2019004650 (P.T.A.B. Dec. 30, 2020)

AVIDITY BIOSCIENCES, INC.

Patent Trials and Appeals BoardDec 30, 2020

2019004650 (P.T.A.B. Dec. 30, 2020)

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. 15/476,849 03/31/2017 Andrew John GEALL 45532-707.201 1073 21971 7590 12/30/2020 WILSON SONSINI GOODRICH & ROSATI 650 PAGE MILL ROAD PALO ALTO, CA 94304-1050 EXAMINER WHITEMAN, BRIAN A ART UNIT PAPER NUMBER 1635 NOTIFICATION DATE DELIVERY MODE 12/30/2020 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): patentdocket@wsgr.com PTOL-90A (Rev. 04/07) UNITED STATES PATENT AND TRADEMARK OFFICE BEFORE THE PATENT TRIAL AND APPEAL BOARD Ex parte ANDREW JOHN GEALL, VENKATA RAMANA DOPPALAPUDI, DAVID SAI-HO CHU, MICHAEL CARAMIAN COCHRAN, RACHEL ELIZABETH JOHNS, PALANI BALU, ROB BURKE, and BEATRICE DIANA DARIMONT Appeal 2019-004650 Application 15/476,849 Technology Center 1600 Before FRANCISCO C. PRATS, TAWEN CHANG, and DAVID COTTA, Administrative Patent Judges. CHANG, Administrative Patent Judge. DECISION ON REQUEST FOR REHEARING Appellant requests rehearing of the decision entered August 4, 2020 (hereinafter “Decision”), which affirmed the Examiner’s rejections of claims 1–5, 8–11, 13, and 16–22 as obvious.1 We DENY the requested relief. 1 The prior art references discussed in this decision include McSwiggen et al., US 2007/0004665 Al, published Jan. 4, 2007 (“McSwiggen”); Colletti et al., US 2017/0081425 Al, published Mar. 23, 2017 (“Colletti”); Marcusson et al., Appeal 2019-004650 Application 15/476,849 2 DISCUSSION Appellant asserts that “[t]he Board overlooked and misapprehended Appellant’s arguments regarding unexpected results.” Reh’g Req. 6. Appellant further requests that the Board’s affirmance be designated as a new ground of rejection. Id. We will address these in order. A. Unexpected Results Appellant contends that the Board “overlooked and misapprehended that the additional evidence discussed in the Reply Brief,” namely Examples 10 to 43, “was in response to the arguments made for the first time by the examiner in the Answer and were thus proper arguments made in Reply Brief.” Reh’g Req. 7–8. We are not persuaded. “[A]ny argument not timely presented in the [P]rincipal Brief, will not be considered when filed in a Reply Brief, absent a showing of good cause explaining why the argument could not have been presented in the Principal Brief.” Ex parte Nakashima, 93 USPQ2d 1834 (BPAI 2010); see also Decision 27–28. Appellant contends that it showed good cause for citing to Examples 10 to 43 in its Reply Brief because it noted in the Reply Brief that the citation was for the purpose of “pointing out the ‘additional fallacies of the examiner’s arguments in the Answer.’” Reh’g Req. 7–8 (quoting Reply Br. 6). This general statement, however, was not directed in particular to citations to Examples 10 to 43 and is not sufficiently specific to show good cause for citation to that additional evidence. US 2017/0159056 Al, published June 8, 2017 (“Marcusson”); and Ma et al., US 2013/0052731 Al, published Feb. 28, 2013 (“Ma”). Appeal 2019-004650 Application 15/476,849 3 In the rehearing request, Appellant suggests more specifically that citation to the additional examples was properly made in response to “[t]he examiner . . . for the first time assert[ing] in the Answer that the [asserted unexpected] results were not commensurate in scope with the claims.” Reh’g Req. 7. This argument was not made in the Reply Brief. Thus, the Board did not “overlook or misapprehend” the alleged showing of good cause. Moreover, in the Advisory Action mailed July 17, 2018, the Examiner made similar assertions with respect to Appellant’s unexpected results showing, asserting that “[t]he result from a method using one species cannot be extrapolated to the genus of complexes in plasma” and that “a person of ordinary skill in the art cannot ascertain a trend in the data that would allow him/her to reasonably extend the probative value thereof.”2 Advisory Act. 2–3. Accordingly, we are not persuaded that Appellant has shown good cause, even in the rehearing request, as to why it could not have cited to Examples 10 to 43 in the Appeal Brief. This is particularly the case given that, once the Examiner has established a prima facie case, the burden shifts to Appellant to produce evidence that its invention possesses unexpected properties as compared to the prior art, which showing must be commensurate in scope with the claim. See, e.g., In re Mayne, 104 F.3d 1339, 1343 (Fed. Cir. 1997) (stating that, “[w]ith a . . . prima facie case of obviousness shown, the burden shifts to applicants to demonstrate that their 2 The Advisory Action, mailed July 17, 2018 (hereinafter “Adv. Act.”) is not paginated. Thus, page numbers refer to the document as if it were consecutively paginated beginning on the first page, excluding the cover sheet. Appeal 2019-004650 Application 15/476,849 4 claimed fusion proteins possess an unexpected property over the prior art”); see also In re Dill, 604 F.2d 1356, 1361 (CCPA 1979) (stating that “[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 any event, contrary to Appellant’s apparent contention in the rehearing request, the Board did in fact address Appellant’s arguments with respect to Examples 10 to 43. In particular, the Decision noted that, other than the comparative data presented in Figures 50A and 50B, which is described in Example 10 and separately addressed in the Decision, the data in the cited examples do not compare the properties of the claimed molecules to their closest prior art counterparts and are thus lacking as evidence that the unexpected results allegedly shown for two claimed siRNA constructs may be extrapolated to other molecules encompassed by claimed formula (I). Decision 28. Appellant also contends that “the Board overlooked Appellant’s argument that the order of the components of the claimed molecule matters.” Reh’g Req. 6. In particular, Appellant contends that the Board . . . discounted Appellant’s evidence of unexpected results on the basis that it was unclear how the “‘generally improved tumor tissue specific accumulation and pharmacokinetic properties’ of the claimed molecules would be unexpectedly [superior] to the prior art siRNA constructs, which are similarly expected to provide improved target delivery and pharmacokinetic properties.” Decision at 28. The Board also asserted that “Appellant has cited to comparative data for two siRNA constructs as evidence of unexpected results for a claim having a much broader scope and encompassing a ‘great number and variety’ of molecules, without providing evidence as to why such data is Appeal 2019-004650 Application 15/476,849 5 representative for other embodiments falling within claim l.” Id[.] at 27. Reh’g Req. 8. The portion of the Decision cited by Appellant, however, does not show that we overlooked Appellant’s argument that the order of the components of the claimed molecule matters. Instead, the Decision merely points out that Appellant’s evidence of alleged unexpected results is not commensurate with the scope of claim 1 because (1) Appellant has cited to comparative data for only two siRNA constructs, without providing persuasive evidence that these constructs are representative of the large number of molecules encompassed by claim 1; and (2) as already discussed above, other than the comparative data for the two siRNA constructs, the data in Examples 10 to 43 cited in the Reply Brief do not compare the properties of the claimed molecules to their closest prior art counterparts and thus do not suffice to show unexpected results for other claimed siRNA constructs. Decision 27–28. Appellant contends that “[t]he evidence demonstrates . . . that the order and the configuration [of the siRNA constructs] matter” and that “the proper comparison is thus whether conjugates having the configuration of claim 1 show properties that are different from molecules that have different configurations.” Reh’g Req. 8. Appellant contends that “[t]o conclude that because McSwiggen, Col[l]etti, Marcusson, and Ma each describes only a portion of the claimed construct or because Marcusson describes a nucleic acid conjugated on both termini in which one terminus is a cap, is mere speculation on the part of the Examiner that the claimed construct would produce better bioavailability and enable higher target tissue uptake.” Reh’g Req. 9 (quoting Appeal Br. 13). Appeal 2019-004650 Application 15/476,849 6 Once again, Appellant does not persuasively explain how the Board misapprehended or overlooked Appellant’s argument that the order and the configuration of the siRNA constructs matter. We agree that the conjugates for which unexpected results must be demonstrated are the claimed conjugates, i.e., the conjugates having a specific configuration. However, as discussed above and explained in our Decision, we disagree that Appellant’s proffered evidence demonstrates that the claimed subject matter demonstrates unexpected results, because, among other things, the evidence is not commensurate with the scope of the claim. Decision 25. Likewise, the Decision explicitly addressed the argument from page 13 of the Appeal Brief quoted in Appellant’s rehearing request, explaining that, contrary to Appellant’s assertions that the cited prior art references “describe[] only a portion of the claimed construct” and/or “a nucleic acid conjugated on both termini in which one terminus is a cap,” “McSwiggen in fact ‘discloses a composition comprising a siRNA molecule attached to a conjugate at both termini of the molecule (Figure 65)’” which “has the same generalized structure as the formula I recited in claim 1.” Decision 21 (quoting Ans. 5). The Decision points out more particularly that claimed formula I is encompassed by the third structure of McSwiggen’s Figure 65. Id. Appellant contends that the Examiner and the Board did not explain why the unexpected results presented “could not be extrapolated to the claimed molecule having the specified order” and that “[i]n response to the Examiner’s weak obviousness rejection . . ., Appellant met its burden of production by pointing out the evidence of unexpected results in the specification demonstrating that order matters.” Reh’g Req. 8, 9. Appeal 2019-004650 Application 15/476,849 7 Appellant further contends that “[n]either the Examiner nor the Board point to any teaching in the prior art that the configuration and the orientation of the nucleic acid structures of McSwiggen would result in the difference in activity shown in the examples.” Id. at 10. We are not persuaded. As we explained in our Decision, “the burden of showing unexpected results rests on he who asserts them.” Decision 27 (quoting In re Klosak, 455 F.2d 1077, 1080 (CCPA 1972)). Likewise, “[i]t is well established that the objective evidence of nonobviousness must be commensurate in scope with the claims,” i.e., 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). In re Lindner, 457 F.2d 506, 508 (CCPA 1972); see also In re Kao, 639 F.3d 1057, 1068 (Fed. Cir. 2011). As we explained in our Decision and reiterate above, Appellant has not provided such commensurate evidence of unexpected results. Decision 25–26. In short, the Decision makes clear that the Board understood Appellant’s argument that constructs having the claimed order of components exhibit unexpected results as compared to similar constructs having different configurations,3 and considered the evidence of alleged 3 Indeed, in analyzing Appellant’s unexpected results argument, the Decision notes that Figures 22 and 27 compare “2 different siRNA constructs having different arrangements of components as well as different siRNA sequences” and further notes that “Appellant has not explained why the same double-stranded polynucleotide was not used in the comparison . . ., or why the difference in plasma and tissue concentrations observed between the two constructs are due to the different arrangements of antibody, polynucleotide, and polymer, rather than the different polynucleotides used.” Decision 26, n. 11 (emphasis added). Thus, the Appeal 2019-004650 Application 15/476,849 8 unexpected results, including Examples 10 to 43, but disagreed that the evidence cited by Appellant, when considered together with evidence of obviousness, shows the claims to be non-obvious. While Appellant may disagree with the conclusion we reached upon weighing the evidence, Appellant has not shown that we overlooked or misunderstood any issue of fact or law in reaching that conclusion. Accordingly, we deny the request for rehearing on this ground. B. New Ground Appellant contends that the affirmance of the Examiner’s rejection should be designated as a new ground a rejection because “the Board relied on numerous additional facts, as well as provided additional rationale not relied upon by the Examiner” in the Decision. Reh’g Req. 10. We are not persuaded. 1. Additional Facts/Citations Appellant first argue that designation of new ground is appropriate because “the Decision cites portions of the references relied upon by the Examiner that were not cited by the Examiner,” specifically paragraphs 15, 61, 106, 489, and 684 of McSwiggen, paragraphs 168, 194, 195, 202, 207, Board clearly understood and took into account Appellant’s argument that the order of the components in the constructs matters, even if, ultimately, we disagreed with Appellant as to whether the evidence of alleged unexpected results showed the claims to be non-obvious when considered together with the evidence of obviousness. Appeal 2019-004650 Application 15/476,849 9 208, 212, 217, and 221 of Colletti, and paragraphs 2, 5, and 9 of Marcusson. Reh’g Req. 10. We are not persuaded. While we agree that “[m]ere reliance on the same statutory basis and the same prior art references, alone, is insufficient to avoid making a new ground of rejection when the Board relies on new facts and rationales not previously raised to the applicant by the examiner,” “[t]he Board need not recite and agree with the examiner’s rejection in haec verba to avoid issuing a new ground of rejection.” In re Leithem, 661 F.3d 1316, 1319 (Fed. Cir. 2011). Furthermore, “[a] new ground of rejection . . . generally will not be found based on the Board ‘further explain[ing] the examiner’s rejection’ or the Board’s thoroughness in responding to an applicant’s argument.” In re Biedermann, 733 F.3d 329, 337 (Fed. Cir. 2013) (quoting In re Jung, 637 F.3d 1356, 1364–65 (Fed. Cir. 2011)). Instead, the question is whether the Board’s reliance upon new fact findings “changes the thrust of the rejection.” Id. Put another way, “the ultimate criterion of whether a rejection is considered ‘new’ in a decision by the [B]oard is whether [applicants] have had fair opportunity to react to the thrust of the rejection.” In re Kronig, 539 F.2d 1300, 1302–03 (CCPA 1976) (holding no new ground of rejection when the Board relied on the same reasoning advanced by the Examiner). In this case, Appellant has made no effort to explain how the Decision’s citation to particular paragraphs of the prior art results in reliance on “new facts” not previously raised by the Examiner, changes the thrust of the rejection, or denies Appellant a fair opportunity to respond. We are thus unpersuaded by Appellant’s argument that the affirmance should be designated as a new ground. Indeed, as discussed in greater detail below, Appeal 2019-004650 Application 15/476,849 10 the Decision’s citation to the paragraphs enumerated by Appellant in the rehearing request does not change the thrust of the Examiner’s rejection. a) Paragraphs 15, 61, 106, 489, and 684 of McSwiggen Paragraphs 15 and 61 in McSwiggen are cited in the Decision as teaching that modified nucleotides may be used to improve characteristics of nucleic acid molecules, including, e.g., stability, activity, and/or bioavailability. Decision 8 (FF4, citing McSwiggen ¶¶ 15, 61); see also id. at 16, 20 and 28 (citing FF4). In rejecting the claims, the Examiner similarly relies on McSwiggen to show that “[t]he siRNA can have a modified nucleotide as set forth in instant claims 2-5” and that a cap structure, an example of a modified nucleotide, “can be used to protect the nucleic acid molecule from exonuclease degradation, and can help in delivery and/or localization within a cell.” Final Act. 6 (citing McSwiggen 24, 25, 37, 63, and 64).4 Paragraphs 106 and 684 are cited in the Decision as teaching siNA attached to conjugate molecules such as PEG, via covalent bonds or linkers to either or both ends of the sense or antisense strand, as well as the potential benefits (e.g., bioavailability) of such modification. Decision 8–9 (FF5, citing ¶¶106, 684); see also id. at 16, 17–18, 20, 23, and 28 (citing FF5). In the Answer, the Examiner also cites to McSwiggen for the same teachings, explaining that “McSwiggen discloses a composition comprising a siRNA molecule attached to a conjugate at both termini of the molecule,” that “[t]he 4 Claims 2–5 recite specific nucleotide modifications including 2’ modified nucleotide, a modified internucleotide linkage, and an inverted abasic moiety (i.e., a cap). Appeal Br. 19. Appeal 2019-004650 Application 15/476,849 11 conjugate can be . . . selected from a group including antibodies[] and PEG,” and that some of the structures in Figure 65 of McSwiggen “would be the same structure as set forth in formula I of instant claim 1.” Ans. 5 (citing McSwiggen 24, 25, and Fig. 65).5 The Examiner further cites to McSwiggen as teaching the potential benefits of such conjugates. Id. at 6 (citing pargraph 178 of McSwiggen as evidence that “PEG is known in the prior art to increase the bioavailability of an oligonucleotide”). Finally, paragraph 489 is cited in the Decision for McSwiggen’s teaching that its compounds are useful for introducing nucleic acid molecules into a cell. Decision 10 (FF7, citing McSwiggen ¶ 489). Once again, this citation is congruent with the Examiner’s rejection: The Examiner also cites McSwiggen for teaching that conjugates similar to those claimed “can be used to protect the nucleic acid molecule from exonuclease degradation, and can help in delivery and/or localization within a cell.” Ans. 5 (citing McSwiggen 24, 25, 37, 63, and 64). b) Paragraphs 208, 212, 217, and 221 of Colletti As an initial matter, the Decision notes that “McSwiggen itself suggests all the limitations of claim 1 and provides a reason to combine them in the same manner.” Decision 19. As the Decision also notes, the Board may rely on less than all of the references relied upon by the Examiner. Id. 5 To the extent Appellant complains that the Examiner’s reasoning in the Answer differs from that in the Final Office Action such that the Answer contains an undesignated new ground of rejection, we note that whether an Answer contains an undesignated new ground of rejection can be reviewed only by way of petition. 37 C.F.R. § 41.40(a). Appeal 2019-004650 Application 15/476,849 12 Thus, our affirmance is not reliant on any alleged new fact findings relating to Colletti. In any event, as discussed below, the alleged new citations to Colletti do not change the thrust of the Examiner’s rejection. Paragraph 217 is cited in the Decision for the uncontroversial proposition, undisputed by Appellant, that the sense strand is the passenger strand and the antisense strand is the guide strand. Decision 13 (FF14, citing Colletti ¶ 217); see also id. at 16, 21 (citing FF14). As the Examiner explains in the Answer, this is well known to a skilled artisan. Ans. 4 (explaining that “siRNA molecules comprise two oligonucleotide sequences[;] one sequence is the guide strand (antisense strand) and the other sequence is the passenger strand (sense strand)”). Paragraphs 168, 207, 208, and 221 of Colletti are cited in the Decision for teaching a double stranded siRNA wherein targeting ligands and solubilizing agents are attached via linkers to the same strand or different strands, and the passenger and/or guide strand, of the siRNA. Decision 12 (FF11, citing Colletti ¶ 208), 13–14 (FF13, citing Colletti ¶ 168; FF17, citing Colletti ¶¶ 207, 221; FF19, citing Colletti ¶ 208); see also id. at 18 and 20 (citing FF11, FF13, FF17, and FF19). Paragraph 202 and paragraphs 208 and 212 of Colletti are further cited, respectively, for embodiments (1) wherein the targeting ligand is attached to the passenger strand of a double stranded siRNA at a terminal 3’ or 5’-position, optionally through a linker; and (2) having the formula G-L-R-L-X, where G is a targeting ligand, L is a linker, R is an oligonucleotide or siRNA, and X may be, among other things, a solubilizing group. Decision 13–14 (FF18, citing Colletti ¶ 202; FF19, citing Colletti ¶¶ 208, 212); see also id. at 18 and 20 (citing FF18, FF19). Appeal 2019-004650 Application 15/476,849 13 In the Answer, the Examiner cites to Colletti for similar teachings, explaining that “Col[l]etti discloses a composition comprising a targeting ligand linked to an oligonucleotide linked to a peptide and a lipid also linked to the oligonucleotide, wherein the oligonucleotide can be siRNA,” “[t]he targeting ligand can be an antibody,” and “[t]he peptide can be PEG.”6 Ans. 5–6 (citing Colletti 1, 3, 12, and 76). The Examiner also cites to Colletti as disclosing, more specifically, “a complex comprising A-X-B-Y-C (formula I),” wherein “the variables in Formula can be antibody (A), B can be a siRNA, and C can be PEG and the linker (X and Y) can be non-polymeric linkers.” Id. Furthermore, while the Examiner does not specifically cite to Colletti for attaching conjugates to the passenger strand, both the Decision and the Examiner cite to McSwiggen for disclosing this limitation. Decision 17 (finding that Figure 65 of McSwiggen discloses a siNA construct wherein “the conjugates are attached to the two termini of the passenger (i.e., sense) strand of the siNA”); Ans. 8 (“McSwiggen discloses a composition comprising a conjugate linked to the 5’ and 3’ terminus of the sense [(i.e., passenger)] strand (Figure 65).”). We do not find that the additional citation to Colletti on this point, which merely supports the disclosure in McSwiggen, changes the thrust of the rejection so as to warrant designation of the affirmance as a new ground of rejection. Paragraphs 194 and 195 are cited in the Decision for the teachings that solubilizing groups can include PEGs and may “enhance aqueous solubility, circulation half life and/or cellular uptake.” Decision 13 (FF16, citing 6 As discussed below, Colletti identifies PEG as a solubilizing agent. Colletti ¶ 194. Appeal 2019-004650 Application 15/476,849 14 Colletti ¶¶ 194, 195); see also id. at 18, 20, 23 and 28 (citing FF16). Again, these citations are congruent with the reasoning of the Examiner, who cites Colletti to show disclosure of a complex comprising A-X-B-Y-C wherein C can be PEG. Ans. 5–6. Furthermore, although the Examiner does not specifically cite Colletti for showing the advantages of conjugating a siRNA molecule with PEG, the Examiner does state in the Answer that “PEG is known in the prior art to increase the bioavailability of an oligonucleotide.” Ans. 6 (citing McSwiggen ¶ 178). Thus, the citation of Colletti’s paragraphs 194 and 195 in the Decision does not change the thrust of the rejection. c) Paragraphs 2, 5, and 9 of Marcusson Paragraph 2 of Marcusson was cited for teaching antisense oligonucleotides that inhibit or reduce the expression of a mutant gene; paragraph 5 was cited for antisense oligonucleotide having at least one modified internucleoside linkage; and paragraph 9 was cited for embodiments in which the antisense oligonucleotide includes 2’-modified sugars. Decision 14 (FF20, citing Marcusson ¶ 2; FF21, citing Marcusson ¶ 5; and FF22, citing Marcusson ¶ 9) 19, 20 and 28 (citing FF21, FF22). None of the above citations change the thrust of the Examiner’s rejection. First, as discussed above, our affirmance is not reliant on any alleged new fact findings relating to Marcusson. Decision 19. Furthermore, as discussed below, the citations to paragraphs 2, 5, and 9 of Marcusson tracks the Examiner’s reasoning in the rejection. In particular, although the Examiner does not specifically cite to paragraph 2 of Marcusson, the Examiner states in the Answer that, “[a]s evidenced by the prior art cited in the rejections of record,” a skilled artisan Appeal 2019-004650 Application 15/476,849 15 would have known at the time of the effective filing date, that “siRNA (a product embraced by the term double stranded polynucleotide having a passenger and a guide strand recited in claim 1) . . . reduce[s] expression of a target gene in a cell.” Ans. 4. Appellant has not disputed that the function of siRNAs in reducing gene expression is known in the prior art. Spec. ¶ 3 (describing “[g]ene suppression by RNA-induced gene silencing” in the “Background of the Disclosure”). Neither do we agree that the Decision’s citation to paragraphs 5 and 9 of Marcusson warrants designating our affirmance a new ground of rejection. Claim 1 recites a molecule “wherein the double-stranded polynucleotide comprises at least one 2’-modified nucleotide, at least one modified internucleotide linkage, or at least one inverted abasic moiety.” Appeal Br. 19 (Claims App.). The Examiner cites to paragraph 55 of Marcusson for teaching an oligonucleotide having a terminal cap structure, which Marcusson explains may be an inverted abasic moiety. Final Act. 11; Marcusson ¶ 55. Thus, both the Examiner and the Decision cite to Marcusson as teaching the limitation of claim 1 recited above. Moreover, while the Examiner does not cite specifically to Marcusson for disclosures of 2’-modified nucleotide or a modified internucleotide linkage, both the Examiner and the Decision rely primarily on McSwiggen for disclosure of these modifications. See, e.g., Decision 16; Final Act. 11 (stating that McSwiggen teaches that “siRNA can have a modified nucleotide as set forth in instant claims 2-5,” which recite a 2’ modified nucleotide, a modified nucleotide linkage, and a terminal inverted abasic moiety). Thus, the citations to Marcusson in the Decision merely provide additional support for the Examiner’s reasoning and do not change the thrust Appeal 2019-004650 Application 15/476,849 16 of the rejection or deny Appellant a fair opportunity to respond to the rejection. In this regard, we note that Appellant has not disputed that the cited prior art combination teaches polynucleotides comprising one or more of the modifications recited above. In short, to the extent specific paragraphs cited in the Decision were not cited by the Examiner in the Final Office Action or the Answer, the reasoning in the Decision nevertheless remains the same as the reasoning expressed by the Examiner in rejecting the claims. Accordingly, we deny Appellant’s request to designate our affirmance as a new ground on the basis of these citations. 2. New Rationales to Combine Appellant also argues that “the Decision relies on new rationales in concluding that there was a reason to combine the references with a reasonable expectation of success.” Reh’g Req. 10. Appellant first contends that, although the Examiner relied on McSwiggen only for disclosing that “[a] cap structure can be incorporate[d] at either of the siRNA,” the Decision additionally asserts that McSwiggen teaches that (1) its siRNA may be conjugated to molecules, such as antibodies, that facilitate its delivery, (2) such chemical modifications may dramatically increase serum stability, and (3) PEG improves the pharmacokinetics of the construct and thus increases the construct’s bioavailability. Reh’g Req. 10–11. Appellant further contends that “[t]he Board . . . also argued that ‘[a] skilled artisan would have a reason to modify McSwiggen’s siRNA construct with a 2’-modified nucleotide . . . [to] increas[e] the serum stability,’ but the Examiner did not mention any Appeal 2019-004650 Application 15/476,849 17 motivation to modify the siRNA with 2’-modified nucleotide in any part of the rejection.” Id. at 11. We are not persuaded. As to (1) and (2), the Examiner states in the Answer: It is reiterated that McSwiggen discloses a composition comprising a siRNA molecule attached to a conjugate at both termini of the molecule (Figure 65). A structure in these figures would be the same structure as set forth in formula I of instant claim 1. See the third and sixth figure in Figure 65. The conjugates can be used to protect the nucleic acid molecule from exonuclease degradation, and can help in delivery and/or localization within a cell (pages 24, 25, 37, 63, and 64 of McSwiggen). The conjugate can be a biologically active agent selected from a group including a ligand for cellular receptors (including antibodies) and PEG (pages 24-25). Thus, McSwiggen teaches a structure that would embrace formula I recited in the instant claims. Ans. 5 (emphasis added). Contrary to Appellant’s argument, therefore, the Examiner also relied on McSwiggen for teaching that siRNA may be conjugated to molecules, including antibodies, to facilitate its delivery and that such conjugation may also increase stability (i.e., by “protect[ing] the nucleic acid molecule from exonuclease degradation”). As for (3), the Examiner similarly cites to McSwiggen in explaining that “PEG is known in the prior art to increase the bioavailability of an oligonucleotide.” Id. at 6. We are likewise unpersuaded by Appellant’s argument that, in contrast to the Decision, “the Examiner did not mention any motivation to modify the siRNA with 2’-modified nucleotide in any part of the rejection.” Reh’g Req. 11. The Examiner states in rejecting the claims that “[i]t would have been obvious to use the modifications in instant claims 2-5” — i.e., 2’- modified nucleotide, modified internucelotide linkage, and a terminal Appeal 2019-004650 Application 15/476,849 18 inverted abasic moiety — “to increase the stability of the siRNA in a cell.” Final Act. 7. Next, Appellant contends that the Decision asserts Colletti teaches “a double-stranded oligonucleotide or siRNA, wherein targeting ligands and solubilizing agents, among other things, are optionally attached to the same or different strands via linkers, including an embodiment in which a targeting ligand is attached to the passenger strand as recited in claim l”; that “Colletti teaches an embodiment wherein the oligonucleotide composition has the formula G-L-R-L-X, wherein G is a targeting ligand, L is a linker, R is an oligonucleotide or siRNA, and X may be a solubilizing group”; and that “Colletti further teaches that the targeting ligand may be an antibody and the solubilizing group may be PEG.” Reh’g Req. 11. Appellant contends, however, that “[t]he Examiner did not point to specific portion of . . . Colletti” and “merely stated that ‘Col[l]etti discloses a complex comprising a siRNA-linker-targeting ligand, wherein the ligand is an antibody and the linker is a non-polymeric linker.’” Id. Appellant contends that “[t]he Examiner’s argument does not extend to any structure of siRNA conjugated with both targeting ligand and solubilizing agents, let alone on the same or different strands.” Id. We are not persuaded. As discussed above, the Decision noted that “McSwiggen itself suggests all the limitations of claim 1 and provides a reason to combine them in the same manner.” Decision 19. As the Decision also noted, the Board may rely on less than all of the references relied upon by the Examiner. Id. Thus, our affirmance is not reliant on any alleged new rationale based on Colletti. Moreover, the Examiner states in the Answer that Appeal 2019-004650 Application 15/476,849 19 Col[l]etti disclose[s] a complex comprising A-X-B-Y-C (formula I). The composition can be used to provide effective in vivo delivery, cell uptake and/or endosome escape of oligonucleotides (page 1 of Col[l]etti). Colletti discloses a composition comprising a targeting ligand linked to an oligonucleotide linked to a peptide and a lipid also linked to the oligonucleotide, wherein the oligonucleotide can be siRNA (page 3). The peptide can be PEG (page 12). The targeting ligand can be an antibody (page 76). A person of ordinary skill in the art would possess the knowledge that antibodies can be conjugated to an oligonucleotide and the antibodies are used to target a desired cell (See Col[l]etti, page 1) and that PEG is known in the prior art to increase the bioavailability of an oligonucleotide in a cell line or a subject (See McSwiggen, paragraph 178). Both McSwiggen and Col[l]etti disclose that the variables in Formula can be an antibody (A), B can be a siRNA, and C can be PEG and the linkers (X and Y) can be non-polymeric linkers. It would have been obvious to a person of ordinary skill in the art to attach conjugates to the termini of the sense strand to avoid processing of the sense strand instead of the guide strand. It would have been obvious to a person of ordinary skill in the art to attach PEG to one end of the siRNA to increase bioavailability of the siRNA and an antibody to the other end of the siRNA to assist in delivery of the siRNA to a target cell. Ans. 5–6 (emphasis added). Contrary to Appellant’s arguments, therefore, the Examiner in fact cited specific portions of Colletti. Similarly, the Examiner explained that Colletti teaches specific structure(s) of siRNA conjugated with both antibody (i.e., targeting ligand) and PEG (i.e., solubilizing agent). Finally, the Examiner explained in the Answer that there is not merely a mention of a nucleic acid conjugated on both termini in the prior art, because Appeal 2019-004650 Application 15/476,849 20 “McSwiggen discloses a composition comprising a conjugate linked to the 5’ and 3’ terminus of the sense [(i.e., passenger)] strand (Figure 65).” Ans. 8. Thus, although the Examiner does not specifically cite to Colletti for conjugating molecules on the sense/passenger strand of siRNA, we do not find the Decision’s additional citation to Colletti for a similar proposition, which merely supports McSwiggen’s disclosure, changes the thrust of the Examiner’s rejection. Appellant further contends that “the Examiner . . . merely asserted that Marcusson ‘discloses an oligonucleotide having at least one or more linkers to both termini ... can have an antibody and the other terminus can have a cap structure.’” Reh’g Req. 11. Appellant contends that, in contrast, the Board describes Marcusson as teaching oligonucleotides covalently linked to conjugate groups, such as antibodies, that “enhance the activity, cellular distribution, and/or cellular uptake of the resulting . . . oligonucleotides” and as further teaching “using the polynucleotide modifications recited in claim 1 (i.e., [‘]2’ modified nucleotide, ... modified internucleotide linkage, or ... inverted abasic moiety[’]) to achieve various desirable characteristics of oligonucleotides, including, e.g., improved stability, cellular uptake, and binding affinity to target nucleic acids, as well as decreased off-target binding.” Reh’g Req. 11–12. We are not persuaded. As discussed above with respect to Colletti, the Decision notes that McSwiggen alone suffices to render claim 1 obvious. Decision 19. Moreover, relying on the same portion of Marcusson cited in the Decision for the teaching regarding oligonucleotide-antibody conjugates, the Examiner states in the Answer that “Marcusson discloses that antibodies can be conjugated to an oligonucleotide and the antibodies are used to target Appeal 2019-004650 Application 15/476,849 21 a desired cell.” Ans. 7 (citing Marcusson 4, 7). Thus, contrary to Appellant’s suggestion, the Decision does not provide a new rationale to combine by describing Marcusson as teaching that antibody-oligonucleotide conjugates enhance, e.g., cellular uptake. Similarly, the Examiner cites to paragraph 55 of Marcusson as teaching “an oligonucleotide having at least one or more linkers to both termini” wherein “[o]ne terminus can have an antibody and the other terminus can have a cap structure,” e.g., an inverted abasic moiety. Final Act. 11; Marcusson ¶ 55 (“Cap structures are well-known in the art and include, for example, inverted deoxy abasic caps.”). The same paragraph in Marcusson also teaches the benefits of terminal modifications such as cap structures, stating that “termination modifications protect the . . . oligonucleotide . . . from exonuclease degradation, and can help in delivery and/or localization of the antisense oligonucleotide within a cell.” Id. Accordingly, we are not persuaded that the Decision’s reference to Marcusson’s teaching regarding use of polynucleotide modifications to achieve desirable oligonucleotide characteristics changes the thrust of the Examiner’s rejection.7 7 We note that, as discussed in the earlier portion of this opinion, both the Examiner and the Decision primarily cite to McSwiggen for disclosures regarding the use of polynucleotide modifications to achieve benefits such as stability and delivery/localization of the nucleic acid molecule within a cell. See, e.g., Dec. 16; Final Act. 11 (stating that McSwiggen teaches that “siRNA can have a modified nucleotide as set forth in instant claims 2-5,” (i.e., 2’ modified nucleotide, modified internucleotide linkage, and inverted abasic moiety), and further teaches that “[a] cap structure can be incorporate[d] at either end of the siRNA molecule and can be used to protect the nucleic acid molecule from exonuclease degradation, and can Appeal 2019-004650 Application 15/476,849 22 Finally, Appellant contends that, as to Ma, the Examiner . . . asserted “Ma discloses making a complex comprising an antibody conjugating to a siRNA,” but did not provide any arguments on any purpose of generating the conjugation. In contrast, the Board argued that “Ma teaches introducing double- stranded RNAs, such as siRNA, into cells to modify gene expression and further teaches conjugating an antibody with a siRNA molecule in order to improve delivery to specific target cells”. Decision at 19. Reh’g Req. 12. We are not persuaded. First, as discussed above with respect to Colletti and Marcusson, the Decision noted that McSwiggen alone suffices to render claim 1 obvious. Decision 19. Moreover, the Examiner explains in the Answer that “McSwiggen taken with Ma make obvious the claimed product because McSwiggen teaches formula I and [teaches that] antibodies and PEG can be conjugated to the oligonucleotide,” while “Ma discloses that antibodies are used to target a desired cell and can be conjugated to a siRNA.” Ans. 6 (emphasis added). Thus, contrary to Appellant’s argument, the Examiner points to Ma’s disclosure of a purpose to generate a conjugation of antibody and siRNA (i.e., to target a desired cell) in rejecting the claims, and the Decision reiterates that purpose in affirming the rejection. Accordingly, for the reasons set forth above, we deny Appellant’s request to designate our affirmance as a new ground of rejection. help in delivery and/or localization within a cell”). The Decision’s citation to Marcusson for similar teachings merely support the disclosures in McSwiggen cited by the Examiner. For this additional reason, we find that the Decision to Marcusson does not change the thrust of the rejection. Appeal 2019-004650 Application 15/476,849 23 CONCLUSION In summary: Outcome of Decision on Rehearing: Claims Rejected 35 U.S.C. § Reference(s)/Basis Denied Granted 1–5, 8, 9, 13, 16–22 103(a) McSwiggen, Colletti 1–5, 8, 9, 13, 16–22 10, 11 103(a) McSwiggen, Colletti, Bettencourt 10, 11 10, 11 103(a) McSwiggen, Colletti, Xie 10, 11 1–5, 8, 9, 13, 16–19, 21 103(a) McSwiggen, Marcusson 1–5, 8, 9, 13, 16–19, 21 1–5, 8, 9, 13, 16–22 103(a) McSwiggen, Ma 1–5, 8, 9, 13, 16–22 10, 11 103(a) McSwiggen, Ma, Bettencourt 10, 11 10, 11 103(a) McSwiggen, Ma, Xie 10, 11 Overall Outcome 1–5, 8–11, 13, 16–22 Final Outcome of Appeal after Rehearing: Claims Rejected 35 U.S.C. § Reference(s)/Basis Affirmed Reversed 1–5, 8, 9, 13, 16–22 103(a) McSwiggen, Colletti 1–5, 8, 9, 13, 16–22 10, 11 103(a) McSwiggen, Colletti, Bettencourt 10, 11 Appeal 2019-004650 Application 15/476,849 24 10, 11 103(a) McSwiggen, Colletti, Xie 10, 11 1–5, 8, 9, 13, 16–19, 21 103(a) McSwiggen, Marcusson 1–5, 8, 9, 13, 16–19, 21 1–5, 8, 9, 13, 16–22 103(a) McSwiggen, Ma 1–5, 8, 9, 13, 16–22 10, 11 103(a) McSwiggen, Ma, Bettencourt 10, 11 10, 11 103(a) McSwiggen, Ma, Xie 10, 11 Overall Outcome 1–5, 8–11, 13, 16–22 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). REHEARING DENIED