivation to exchange the divinyl sulfone entities with any other entities let alone MHC molecules,” that “divinyl sulfones are not the immunoreactive molecules” in Lihme that would be replaced by the MHC molecules to arrive at the claimed invention. Ans. 8–9; Appeal Br. 4–5. We disagree with Appellant’s characterization of the Examiner’s clarification as “misleading and/or off-point.” Appeal Br. 4. We understand Appellant’s argument is not Appeal 2020-005320 Application 10/097,106 19 Finally, Appellant suggests that the rejection is based on improper hindsight. Reply Br. 10. We are not persuaded because, as discussed above, while “[a]ny judgment on obviousness is in a sense necessarily a reconstruction based upon hindsight reasoning,” the Examiner’s rejection is based on the disclosures of Lihme and Wucherpfennig and thus properly “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.” In re McLaughlin, 443 F.2d 1392, 1395 (CCPA 1971). Unexpected results and commercial success Appellant contends that, even if the Examiner has established a prima facie case of obviousness, Appellant has rebutted such prima facie case with the Hansen Declaration, which Appellant alleges evidences that a skilled artisan would not have expected the claimed construct “to be capable of detecting . . . low-affinity T-cells, which . . . were completely undetectable with the available methods at the time the application was filed.” Appeal Br. 14, 15–16. Appellant also contends that “it would not be expected from [the] teaching[s] of [Lihme and Wucherpfennig] alone that there would be an optimum in the number of binding entities and MHCs in the [claimed] construct.” Id. at 14–15, 16. focused on the divinyl sulfones but is, rather, that a skilled artisan would not have had reason to use MHC with the dextran carriers of Lihme. However, we find Appellant has not persuasively addressed the Examiner’s broader point that a skilled artisan would have had reason to use the MHC molecules disclosed in Wucherpfennig with the dextran carriers of Lihme to arrive at the claimed invention. Appeal 2020-005320 Application 10/097,106 20 We are not persuaded. We agree with Appellant that “[o]ne way for a patent applicant to rebut a prima facie case of obviousness is to make a showing of ‘unexpected results,’ i.e., to show that the claimed invention exhibits some superior property or advantage that a person of ordinary skill in the relevant art would have found surprising or unexpected.” In re Soni, 54 F.3d 746, 750 (Fed. Cir. 1995). However, “by definition, any superior property must be unexpected to be considered evidence of non-obviousness. Thus, in order to properly evaluate whether a superior property was unexpected, the [fact-finder] should have considered what properties were expected.” Pfizer, Inc. v. Apotex, Inc., 480 F.3d 1348, 1371 (Fed. Cir. 2007). In addition, “it is well settled that unexpected results must be established by factual evidence. ‘Mere argument or conclusory statements in the specification does not suffice.’” In re Geisler, 116 F.3d 1465, 1470 (Fed. Cir. 1997) (quoting In re De Blauwe, 736 F.2d 699, 705 (Fed. Cir. 1984)). Finally, “when unexpected results are used as evidence of nonobviousness, the results must be shown to be unexpected compared with the closest prior art,” In re Baxter Travenol Labs., 952 F.2d 388, 392 (Fed. Cir. 1991), and “[t]he evidence presented . . . must be commensurate in scope with the claims to which it pertains.” In re Dill, 604 F.2d 1356, 1361 (CCPA 1979). Dr. Hansen states that “[i]t was surprising that the Dextramers[, which falls within the claims], could detect low affinity antigen-specific T-cells that are completely undetectable with a tetrameric MHC molecule construct.” Hansen ¶ 28; see also Reply Br. 7 (contending that the “unexpected level of superior performance [of the claimed construct] simply cannot be derived from a simple combination of the prior art”). Appeal 2020-005320 Application 10/097,106 21 We are not persuaded, however, that this evidence supports the nonobviousness of the claims. As an initial matter, Dr. Hansen does not explain why a construct comprising a greater number of MHC molecules per carrier would not be expected to be able to detect lower affinity antigen- specific T-cells when compared to a construct comprising four MHC molecules, given that Wucherpfennig teaches that “multimeric MHC binding domain conjugates . . . have far greater avidity for their cognate TCRs, and far greater biological activity, than monovalent MHC binding domains, or even divalent or tetravalent MHC binding domain constructs” and hypothesizes that this increase in avidity may be due to “a substantially two- dimensional array of MHC binding domains . . . mak[ing] contact with an area of a T cell membrane bearing a multiplicity of T cell receptors.” Wucherpfennig 35:16–24. Moreover, we are not persuaded that the evidence cited in the Hansen Declaration shows unexpected results as compared to the closest prior art, or commensurate with the scope of the claims. Dr. Hansen, for example, does not explain why MHC tetramers, rather than the constructs described in Wucherpfennig, are the closest prior art to which comparisons should be made. Similarly, although the Hansen Declaration generally states that the Dextramers used in the comparison with MHC tetramers comprises 5–25 MHC molecules, it is unclear how many MHC molecules were in fact attached to the dextran carriers in the Dextramers used in the comparison, or whether the Dextramers used comprises a mixture of constructs having different numbers of MHC molecules attached. Thus, it is unclear, for example, whether a construct comprising only 5 MHC molecules would Appeal 2020-005320 Application 10/097,106 22 have also achieved the alleged unexpected results as compared to MHC tetramers. Dr. Hansen further states that it is unexpected that “more HLA molecules correlate with increased binding only up to a certain optimum,” “in part because Wucherp[f]ennig teaches structures with larger number of MHC binding domains (termini), in preferred embodiments [of] 20–100 per carrier.” Hansen Decl. ¶¶ 20–24. However, we are not persuaded that this result is in fact unexpected, because both Lihme and Wucherpfennig suggest that the optimal number of a targeting species per carrier depends in part on steric effects and thus on the molecular weight of the carrier and targeting species and the density of the species on the carrier. See, e.g., Lihme 15:17– 24, 23:28–24:22; Wucherpfennig 7:28–8:2. Indeed, Exhibit A referred to in the Hansen Declaration similarly suggests that the optimal ratio of MHC molecules to dextran carrier is not necessarily 5–25 MHC molecules as claimed but, rather, depends on the molecular weight of the dextran carrier. Appeal Br., Evidence App., Ex. A (showing optimal ratio to be in the range of 40 to 50 molecules where the dextran carrier has a molecular weight of 500kD). Furthermore, because claim 1 is not limited with respect to the molecular weight of the carrier molecules, the alleged unexpected results is also not commensurate with the scope of the claim. That is, for certain constructs falling with the claim (e.g., where the molecular weights of the dextran carrier molecules are higher than 270 kD), the claimed number of Appeal 2020-005320 Application 10/097,106 23 MHC molecules may not provide superior results, much less unexpectedly superior results, as compared to the prior art.9 Appellant argues in the Reply Brief that the Examiner’s rejection is based on “highly technical arguments that are . . . misleading and/or off- point.” Reply Br. 4–5. Appellant points in particular to the Examiner’s finding that Appellant’s evidence of unexpected results is not commensurate with claim scope, because “sensitivity of the Dextramer carriers is in part due to the higher number of fluorochromes on the Dextramer carriers,” which is not a feature recited in claim 1, and because evidence Appellant relies on to show unexpected results refers to specific Dextramers that “have some discrete undisclosed number of MHC molecules and fluorochromes thereon and a particular peptide bound to the MHC class I binding groove,” none of which are specified in claim 1. Ans. 14, 16; Appeal Br. 4, 5. Appellant contends that these “additional features” are not at the core of the invention and they are not what provide the unexpected properties described in the evidence of record - namely the features currently recited in the claims: MHC dextran backbone and specific numerical range of MHCs employed. The Examiner cannot simply dismiss the evidence rebutting her 9 Appellant characterize as “misleading and/or off-point” the Examiner’s finding that Appellant’s unexpected results argument is not persuasive because the claim does not recite any particular molecular weight of the dextran carrier, whereas evidence shows that “the ‘optimal’ number of MHC increases . . . as the size (molecular weight) of the dextran carrier increases.” Ans. 10; Reply Br. 5. We are not persuaded for the reasons discussed above: The Examiner’s point is relevant both to whether the alleged unexpected results are in fact unexpected, as well as to whether Appellant has provided evidence of unexpected results commensurate with the scope of the claims. Appeal 2020-005320 Application 10/097,106 24 obviousness rejections by identifying pieces and parts of that evidence that are not present in Claim 1. If the technical basis for the superior performance and success of the invention correlates with the features recited in Claim 1, then the evidence is appropriate to establish such superior performance. Appeal Br. 6.10 We do not agree with Appellant’s characterization of the Examiner’s statements as misleading or off-point. As discussed above, “[t]he evidence presented to rebut a prima facie case of obviousness must be commensurate in scope with the claims to which it pertains.” In re Dill, 604 F.2d at 1361. Because Appellant appears to rely only on particular embodiment(s) of the invention (i.e., the Dextramers used in the comparisons in Exhibits A and B) to support its unexpected results argument, Appellant bears the burden of showing that the results obtained using the embodiment(s) provide a reasonable basis for concluding that the untested embodiments encompassed by the claims would behave in the same manner as the tested embodiment(s). See, e.g., In re Lindner, 457 F.2d 506, 508 (CCPA 1972). 10 Appellant takes issue with the Examiner’s finding that Appellant “predicate[s its] allegation of unexpected results with regard to an optimal number of MHC molecules on dextran carriers on results [it] explain[s] in the specification as being an artefact of not removing excess non-carrier bound MHC from the reaction medium when performing the immunoassay of T cell binding to the MHC dextran carriers.” Ans. 12; Reply Br. 8. Appellant contends that “[t]here is no valid reason to disregard data on the basis of a loose reference to background staining.” Reply Br. 8. We need not rely on this finding of the Examiner to affirm the rejection; thus, we do not adopt this finding and do not address Appellant’s arguments with respect thereto. Appeal 2020-005320 Application 10/097,106 25 As we have already noted, “[a]ttorneys’ argument is no substitute for evidence.” Johnston, 885 F.2d at 1581. Finally, Appellant contends that evidence of commercial success and the “superiority [of the constructs of the invention] compared to other state of the art MHC molecule constructs . . . found throughout literature” also supports the non-obviousness of the claims. Appeal Br. 17–18. Appellant cites to Exhibits C and D as evidence of commercial success. Id. at 17. Appellant alleges that “Exhibit C is a collection of positive statements from customers using the claimed technology” and “Exhibit D is a google.scholar search on “Dextramer™” and “Pentamer Proimmune™,” a competing technology,” showing number of hits per year. Appellant contends that “[c]learly the development is different for Dextramer™ (increasing) than pentamers (decreasing).” We are not persuaded. Objective indicia of non-obviousness include, in addition to unexpected results, “commercial success . . . , industry praise . . . , copying by others, and . . . long-felt but unsatisfied need.” Apple Inc. v. Samsung Electronics Co., Ltd., 839 F.3d 1034, 1052 (Fed. Cir. 2016). However, for these objective evidence of secondary considerations to be accorded substantial weight, Appellant must establish a “nexus” between the evidence and the merits of the claimed invention. Wyers v. Master Lock Co., 616 F.3d 1231, 1246 (Fed. Cir. 2010). Moreover, while “it is presumed that the commercial success is due to the patented invention” where a patentee can demonstrate (1) “commercial success, usually by significant sales in a relevant market,” and (2) “the successful product is the invention disclosed and claimed in the patent,” “the success is not pertinent” “if the feature that Appeal 2020-005320 Application 10/097,106 26 creates the commercial success was known in the prior art.” Galderma Labs, L.P. v. Tolmar, Inc., 737 F.3d 731, 740 (Fed. Cir. 2013). In this case, we agree with the Examiner that Appellant has not provided evidence sufficient to establish the commercial success of the claimed invention, or established a pertinent nexus between any alleged success and the claimed invention. Ans. 15–17. As the Examiner points out, Exhibit C merely provides six quotes from unidentified individuals. To the extent these quotes are positive and demonstrates some commercial success of Dextramers, there is no evidence that they are representative of the success of Dextramers in a relevant market. More importantly, Appellant provides no persuasive evidence that any alleged commercial success is due to features of the claimed invention not known in the prior art.11 Appellant’s discussion of Exhibit D is similarly if not more lacking in (1) tying a change in the number of hits in google.scholar to the commercial success of an embodying product and (2) showing that any such alleged commercial success is due to features of the claimed invention not known in the prior art. Appellant contends in the Reply Brief that “the arguments on commercial success has been greatly underestimated and not taken properly into account,” contending in particular that [t]his invention has been successfully patented in all other jurisdictions where a corresponding patent 11 Even if we were to treat Exhibit C as evidence of industry praise, which seems somewhat more apt, Exhibit C is nonetheless unpersuasive as to the non-obviousness of the claims, in particular because there is no persuasive evidence that any praise directed to MHC Dextramers are tied to features of Dextramers not known in the prior art. Appeal 2020-005320 Application 10/097,106 27 application has been filed, including Europe, Australia and Japan. The granted patents cover a commercial product that forms the very basis of Immudex ApS (the coApplicant): all sales to date stem from the sale of dextran-products, including MHC Dextramers, as claimed. Despite a vast development in the field of T cell detection over the past 10 years, no one has been able to provide a product superior to the MHC-dextramers developed by Immudex, and covered by the claims. It remains the first choice and state-of-the art product for T- cell detection. Reply Br. 8–9. We reiterate that “[a]ttorneys’ argument is no substitute for evidence.” Johnston, 885 F.2d at 1581. Moreover, having presented only Exhibits C and D as evidence of commercial success in the Appeal Brief, Appeal Br. 17, Appellant cannot not now rely on additional evidence in the Reply Brief. See 37 C.F.R. § 41.41(b)(2); Cf. Optivus Technology, Inc. v. Ion Beam Applications S.A., 469 F.3d 978, 989 (Fed. Cir. 2006) (argument raised for the first time in the Reply Brief that could have been raised in the opening brief is waived). Finally, we are not persuaded that the alleged superiority of MHC Dextramers to other “state of the art MHC molecule constructs” supports the non-obviousness of the claims. Appeal Br. 17–18. Appellant contends that Dolton12 shows that, in contrast to influenza-specific MHC II tetramer molecule constructs, influenza-specific MHC II Dextramer™ molecule constructs were able to identify the influenza-specific T-cell population “spiked into blood from healthy negative donor[s].” Id. at 17. However, the 12 G. Dolton et al., Comparison of Peptide-Major Histocompatibility Complex Tetramers and Dextramers for the Identification of Antigen- Specific T cells, 177 CLINICAL & EXPERIMENTAL IMMUNOLOGY 47 (2014). Appeal 2020-005320 Application 10/097,106 28 comparison to tetramers are inapt for the reasons already discussed above; namely that prior art such as Wucherpfennig discloses constructs comprising a greater number of MHC molecules per carrier than the tetramers of the comparison. We are also not persuaded by Appellant’s citation of additional publications allegedly “demonstrating the Dextramer™ superiority compared to other state of the art MHC molecule constructs.” Id. at 18. “The party seeking the patent bears the burden to overcome the prima facie case of obviousness with evidence of secondary considerations, such as commercial success.” In re Applied Materials, Inc., 692 F.3d 1289, 1299 (Fed. Cir. 2012). A listing of references with a conclusory statement that they show the superiority of an embodying product, without any explanation, does not satisfy Appellant’s burden. Accordingly, for the reasons discussed above, we affirm the Examiner’s rejection of claim 1 as obvious over Lihme and Wucherpfennig. Claims 2–4, 7, 9, 11, 26, 27, 29–33, and 36, which are not separately argued, fall with claim 1. B. Obviousness rejection over Lihme, Wucherpfennig, and Romero (claims 1–4, 7, 9, 11, 26, 27, 29–33, and 36) Unless otherwise noted, we adopt the Examiner’s findings of fact and reasoning regarding the rejection of claim 1 as obvious over Lihme, Wucherpfennig, and Romero (Final Act. 2–7; Ans. 3–18). We are not persuaded by Appellant’s arguments, as explained below. Only those arguments timely made by Appellant in the briefs have been considered; arguments not so presented in the briefs are waived. See 37 C.F.R. Appeal 2020-005320 Application 10/097,106 29 § 41.37(c)(1)(iv) (2015); see also Ex parte Borden, 2010 WL 191083 at *2 (informative). The Examiner cites Romero for teaching Appellant’s elected species of MHC Class I molecules comprising HLA-A2.1/ß2m/ELAIGILTV. Final Act. 6–7. The Examiner concludes that “[i]t would have been prima facie obvious to one of ordinary skill in the art at the time the invention was made to have used the MHC class I molecule taught by [Romero] in the carrier construct of the combined references,” in order to monitor T cell responses and/or isolate T cells as taught by Romero and/or Wucherpfennig. Id. at 7. Appellant concedes that Romero teaches “multicomponent complexes” that “engage[] a plurality of immune complexes” comprising an MHC molecule, a ß2 microglobulin molecule, and a peptide, wherein there are preferably at least four immune complexes per multicomponent complex. Appeal Br. 19. However, Appellant contends that Romero does not remedy the deficiencies of the combination of Lihme and Wucherpfennig. Id. at 18. Appellant contends that, as with Wucherpfennig, “Romero does not teach the use of polysaccharide carriers or dextran carriers,” and “there would be no motivation to combine Romero with [Lihme] since Romero relates to an art not mentioned in [Lihme] (binding of T-cells).” Id. As discussed above, we do not find the combination of Lihme and Wucherpfennig to be deficient. Likewise, we are not persuaded by Appellant’s argument with respect to Romero and Lihme for the same reasons discussed with respect to the combination of Wucherpfennig and Lihme, namely that the combined teachings of the cited references would have provided a skilled artisan with a reason to use the MHC molecules Appeal 2020-005320 Application 10/097,106 30 disclosed in Wucherpfennig and Romero as the targeting species attached to the dextran carriers disclosed in Lihme. Accordingly, we affirm the Examiner’s rejection of claim 1 over Lihme, Wucherpfennig, and Romero. Claims 2–4, 7, 9, 11, 26, 27, 29–33, and 36, which are not separately argued, fall with claim 1. CONCLUSION In summary: Claim(s) Rejected 35 U.S.C. § Reference(s)/Basis Affirmed Reversed 1–4, 7, 9, 11, 26, 27, 29–33, 36 103(a) Lihme, Wucherpfennig 1–4, 7, 9, 11, 26, 27, 29–33, 36 1–4, 7, 9, 11, 26, 27, 29–33, 36 103(a) Lihme, Wucherpfennig, Romero 1–4, 7, 9, 11, 26, 27, 29–33, 36 Overall Outcome 1–4, 7, 9, 11, 26, 27, 29–33, 36 TIME PERIOD FOR RESPONSE No time period for taking any subsequent action in connection with this appeal may be extended under 37 C.F.R. § 1.136(a). See 37 C.F.R. § 1.136(a)(1)(iv). AFFIRMED Copy with citationCopy as parenthetical citation
