14482950 (P.T.A.B. Jul. 31, 2018)

Ex Parte SCHWARTZ et al

Patent Trial and Appeal BoardJul 31, 2018

14482950 (P.T.A.B. Jul. 31, 2018)

UNITED STA TES p A TENT AND TRADEMARK OFFICE APPLICATION NO. FILING DATE 14/482,950 09/10/2014 108197 7590 08/02/2018 Parker Highlander PLLC 1120 South Capital of Texas Highway Bldg. 1, Suite 200 Austin, TX 78746 UNITED ST A TES OF AMERICA FIRST NAMED INVENTOR Jacob C. SCHWARTZ UNITED STATES DEPARTMENT OF COMMERCE United States Patent and Trademark Office Address: COMMISSIONER FOR PATENTS P.O. Box 1450 Alexandria, Virginia 22313-1450 www .uspto.gov ATTORNEY DOCKET NO. CONFIRMATION NO. UTSD.P2046US.C2 9206 EXAMINER ZARA,JANEJ ART UNIT PAPER NUMBER 1674 NOTIFICATION DATE DELIVERY MODE 08/02/2018 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): docket@phiplaw.com PTOL-90A (Rev. 04/07) UNITED STATES PATENT AND TRADEMARK OFFICE BEFORE THE PATENT TRIAL AND APPEAL BOARD Ex parte JACOB C. SCHWARTZ, SCOTT T. YOUNGER, BETHANY A. JANOWSKI, and DAVID R. COREY Appeal2017-004975 Application 14/482,950 1 Technology Center 1600 Before ERIC B. GRIMES, KRISTI L. R. SA WERT and DAVID COTTA, Administrative Patent Judges. COTT A, Administrative Patent Judge. DECISION ON APPEAL This is an appeal under 35 U.S.C. Â§ 134 involving claims to a method of selectively modulating expression of a target gene in the genome of a human cell determined to be in need thereof. The Examiner rejected the claims on appeal under 35 U.S.C. Â§ 101 as not directed to patent eligible subject matter and as obvious under 35 U.S.C. Â§ 103(a). We affirm. 1 According to Appellants, the real parties in interest are the Board of Regents, University of Texas System and MiNA Therapeutics. Br. 3. Appeal2017-004975 Application 14/482,950 STATEMENT OF THE CASE The Specification discloses that "[ r ]ecent studies have reported that duplex RN As complementary to promoter regions can repress or activate gene expression." Spec. ,r 4 (footnotes omitted). "Other recent work ... has revealed networks of non-coding transcripts surrounding regions of the genome that code for mRNA." Id. According to the Specification, the inventors have "identif[ied] a network of antisense transcripts at the promoter for progesterone receptor (PR)" and shown that "pdRNAs [promotor directed RN As] bind antisense transcripts and that activation of gene expression by pdRNAs requires expression of antisense transcript." Id. The Specification asserts that "pdRNAs are recognizing previously undiscovered transcripts that overlap gene promoters, and that we can use targeted pdRNAs, including antigene RNA [agRNA] and gapmers, to modulate expression of targeted genes." Id. f 5. Claims 21--40 are on appeal. Claim 21 is illustrative and reads as follows: 21. A method [ of] selectively modulating expression of a target gene in the genome of a human cell determined to be in need thereof, comprising: determining the presence of an encoded antisense transcript overlapping a promoter of the target gene; contacting the antisense transcript with an exogenous gapmer or double-stranded agRNA; and detecting a resultant modulation of expression of the target gene, the gapmer comprising a DNA insert complementary to a sequence in the antisense transcript upstream relative to the transcription start site of the gene, and the agRNA being 18-28 bases and complementary to a portion of the antisense transcript 2 Appeal2017-004975 Application 14/482,950 upstream to a portion of the antisense transcript upstream relative to the transcription start site of the gene. Br. 12. The claims stand rejected as follows: Claims 21, 22, and 24--40 stand rejected under 35 U.S.C. Â§ 101 as directed to patent ineligible subject matter. 2 Claims 21--40 stand rejected under 35 U.S.C. Â§ 103(a) as obvious over the combination ofWahlestedt, 3 RIKEN, 4 Li, 5 Janowski, 6 and Han. 7 SUBJECT MATTER ELIGIBILITY In rejecting the pending claims as directed to patent ineligible subject matter, the Examiner found that the claims were directed to the "abstract idea of determining the presence of an encoded antisense transcript 2 In the Examiner's Answer, the Examiner withdrew the rejection of claim 23 under 35 U.S.C. Â§ 101. Ans. 1. Accordingly, the rejection of this claim as directed to patent ineligible subject matter is no longer a part of this appeal. 3 Wahlestedt, Natural Antisense and Noncoding RNA Transcripts as Potential Drug Targets, 11(11/12) DRUG DISCOVERY TODAY 503-508 (2 006) ("W ahlestedt"). 4 RIKEN, Genome Exploration Research Group and Genome Science Laboratory, Antisense Transcription in the Mammalian Transcriptome, 309 Science 1564--1567 (2005) ("RIKEN"). 5 Li et al., Small dsRNAs Induce Transcriptional Activation in Human Cells, 103(46) PNAS 17337-17342 (2006) ("Li"). 6 Janowski et al., Activating Gene Expression in Mammalian Cells with Promoter-Targeted Duplex RNAs, 3(3) Nature Chemical Biology 166-173 (2007) ("Janowski"). 7 Han et al., Promoter-Associated RNA is Required for RNA-Directed Transcriptional Gene Silencing in Human Cells, 104(30) PNAS 12422- 12427 (2007) ("Han"). 3 Appeal2017-004975 Application 14/482,950 overlapping a promoter of a target gene." Ans. 3. The Examiner then concluded that the additional elements recited in the claims do not add "significantly more" than this abstract idea because they describe "conventional techniques that do not add meaningful limits to practicing the abstract idea." Id. Appellants argue, inter alia, "the claims do not recite a method of screening ... [ r ]ather, they contain three active steps that result in the non- natural manipulation of gene expression using a non-natural molecule." Br. 5. Appellants further argue "[t]he claims are very specific in how to accomplish the modulation, even if they do not restate the precise molecular mechanism through [which] the gapmers or agRNAs work." Id. Determination of subject matter eligibility involves a two-step test. First, one must determine if the claimed subject matter is directed to a judicially recognized exception such as a product of nature. Mayo Collaborative Services, v. Prometheus Labs., Inc., 566 U.S. 66, 78 (2012). If the claims are not directed to a patent ineligible concept at step one, we need not address step two of the inquiry. Enfish, LLC v. Microsoft Corp., 833 F.3d 1327, 1339 (Fed. Cir. 2016). If the claims address a judicially recognized exception, the next step is to determine if the claims recite additional elements that transform the nature of the claim. Mayo, 566 U.S. at 78. Here, we find that the Examiner erred in finding that the claims were directed to "the abstract idea of determining the presence of an encoded antisense transcript overlapping a promoter of a target gene." Ans. 10. While the claims do require "determining the presence ... " as a step in the recited method, they are not limited to this step. Considering the claims as a 4 Appeal2017-004975 Application 14/482,950 whole, they are directed not to a method of "determining the presence ... " but to a method of "selectively modulating expression of a target gene." See, Rapid Litig. Mgmt. Ltd. v. CellzDirect, Inc., 827 F.3d 1042, 1050 (Fed. Cir. 2016) ("[I]t is not enough to merely identify a patent-ineligible concept underlying the claim; we must determine whether that patent-ineligible concept is what the claim is 'directed to."'); Vanda Pharmaceuticals Inc. v. West-Ward Pharmaceuticals International Ltd., 887 F.3d 1117, 1134 (Fed. Cir. 2018) ( accord). Because we disagree with the Examiner's finding that the claims were directed to the abstract idea of determining the presence of an encoded antisense transcript overlapping a promoter of a target gene, and because the Examiner has not identified another applicable judicially recognized exception, we reverse the Examiner's rejection of claims 21--40 as directed to patent ineligible subject matter. OBVIOUSNESS Appellants argue claims 21--40 together. We designate claim 21 as representative. The Examiner finds that W ahlestedt teaches "natural antisense and noncoding RNA transcripts as potential drug targets for siRNA [ small interfering RNA] silencing." Ans. 6. The Examiner also finds that Wahlestedt teaches "the knockdown of antisense RNA transcripts by siRNA or other gene silencing techniques, which knockdown[,] elevates or decreases expression of the sense gene, depending on the antisense target gene sequence." Id. The Examiner finds that RIKEN discloses that "perturbation of antisense RNA can alter expression of sense messenger RNAs." Id. RIKEN also discloses "the presence of antisense transcripts, including non-coding 5 Appeal2017-004975 Application 14/482,950 antisense which overlap sense promoter sequences ... and which provide concordant regulation of sense/antisense pairs." Id. at 6-7. The Examiner finds that Li teaches "the quantitation of activation of target gene expression by targeting non-coding regions of gene promoters with dsRNAs between 18-28 nucleobases in length, which target promoter sequences are located 200-300 bases 5' to the transcriptional start site of target genes." Id. at 7. The Examiner finds that Janowski teaches that "both an increase and a decrease of progesterone expression comprising administration of dsRNA which target slightly different regions of the progesterone promoter." Id. The Examiner finds that Han teaches "modulation of target gene transcription comprising the administration of siRNA molecules which target sequences located approximately 200-250 bases 5' to the transcription start region, and overlap the promoter region of target genes, and which siRNA bind to antisense sequences and provide a link between RNA, chromatin and gene expression." Id. at 7-8. Han also teaches the "overlap of target gene sequence on the promoter using 5 '-RACE/3 '-RACE. Id. Based on these disclosures, the Examiner concludes: It would have been obvious to design, test and assess dsRNA or gapmers, which target promoter sequences, for their ability to modulate the expression of a target gene, because such screening assays involving the targeting of promoter sequences by modulatory oligonucleotides including dsRNA and gapmers has been done routinely in the prior art, as disclosed by Wahlestedt, RIKEN, Janowski, Han, and Li. One would have been motivated to analyze the target gene sequences within the promoter to which the dsRNA or gapmer molecules bound, in order to determine the optimal target sites for promoter regulation, and in order to design and optimize dsRNA 6 Appeal2017-004975 Application 14/482,950 modulators for a given promoter of a given target gene. One would have been motivated to screen for antisense target sequences existing upstream from the transcriptional start sites of genes of interest, and overlapping the promoter because W ahlestedt and RIKEN taught the existence and antisense orientation of such natural antisense sequences, and Wahlestedt provided the motivation to screen for modulation of these antisense target sequences using inhibitory oligonucleotides, and identified these antisense target sequences as potential drug targets. Id. at 8. We adopt the Examiner's findings of fact and reasoning regarding the scope and content of the prior art (Ans. 4--9, 12-18; Final Act. 8 6-17) and agree that the claims would have been obvious over Wahlestedt, RIKEN, Janowski, Han, and Li. We address Appellants' arguments below. Appellants argue that Wahlestedt and RIKEN "merely disclose that natural antisense transcripts (NATs) exist." Br. 7. Appellants assert that "[n]either Wahlestedt nor Riken teaches any NAT that overlaps the promoter region of a gene" and that the specific exemplars shown to increase expression of sense RNA, Ddx-39 and rTS-a, do not overlap the promoter of their target genes. Id. We are not persuaded. The disclosures of Wahlestedt and RIKEN are not limited to the existence ofNATs. Wahlested and RIKEN both disclose that antisense RNA can be used to alter the expression of sense genes. See Wahlestedt Abstract ("a number of antisense transcripts regulate the expression of their sense partners, either in a discordant ( antisense knockdown results in sense- transcript elevation) or concordant (antisense knockdown results in 8 Office Action mailed April 28, 2016 ("Final Act."). 7 Appeal2017-004975 Application 141482,950 concomitant sense-transcript reduction) manner"); id. at 507 ("by using siRNA, antisense transcript knockdown can result in increases ( discordant regulation) or decreases ( concordant regulation) of sense transcript expression. . .. These findings and concepts could form the basis for novel pharmacological strategies."); RIKEN Abstract ("perturbation of an antisense RNA can alter the expression of sense messenger RN As"). Further, contrary to Appellants' argument, RIKEN expressly discloses that NA Ts may overlap with promoter region of a gene. See, e.g., RIKEN 1565 (caption for Table 3) ("Convergent SIAS pairs overlap tail to tail (3'-3'), and divergent SIAS pairs overlap on the promoter (5'-5' overlap)."); id. at 1564 ("For example, the insulin-like growth factor 1 receptor (IGFlR) shows a very strong antisense CAGE tag overlapping the promoter of the sense transcript, which provides a parallel to the AIR noncoding RNA (ncRNA) in the IGF2R loci."). Appellants argue that "[n]either Li nor Janowski teach anything about targeting antisense transcripts as the mechanism for action of [progesterone receptor] gene, so it remains unclear why they are in any way relevant to the antisense teachings of Wahlestedt or Riken." Br. 7. Similarly, Appellants contend that Han teaches a "mechanism of gene silencing" and is thus "solving a different problem than that addressed by the other references." Id. at 8. We are not persuaded because the combination of Wahlestedt and RIKEN alone renders claim 21 obvious. In re Bush, 296 F .2d 491, 496 ( CCP A 1961) (holding that the Board may rely on fewer than all of the references relied upon by Examiner). Wahlestedt and RIKEN disclose that one can increase or decrease the expression of a gene through the knockdown of antisense transcript RNA. Wahlestedt Abstract, 507; RIKEN 8 Appeal2017-004975 Application 14/482,950 Abstract. The motivation to screen antisense target sequences to identify candidates for modulation of expression of a target gene, as claimed, is also found in the combination of Wahlestedt and RIKEN. As the Examiner explains: One would have been motivated to screen for antisense target sequences existing upstream from the transcriptional start sites of genes of interest, and overlapping the promoter because W ahlestedt and RIKEN taught the existence and antisense orientation of such natural antisense sequences, and W ahlestedt provided the motivation to screen for modulation of these antisense target sequences using inhibitory oligonucleotides, and identified these antisense target sequences as potential drug targets. Ans. 8. Accordingly, the combination ofWahlestedt and RIKEN alone renders claim 21 obvious. Moreover, we do not agree with Appellants that the teachings of Li, Janowski and Han are irrelevant to "the antisense teaching of Wahlestedt or Riken." Li and Janowski, like Wahlestedt, disclose the use of dsRNA to modulate gene expression. Li Abstract; Janowski Abstract. Han teaches "a role for siRNAs, and specifically antisense-stranded RNAs, in writing the histone code and the regulation of gene expression." Han 12426 (reference citation omitted). Accordingly, all three references are within the same field of endeavor and reasonably pertinent to the problem faced by the inventors. 9 In this regard, we note that the claims encompass modulation of gene 9 We find that the relevant filed of endeavor is the modulation of gene expression using dsRNA and that the problem faced by the inventors was identifying RNA targets for modulation of gene expression. See Spec. ,r,r 3- 5; Declaration of Rachel Meyers signed February 24, 2016 ("Meyers Deel.") ,r 5. 9 Appeal2017-004975 Application 14/482,950 expression, which includes both increases and decreases in the expression of target genes and, more specifically, "gene silencing." Appellants cite the Meyers Declaration as "objective evidence on the issue of what the cited art discloses, and how it would be interpreted by the person of ordinary skill in the art." Br. 9. We have considered the Meyers Declaration, but do not find it persuasive. We note that the Meyers Declaration provides principally opinions regarding the disclosures of the prior art and the non-obviousness of claimed invention. See In re Am. Acad. of Sci. Tech Ctr., 367 F.3d 1359, 1368 (Fed. Cir. 2004) ("[T]he Board is entitled to weigh the declarations and conclude that the lack of factual corroborations warrants discounting the opinions expressed in the declarations."). Accordingly, we affirm the Examiner's rejection of claim 21 as obvious over the combination of Wahlestedt, RIKEN, Li, Janowski, and Han. Because they were not argued separately, claims 22--40 fall with claim 21. SUMMARY In summary, for the reasons set forth herein, and those set forth in the Examiner's Final Office Action and Answer, we affirm the Examiner's decision to reject claims 21--40 stand rejected under 35 U.S.C. Â§ 103(a) as obvious over the combination ofWahlestedt, RIKEN, Li, Janowski, and Han. For the reasons set forth herein, we reverse the Examiner's decision to reject claims 21, 22, and 24--40 stand rejected under 35 U.S.C. Â§ 101 as directed to patent ineligible subject matter. 10 Appeal2017-004975 Application 14/482,950 No time period for taking any subsequent action in connection with this appeal may be extended under 37 C.F.R. Â§ 1.136(a). See 37 C.F.R. Â§ 1.136(a)(l )(iv). AFFIRMED 11