2020002235 (P.T.A.B. Dec. 21, 2020)

GEORGETOWN UNIVERSITY et al.

Patent Trials and Appeals BoardDec 21, 2020

2020002235 (P.T.A.B. Dec. 21, 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. 15/022,654 03/17/2016 Mihael Polymeropoulos VAND-0166-US 1013 23550 7590 12/21/2020 HOFFMAN WARNICK LLC 540 Broadway 4th Floor Albany, NY 12207 EXAMINER JEAN-LOUIS, SAMIRA JM ART UNIT PAPER NUMBER 1627 NOTIFICATION DATE DELIVERY MODE 12/21/2020 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): PTOCommunications@hoffmanwarnick.com PTOL-90A (Rev. 04/07) UNITED STATES PATENT AND TRADEMARK OFFICE __________ BEFORE THE PATENT TRIAL AND APPEAL BOARD __________ Ex parte MIHAEL POLYMEROPOULOS, HOWARD J. FEDEROFF, and XIAOMIN SU __________ Appeal 2020-002235 Application115/022,654 Technology Center 1600 __________ Before RICHARD M. LEBOVITZ, RACHEL H. TOWNSEND, and MICHAEL A. VALEK, Administrative Patent Judges. TOWNSEND, Administrative Patent Judge. DECISION ON APPEAL This is an appeal under 35 U.S.C. § 134(a) involving claims to a method of treating a subject diagnosed with a neurodegenerative disease, which have been rejected as obvious. We have jurisdiction under 35 U.S.C. § 6(b). We affirm. STATEMENT OF THE CASE Appellant’s Specification states “[g]enerally . . . the underlying mechanisms causing [neurodegenerative diseases] are not well understood 1 We use the word “Appellant” to refer to “applicant” as defined in 37 C.F.R. § 1.42. Appellant identifies the real party in interest as Georgetown University and Vanda Pharmaceuticals Inc. (Appeal Br. 1.) Appeal 2020-002235 Application 15/022,654 2 and few effective treatment options are available for preventing or treating neurodegenerative diseases.” (Spec. 1.) Appellant’s invention is directed to a method of treating a neurodegenerative disease by administering an effective amount of fenofibrate. (Id.) Claims 13–15, 17–22, and 26–28 are on appeal. Claim 13 is representative and read as follows: 13. A method of treating a subject diagnosed with a neurodegenerative disease who has been determined to exhibit a reduced level of PGC-1α expression as compared to the expression level expected in a subject lacking the neurodegenerative disease, the method comprising: administering to the subject an amount of fenofibrate effective to increase a level of PGC-1α expression and treat the neurodegenerative disease. (Appeal Br. 7–8.) Appeal 2020-002235 Application 15/022,654 3 The prior art relied upon by the Examiner is: Name Reference Date Bartl et al. US 2007/0225326 A1 Sept. 27, 2007 A. Kreisler et al., Lipid-lowering drugs in the MPTP mouse model of Parkinson’s disease: Fenofibrate has a neuroprotective effect, whereas bezfibrate and HMG-CoA reductase inhibitors do not, 1135 Brain Research 77–84 (2007) J. St.Pierre et al., Suppression of Reactive Oxygen Species and Neurodegeneration by the PGC-1 Transcriptional Coactivators, 127 Cell 397–408 (2006) S. Austin and J. St.Pierre, PGC1α and mitochondrial metabolism – emerging concepts and relevance in ageing and neurodegenerative disorders, 125 J. Cell Science, 4963–71 (2012) The following grounds of rejection by the Examiner are before us on review: Claims 13–15, 17–20, and 26–28 under 35 U.S.C. § 103(a) as unpatentable over Kreisler, St. Pierre, and Austin.2 Claims 21 and 22 under 35 U.S.C. § 103(a) as unpatentable over Kreisler, St. Pierre, Austin, and Bartl. DISCUSSION Obviousness of Claims 13–15, 17–22, and 26–28 Appellant argues the claims as a group. Thus, claims 14, 15, 17–22, and 26–28 stand or fall with claim 13. 37 C.F.R. § 41.37(c)(1)(iv). We address the rejection as it relates to representative claim 13. The Examiner finds that Kreisler teaches testing of fenofibrate in the MPTP 2 The Examiner refers to this reference as St. Pierre Journal of Cell Science. Appeal 2020-002235 Application 15/022,654 4 mouse model of Parkinson’s disease (PD), “a classical experimental model of PD” reproducing “some of its biochemical and pathological hallmarks.” (Non-Final Action3 14.) The fenofibrate was administered orally and prevented the MPTP-induced dopaminergic cell death and attenuated the loss of tyrosine hydroxylase immunoreactivity. (Id.) The Examiner finds that Kreisler teaches that “recent evidence suggests that the PPARα agonist, fenofibrate, has neuroprotective effects in an experimental mouse model of brain ischemia that encompasses inflammatory response and oxidative stress (see page 78, last paragraph).” (Id. at 13.) In addition, the Examiner finds that Kreisler teaches that “there is some evidence to suggest that PPAR-α is involved in the suppression of apoptosis.” (Id.) The Examiner also finds that Kreisler further teaches that “the data suggest that PPAR-alpha activation by fenofibrate could have a neuroprotective effect in PD through inhibition of inflammation, oxidative stress, and/or apoptosis (see pg. 80 left col.).” (Id. at 14.) The Examiner recognizes that Kreisler “does not specifically teach a method of treating Parkinson disease wherein the subject has been determined to exhibit a reduced level of PGC-1 alpha expression as compared to the expression level expected in a subject lacking the neurodegenerative disease.” (Id.) Nor does Kreisler teach that fenofibrate induces PGC-1α expression in neural cells. (Id. at 14–15.) The Examiner finds, however, that it would have been obvious to one of ordinary skill in the art to have used fenofibrate to treat PD patients with reduced PGC-1α expression with a reasonable expectation of treating PD 3 The Non-Final Action is dated Feb. 5, 2019. Appeal 2020-002235 Application 15/022,654 5 and preventing dopaminergic cell loss in view of the teachings of St. Pierre and Austin. (Id. at 16–17.) The Examiner finds this to be so because St. Pierre teaches PGC-1α, which is a PPAR gamma co-activator, is a modulator of reactive oxygen species (ROS), “is required for the induction of many ROS-detoxifying enzymes,” “and that increasing PGC-1α dramatically protects neural cells in culture from oxidative-stressor mediated death.” (Id. at 15.) In addition, the Examiner finds that St. Pierre teaches “PGC-1α expression caused a powerful increase in the survival of neuronal cells and had a protective effect in neuroblastoma cells (see pg. 404, left col.).” (Id. at 15.) And the Examiner finds that Austin teaches PGC-1α is a “powerful regulator of ROS removal,” thus minimizing the impact of ROS on cell physiology and “is a transcriptional co-activator that is a central inducer of mitochondrial biogenesis (see abstract).” (Id. at 16.) And, Austin teaches “PGC-1α was found to protect against neuronal loss in cell culture models of PD and PD mouse model (see pg. 4969, right col., top paragraph).” (Id.) “In sum, [Austin] et al. teach that increased PGC-1α levels appear to improve the various neurodegenerative diseases by either improving mitochondrial functions and/or ROS detoxification (see pg. 4969, right col., last paragraph).” (Id. at 17.) The Examiner concludes: one skilled in the art would have indeed found it obvious [to] target subjects afflicted with neurodegenerative diseases with low or reduced PGC-1α expression level and administer fenofibrate given that St. Pierre stated that such subjects with low or no PGC-1α expression tend to display neurodegenerative lesions and increased ROS and given that Kreisler demonstrated that administration of fenofibrate results in decreased brain lesions and decreased ROS species. Appeal 2020-002235 Application 15/022,654 6 (Ans. 14.) The Examiner further concludes that one skilled in the art would have found it obvious that administration of fenofibrate would lead to an increased level of PGC-1α expression in neural cells “given that the prior art teaches that such neuroprotective effect is conferred by PGC-1α wherein reduced levels lead to neurodegeneration.” (Id. at 18.) We agree with the Examiner’s conclusion of obviousness. Kreisler teaches a study performed “to determine whether or not fenofibrate, bezafibrate and two HMG-CoA reductase inhibitors (atorvastatin and simvastatin) have neuroprotective effects on dopaminergic cell loss in an acute MPTP mouse model of Parkinson’s disease.” (Kreisler 78.) The study involved administering “a diet containing 0.2% fenofibrate” and determined that such a dosage amount was able to “prevent the MPTP- induced loss of TH4-positive neurons in the substantia nigra pars compacta,” a particular region of the midbrain, and “MPTP-induced loss of TH- immunoreactivity-containing neurons in the striatum.” (Id. at abstract, 78– 79.) Irrespective of whether Kreisler identified that fenofibrate increased the level of PGC-1α expression (Appeal Br. 5), we agree with the Examiner that Kreisler’s study provides motivation to one of ordinary skill in the art to treat one suffering from a neurodegenerative disease, such as PD, with fenofibrate. Indeed, as discussed above, Kreisler established in a mouse model of PD that administration of fenofibrate provided a therapeutic benefit. 4 TH stands for tyrosine hydroxylase Appeal 2020-002235 Application 15/022,654 7 We turn now to the patient population that the claims require to be treated, namely a subject diagnosed with a neurodegenerative disease who has been determined to exhibit a reduced level of PGC-1α expression as compared to the expression level expected in a subject lacking the neurodegenerative disease. (See, e.g., Claim 13.) St. Pierre and Austin indicate that PGC-1α presence plays a role in improving neurodegenerative diseases, and its absence can result in neurodegenerative lesions in the brain. St. Pierre indicates that in animal models that were created to not have PGC-1α, i.e., PGC-1α knockout mice, such mice “displayed neurodegenerative lesions in the brain, particularly in the striatum, and also showed behavioral abnormalities.” (St. Pierre 398.) St. Pierre also explained that “[t]he absence of PGC-1α again renders the brain more sensitive to neurodegeneration, with apoptotic cell death and increased oxidative damage.” (St. Pierre 405.) St Pierre further states that “PGC-1α is a highly inducible factor in most tissues” and “induc[ing] PGC-1α in the brain . . . could represent a new mode of therapy.” (Id. at 406.) In addition, Austin indicates that several studies support “a protective role for PGC1α in Parkinson’s disease,” which is “characterised by the loss of dopaminergic neurons in the substantia nigra,” and that “[t]he expression of numerous PGC1α target genes, such as those of the respiratory chain, is decreased in PD patients.” (Austin 4969.) Austin further teaches, that PGC1α is reduced in numerous neurodegenerative disease. In particular Austin, indicates that expression of PGC1α is “reduced” in Huntington’s disease patients and Alzheimer’s Appeal 2020-002235 Application 15/022,654 8 patients. (Austin 4969.) Austin further teaches that the expression of PGC1α is “repressed” in PD. (Id. (citing Shin5).) Appellant admits that there are neurodegenerative diseases that are “typified by reduced PGC-1α expression.” (Appeal Br. 5.) We conclude that in light of this admission and the teachings discussed above of St. Pierre and Austin that Kreisler’s suggestion of administering fenofibrate to PD patients would include administering it to patients that would necessarily have reduced levels of PGC1α.6 Although we disagree with the Examiner that one of ordinary skill in the art would have expected from the prior art that a mechanism of action of fenofibrate treatment is through an increase in PGC1α expression (Ans. 8– 10, 13–14; Non-Final Action 15–17), we nevertheless, agree with the Examiner that, in view of the broad range of effective amounts disclosed in the Specification, that it would have been reasonably expected that, following the guidance of Kreisler, an increased level of PGC-1α expression 5 J. Shin et al., PARIS (ZNF746) Repression of PGC-1α Contributes to Neurodegeneration in Parkinson’s Disease, 144 Cell 689–702 (2011) (copy included with this decision); see Shin 696 (“We find that PGC-1α and NRF- 1 mRNA are downregulated in PD SN [(substania nigra)] and striatum compared to control SN and striatum (Figure 6A and Figure S5A).”) 6 We also agree with the Examiner that it would have been obvious to one of ordinary skill in the art to target patients having PD with a reduced level of PGC-1α in light of the teachings of St. Pierre and Austin. (Ans. 15.) That is because Austin indicates “PGC1α protects against neuronal loss in cell culture models of PD” and that “increased PGC1α levels appear to improve the phenotype of various murine models of [ageing and neurodegenerative disorder] conditions.” (Austin 4969.) However, we disagree with the Examiner that one of ordinary skill in the art would reasonably have deduced from the cited prior art that at least one of the mechanisms of action of fenofibrate in treating PD was the increase of PGC-1α expression. Appeal 2020-002235 Application 15/022,654 9 would result upon fenofibrate administration to human PD patients. (Non- Final Action 17.) Specifically, Appellant’s Specification teaches that an effective amount would be between 1–1000 mg daily. (See Spec. 7–8.) And, we do not find persuasive Appellant’s argument, unsupported by data or declaration evidence, that The fact that fenofibrate was found to provide neuroprotective effects in patients with a neurodegenerative disease that is typified by reduced PGC-lα expression does not necessarily mean that fenofibrate resulted in increased PGC-1α expression. (Appeal Br. 5.) “[W]here the Patent Office has reason to believe that a functional limitation asserted to be critical for establishing novelty in the claimed subject matter may, in fact, be an inherent characteristic of the prior art, it possesses the authority to require the applicant to prove that the subject matter shown to be in the prior art does not possess the characteristic relied on.” In re Best, 562 F.2d 1252, 1254–55 (CCPA 1977). Given the broad range of effective amounts disclosed in the Specification, and the lack of evidence of the criticality of the effective amount, it would have been reasonably expected that following the dosage guidance in Kreisler increased PGC-1α expression would necessarily and inevitably result.7 7 Appellant argues further that the prior art does not conclude that an increase in PGC-1α expression would provide neuroprotection. (Appeal Br. 4.) We do not find this argument persuasive. First, the claims do not require treatment with fenofibrate to provide neuroprotection. The claims just require an increase in the level of PGC-1α expression. Whether the prior art recognizes that such a result was achieved is simply of no relevance here. “[W]hen considering a prior art method, the anticipation doctrine examines the natural and inherent results in that method without regard to the full recognition of those benefits or characteristics within the art field at the time of the prior art disclosure.” Perricone v. Medicis Pharm. Corp., 432 F.3d 1368, 1378 (Fed. Cir. 2005). Appeal 2020-002235 Application 15/022,654 10 Because our reasoning that the prior art renders claim 13 obvious differs in significant respect from the Examiner’s, we designate our affirmance as a new ground of rejection pursuant to 37 C.F.R. § 41.50(b). Appellant does not separately address the Examiner’s rejection of claims 21 and 22 under 35 U.S.C. § 103(a) except to say that Bartl does not cure the defects of Kreisler, St. Pierre, and Austin. (Appeal Br. 6.) Because we do not agree that there is a defect in the Examiner’s conclusion that claim 13 is not patentable over Kreisler, St. Pierre, and Austin, we affirm the Examiner’s rejection of claims 21 and 22. DECISION SUMMARY In summary: Claims Rejected 35 U.S.C. § Reference(s)/Basis Affirmed Reversed New Ground 13–15, 17–20, 26–28 103 Kreisler, St. Pierre, Austin 13–15, 17–20, 26–28 13–15, 17–20, 26–28 21, 22 103 Kreisler, St. Pierre, Austin, Bartl 21, 22 Overall Outcome 13–15, 17–22, 26–28 13–15, 17–20, 26–28 TIME PERIOD FOR RESPONSE This decision contains a new ground of rejection pursuant to 37 C.F.R. § 41.50(b). 37 C.F.R. § 41.50(b) provides “[a] new ground of rejection pursuant to this paragraph shall not be considered final for judicial review.” Appeal 2020-002235 Application 15/022,654 11 37 C.F.R. § 41.50(b) also provides that the Appellant, WITHIN TWO MONTHS FROM THE DATE OF THE DECISION, must exercise one of the following two options with respect to the new ground of rejection to avoid termination of the appeal as to the rejected claims: (1) Reopen prosecution. Submit an appropriate amendment of the claims so rejected or new Evidence relating to the claims so rejected, or both, and have the matter reconsidered by the examiner, in which event the prosecution will be remanded to the examiner. . . . (2) Request rehearing. Request that the proceeding be reheard under § 41.52 by the Board upon the same Record. . . . Further guidance on responding to a new ground of rejection can be found in the Manual of Patent Examining Procedure § 1214.01. AFFIRMED; 37 C.F.R. 41.50(b)