Ex Parte Lizano-González et al

Patent Trial and Appeal BoardApr 13, 2016

12613087 (P.T.A.B. Apr. 13, 2016)

UNITED STA TES p A TENT AND TRADEMARK OFFICE APPLICATION NO. FILING DATE FIRST NAMED INVENTOR 12/613,087 11105/2009 Sergio Agustin Lizana-Gonzalez 20306 7590 04/13/2016 MCDONNELL BOEHNEN HULBERT & BERGHOFF LLP 300 S. WACKER DRIVE 32NDFLOOR CHICAGO, IL 60606 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. 09-056 5664 EXAMINER HORNING, MICHELLE S ART UNIT PAPER NUMBER 1648 MAILDATE DELIVERY MODE 04/13/2016 PAPER Please find below and/or attached an Office communication concerning this application or proceeding. The time period for reply, if any, is set in the attached communication. PTOL-90A (Rev. 04/07) UNITED STATES PATENT AND TRADEMARK OFFICE BEFORE THE PATENT TRIAL AND APPEAL BOARD Ex parte SERGIO AGUSTIN LIZANO-GONZALEZ and LISA ANN ESTEY Appeal2014-000696 Application 12/613,087 1 Technology Center 1600 Before LORA M. GREEN, JEFFREY N. FREDMAN, and RYAN H. FLAX, Administrative Patent Judges. FLAX, Administrative Patent Judge. DECISION ON APPEAL This is a decision on appeal under 35 U.S.C. Â§ 134(a) involving claims directed to methods of preparing a biological sample comprising leukocytes for detection of analytes associated with exosomes by treatment of a sample comprising leukocytes with an inhibitor ofN-SMase. The Examiner rejects claims 1-15 under 35 U.S.C. Â§ 103(a). We have jurisdiction under 35 U.S.C. Â§ 6(b). We reverse. 1 The real party in interest is IDEXX Laboratories, Inc. App. Br. at 1. Appeal2014-000696 Application 12/613,087 STATEMENT OF THE CASE Claims 1-15 are on appeal and can be found in the Claims Appendix of the Appeal Brief. 2 Claims 1 and 9 are the independent claims; claim 1 is representative and reads as follows: 1. A method for preparing a biological sample compnsmg leukocytes for detection of analytes associated with exosomes compnsmg: a. collecting a biological sample comprising leukocytes from a subject; b. adding an inhibitor ofN-SMase to the sample. App. Br. at 13, Claims Appendix. The Specification describes analyte detection directed to identifying PrPsc in biological samples. Spec. 2, 11. 21-26. The Specification explains that PrPsc is an infectious prion that can cause transmissible spongiform encephalopathies (TS Es), such as the disease scrapie in sheep and goats, bovine spongiform encephalopathy in cattle, mink encephalopathy, feline spongiform encephalopathy, chronic wasting disease in deer and elk, and in humans can cause kuru, Creutzfeldt-Jakob disease, Gerstmann-Straussler- Scheinker Syndrome, fatal insomnia, and variant Creutzfeldt-Jacob disease. Spec. 4, 11. 13-21. The Specification describes that an embodiment of the invention provides improved methods of detecting such analytes found associated with exosomes or leukocytes by obtaining a biological sample comprising leukocytes and adding an inhibitor ofN-SMase to the sample. Spec. 4, 11. 2 All references herein to the "Specification" or "Spec." are to the appealed application as filed. 2 Appeal2014-000696 Application 12/613,087 22-24. The advantage of this method, so explains the Specification, is that PrPsc can be associated with exosomes (cellular membrane-bounded subcellular compartments found in neurons and cells of the immune system), but that signal loss for PrPsc as an analyte occurs in the time interval between biological sample collection and signal detection, so, by inhibiting exosome release via an N-SMase inhibitor, one may preserve the detection signal for a longer time. Spec. 2, 1. 28-3, 1. 6. The following ground of rejection is on appeal: Claims 1-15 under 35 U.S.C. Â§ 103(a) as being unpatentable over Prusiner,3 Fevrier,4 Zha,5 and Trajkovic.6 Final Action 2. FINDINGS OF FACT FF 1. PrPsc is formed from normal, cellular PrP isoform (Pr Pc) and prion diseases result from conversion of Pr Pc into PrPsc, which is necessary for the transmission and pathogenesis of the transmissible neurodegenerative diseases of animals and humans, such as spongiform encephalopathies. Prusiner col. 1, 11. 26-49. FF2. Detecting prions and PrPsc is important to the study of prion diseases, such as scrapie of sheep and goats, chronic wasting disease 3 U.S. Patent 6,620,629 to Prusiner et al. (issued Sept. 16, 2003; hereinafter "Prus in er"). 4 Fevrier et al., Cells Release Prions in Association with Exosomes, 101 PNAS 9683-9688 (June 29, 2004) (hereinafter "Fevrier"). 5 Zha et al., Sphingomyelinase Treatment Induces ATP-independent Endocytosis, 140 J. CELL BIO. 39--47 (Jan. 12, 1988) (hereinafter "Zha"). 6 Trajkovic et al., Ceramide Triggers Budding of Exosome Vesicles into Multivesicular Endosomes, 319 SCIENCE 1244--247 (Feb. 29, 2008) (hereinafter "Trajkovic"). 3 Appeal2014-000696 Application 12/613,087 of deer and elk, bovine spongiform encephalopathy of cattle, kuru in humans, Creutzfeldt-Jakob Disease in humans, Gerstmann-Straussler- Scheinker Disease in humans, and fatal familial insomnia in humans. Prusiner col. 1, 1. 50-col. 3, 1. 11; see also Spec. i-fi-f l, 10 (discussing detecting PrPsc in buffy coat fractions of blood and from antemortem transmissible spongiform encephalopathies samples). FF3. The Specification indicates it was known that "PrPsc can be detected in buffy coat fractions of blood" and that "[d]etection of PrPsc from buffy coat fractions provides a way to concentrate the sample and to remove interfering substances in plasma." Spec. i-f l (Background of the Invention). FF4. The Specification indicates it was known that "the magnitude of detection [of PrPsc in buffy coat fractions of blood] is inversely related to the age of the blood sample at the time of processing" because "'aged' buffy coat samples retain less signal than matched buffy coat samples that are processed immediately [upon obtaining the samples]." Spec. i-f l (Background of the Invention). FF5. Prusiner disclosed an "assay [for] determining levels of total PrP8c in a sample" and that "[t]o avoid progression and/or possible transmission of disease, it is important to identify [the presence of] PrP8c in biological fluids." Prusiner Abstract; col. 9, 11. 51-53; see also Final Action 3 and Ans. 5---6 (discussing Prus in er' s disclosure). FF6. Prusiner disclosed a diagnostic assay for prion infection in samples such as "white blood cells (WBC) isolated from prion-infected whole blood" and "used to show that the PrP8c [is] present in prion infected 4 Appeal2014-000696 Application 12/613,087 white blood cells (WBC)." Prusiner col. 4, 11. 1---6; col. 20, 11. 19-56; see also Final Action 3 and Ans. 5---6 (discussing Prusiner's disclosure). FF7. Prusiner did not disclose that prions are an analyte associated with exosomes and did not disclose the use of an N-SMase inhibitor. See Final Action 3; Ans. 6. FF8. Fevrier disclosed that PrPsc is associated with exosomes. Fevrier 9683, 9688; see also Final Action 3 and Ans. 6 (discussing Fevrier disclosure). FF9. Fevrier disclosed that exosomes bearing PrPsc are infectious. Fevrier 9683. FFlO. Fevrier disclosed: There is increasing evidence that monocytes and bone marrow- derived and follicular dendritic cells accumulate infectious prions and play a key role in the onset of disease (4). Most of these cells actively secrete exosomes ( 17, 18), and Pr Pc is present in exosomes secreted by bone marro\'l/=derived dendritic cells (our unpublished observations). Future studies are needed to determine whether exosomes secreted by these cells participate in the propagation of this infectious agent in vivo. Fevrier 9688. FFl 1. Zha disclosed that treating mammalian cells with SMase (exogenous sphingomyelinase) "rapidly induces formation of numerous vesicles that pinch off from the plasma membrane; the process is complete within 10 min after adding SMase." Zha Abstract; see also Final Action 3 and Ans. 6 (discussing Zha disclosure). FF12. Trajkovic disclosed "[ e ]xogenous SMase treatment ... can induce the formation of vesicles" and that upon treating "Oli-neu [mouse oligodendroglial] cells with the neutral sphingomyelinase (nSMase) 5 Appeal2014-000696 Application 12/613,087 inhibitor, GW4869[] [e]xosome release was markedly reduced" and "[t]he effect was also observed after treatment with the two structurally unrelated nSMase inhibitors, spiroexpoxide and glutathione." Trajkovic 1246; see also Final Action 3--4 and Ans. 6 (discussing Trajkovic disclosure). FF13. None of Prusiner, Fevrier, Zha, and Trajkovic disclosed or suggested that inhibiting exosome release can enhance detection of or prolong the detection period for an analyte associated with exosomes. FF14. None of Prusiner, Fevrier, Zha, and Trajkovic disclosed or suggested using an inhibitor of exosomal vesicular budding to optimize detection of PrPsc by co-localizing and amplifying the signal of PrPsc. FF15. None of Prusiner, Fevrier, Zha, and Trajkovic disclosed or suggested inhibiting exosomal vesicular budding to identify which cell type harbored the PrPsc before cellular release of PrPsc. DISCUSSION Appellants assert that the Examiner has not established a prima facie case for obviousness because, in part, there has not been a sufficient showing that there would have been motivation to combine the cited prior art. We agree. While the various recited elements of the claimed invention may be identifiable in the cited prior art, an invention composed of several elements is not proved obvious merely by demonstrating that each of its elements was, independently, known in the prior art. Although common sense directs one to look with care at a patent application that claims as innovation the combination of two known devices according to their established functions, it can be important to identify a reason that would have prompted a person of ordinary skill in the 6 Appeal2014-000696 Application 12/613,087 relevant field to combine the elements in the way the claimed new invention does. KSR Int'! Co. v. Teleflex Inc., 550 U.S. 398, 418 (2007). Moreover, combining references can be based on common sense as long as the reasoning is explained sufficiently. See Perfect Web Techs., Inc. v. InfoUSA, Inc., 587 F.3d 1324, 1328-29 (Fed. Cir. 2009) (emphasis added). Here, the Examiner's rationale for combining the cited references lacks sufficient explanation. The Examiner acquiesces to Appellants' argument that the references themselves do not identify the specific problem addressed by the invention as disclosed in the Specification, which is improving/prolonging detection of PrPsc associated with exosomes and leukocytes. App. Br. 5; Ans. 8-9 (acknowledging this shortcoming of the applied references). Instead, the Examiner determined that there were two other, alternative reasons for making the prior art combination: (1) inhibiting exosomal vesicular budding to optimize detection of PrPsc by co-localizing and thereby amplifying the signal of PrPsc; and/or (2) inhibiting exosomal vesicular budding to identify which cell type harbors the PrPsc before cellular release of PrPsc. Ans. 8-9. The Examiner, however, does not rely on or identify any evidentiary support for these reasons. Final Action 5; Advisory Action 2 (dated Sept. 6, 2012); Ans. 8- 10. Stated differently, the Examiner has not presented evidence showing that inhibiting exosomal vesicular budding would optimize PrPsc detection by co-localization/amplification or assist in identifying cell types, or that these were established, motivating results. See In re Zurko, 258 F.3d 1379, 1386 (Fed. Cir. 2001) ("[T]he Board [or examiner] must point to some 7 Appeal2014-000696 Application 12/613,087 concrete evidence in the record in support of these findings" to satisfy the substantial evidence test). Thus, the Examiner has failed to demonstrate by a preponderance of the evidence that claims on appeal are rendered obvious by the combination of Prusiner, Fevrier, Zha, and Trajkovic. For these reasons, the rejection of claims 1-15 under 35 U.S.C. Â§ 103(a) is reversed. SUMMARY The rejection of claims 1-15 under 35 U.S.C. Â§ 103(a) is reversed. REVERSED 8