13282243 (P.T.A.B. Aug. 24, 2016)

Ex Parte Sode et al

Patent Trial and Appeal BoardAug 24, 2016

13282243 (P.T.A.B. Aug. 24, 2016)

UNITED STA TES p A TENT AND TRADEMARK OFFICE APPLICATION NO. FILING DATE 13/282,243 10/26/2011 9629 7590 08/26/2016 MORGAN LEWIS & BOCKIUS LLP (WA) 1111 PENNSYLVANIA A VENUE NW WASHINGTON, DC 20004 FIRST NAMED INVENTOR Koji Sode 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. 068022-5136 5411 EXAMINER STEADMAN, DAVID J ART UNIT PAPER NUMBER 1656 NOTIFICATION DATE DELIVERY MODE 08/26/2016 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): patents@morganlewis.com karen.catalano@morganlewis.com PTOL-90A (Rev. 04/07) UNITED STATES PATENT AND TRADEMARK OFFICE BEFORE THE PATENT TRIAL AND APPEAL BOARD Ex parte KOJI SODE and KA TSUHIRO KOJIMA Appeal2014-007206 Application 13/282,243 1 Technology Center 1600 Before ULRIKE W. JENKS, JACQUELINE T. HARLOW, 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 an isolated mutant glucose dehydrogenase with improved specificity. Claims 1-3, 8-11, 15, 16, 18, and 19 are on appeal as rejected under 35 U.S.C. Â§Â§ 102(b) and 103(a), and under the doctrine of obviousness-type double patenting. We have jurisdiction under 35 U.S.C. Â§ 6(b ). We affirm. 1 The Real Parties in Interest are ARKRA Y, INC. and Bioengineering Laboratories, LLC. Br. 1. Appeal2014-007206 Application 13/282,243 STATEMENT OF THE CASE The Specification describes a mutant glucose dehydrogenase (GDH) having increased substrate specificity, meaning it is more sensitive to glucose relative to maltose. Spec. i-f 1. GDHs are useful for glucose sensors and the problem addressed by the invention is that such sensors are incapable of accurately measuring the blood sugar (glucose) level where blood maltose is high because of high sensitivity to maltose. Id. i-fi-1 1-2. A mutant enzyme of CyGDH (a GDH used for blood glucose sensors and comprising a mutant-type a-subunit that constitutes a cytochrome C- containing GDH) having mutations at its 326th and 365th amino acid residues where glutamine (Q) and tyrosine (Y) are substituted, respectively (referred to as CyGDH(QY)) is known to mitigate the influence of maltose in blood glucose testing. Id. i-fi-1 1--4. The invention seeks to improve upon this by introducing an additional mutation at position 4 72 by replacing the respective amino acid with tyrosine (Y). Id. i-f 6. The appealed claims can be found in the Claims Appendix of the Appeal Brief. Claim 1 is the sole independent claim, is representative, and reads as follows: 1. An isolated mutant glucose dehydrogenase comprising an amino acid sequence at least 80% identical to the amino acid sequence of SEQ ID N0:3 and having glucose dehydrogenase activity, wherein amino acid residues of the mutant glucose dehydrogenase corresponding to positions 326, 365 and 472 of SEQ ID N0:3 are replaced with glutamine, tyrosine and tyrosine, respectively, wherein said mutant glucose dehydrogenase shows an increased substrate specificity to glucose and a reduced reactivity to 2 Appeal2014-007206 Application 13/282,243 disaccharides as compared to a wild-type glucose dehydrogenase having the amino acid sequence of SEQ ID NO: 3. Br. 18 (Claims App'x). The following rejections are on appeal: Claims 1-3, 8-11, 15, 16, 18, and 192 rejected under 35 U.S.C. Â§ 102(b) as anticipated by Yamaoka 833. 3 Final Action 10. Claims 1-3, 8-11, 15, 16, 18, and 19 rejected under 35 U.S.C. Â§ 103(a) over Sode4 and Yamaoka 833. Final Action 14. Claims 1-3, 8-11, 15, 16, 18, and 19 rejected under the judicially created doctrine of obviousness-type double patenting as unpatentable over claims 1, 3-8, 11, 13, 15, and 20-25 of Yamaoka 969. 5 Final Action 21. Claims 1-3, 8-11, 15, 16, 18, and 19 rejected under the judicially created doctrine of obviousness-type double patenting as unpatentable over claims 1 and 4--10 of Yamaoka 5296 in view of Yamaoka 833. Final Action '"'IL LU. 2 Claims 21-24 are cancelled by Appellants. Br. 20 (Claims App'x). 3 U.S. Patent Application Pub. No. 2008/0206833 (published Aug. 28, 2008) (hereinafter "Yamaoka 833"). 4 U.S. Patent No. US 7,741,090 B2 to Sode (issued June 22, 2010) (hereinafter "Sode"). 5 U.S. Patent No. US 7,604,969 B2 to Yamaoka et al. (issued Oct. 20, 2009) (hereafter "Yamaoka 969"). 6 U.S. Patent No. US 7,803,592 B2 to Yamaoka (issued Sept. 28, 2010) (hereafter "Yamaoka 592"). 3 Appeal2014-007206 Application 13/282,243 FINDINGS OF FACT Except where otherwise noted, we adopt the Examiner's findings of fact, reasoning on scope and content of the prior art, and conclusions set out in the Final Action and Answer. We identify the following only to highlight certain facts. FF 1. Yamaoka 833 disclosed: The mutant GDH of the present invention shows improved substrate specificity to glucose, because it is obtained by adding the specific mutation to such a wild type GDH or GDH having a conservative mutation as described above. The "improved substrate specificity to glucose" include reduced reactivity to other monosaccharides, disaccharides and oligosaccharides such as maltose, galactose and xylose with the substantially same reactivity to glucose, and improved reactivity to glucose compared with reactivities to other saccharides. For example, even if the reactivity to glucose is reduced, if the reactivities to other saccharides are reduced in larger degrees, the substrate specificity for glucose is improved. Yamaoka 833 i-f 32. FF2. Yamaoka 833 disclosed: Specific examples of the specific mutation include the followings .... (2) Substitution of another amino acid residue for the amino acid residue at a position corresponding to the 365th position of the amino acid sequence of SEQ ID NO: 3, and substitution of another or other amino acid residues for at least one or arbitrary two or more amino acid residues at position or positions corresponding to the 324th, 326th, 333rd, 334th, 368th, 369th, 376th, 377th, 418th, 419th, 436th, 433rd, 448th, 472nd, 475th, 525th and 529th positions in the amino acid sequence of SEQ ID N0:3 ... 4 Appeal2014-007206 Application 13/282,243 Examples of the other amino acid residue mentioned in the above mutation [at position 365] include those of amino acids other than serine, . . . [a ]mong these, residues of phenylalanine, tyrosine, tryptophan and histidine are preferred .... Among the aforementioned positions of the amino acid substitution, the 326th position, the 472nd position, the 475th position, and the 529th position are preferred ... The amino acid residue after the substitution at the 4 72nd position is preferably aspartic acid, glutamic acid, phenylalanine, tyrosine, isoleucine, asparagine or histidine residue, particularly preferably aspartic acid residue .... The amino acid residue after the substitution at the 326th position is preferably glutamine or valine residue. Yamaoka 833 i-fi-134--40, claims 1, 6, 8, and 16; see also Final Action 10-11 and Ans. 17-18 (discussing Yamaoka). FF3. Yamaoka 833-disclosed SEQ ID NO: 3 is 100% identical to SEQ ID NO: 3 of the appealed claims. Final Action 10 (referencing App'x to Office Action dated Mar. 9, 2012). FF4. Yamaoka 833 disclosed, "it was estimated that the 365th position was a very effective position for reducing the reactivity to maltose. Therefore, it was decided to examine this position in detail." Yamaoka 833 i180; see also Final Action 10-21 and Ans. 5-14 (discussing Yamaoka 833). FF5. Yamaoka 833 disclosed replacing the amino acid at position 365 of SEQ ID NO: 3 with tyrosine. Id. table 15; see also Final Action 10- 21 and Ans. 5-14 (discussing Yamaoka 833). FF6. Yamaoka 833 disclosed, "[ t ]he specific activity for glucose, specific activity for maltose and reaction ratio (specific activity for maltose/specific activity for glucose, unit is U/ml.) of each mutant GDH are 5 Appeal2014-007206 Application 13/282,243 shown in Table 16. As for the substrate concentration, the evaluation was performed at 5 mM and 10 mM." Yamaoka 833 i-f 84; see also Final Action 10-21 and Ans. 5-14 (discussing Yamaoka 833). An excerpt of Table 16 is reproduced below: \Vild type Single mutagenesis U/ml (culture medium) 5 mivi 10m~1 Glucose Maltose Mal/Glc Glucose Maltose Mal/Ole 2.87 0.77 16 90/ kt ~ /0 2.52 1 ')') .~ ... *** S365Y 1.42 0.02 1.6% 2.46 0.05 Table 16 (in excerpt) shows that wild type GDH coded by SEQ ID NO: 3 had a maltose/glucose specific activity reaction ratio of 26.9% and 48.2% at 5mM and lOmM, but when tyrosine was substituted at the 365 position these ratios decreased to 1.6% and 2.0% respectively, indicating improved specificity for glucose respective of maltose. Id. i-f 85. FF7. Yamaoka 833, based on the aforementioned results shown at Table 16, disclosed: it became clear that the 365th position was an extremely highly effective position for improving the substrate characteristics. Therefore, aiming at further improvement of the substrate characteristics by combining the amino acid substitution at the 3 65th position and amino acid substitutions at other positions, 6 Appeal2014-007206 Application 13/282,243 further studies were conducted. Specifically, double mutagenesis at the 365th position and any of the 326th, 529th and 472nd positions, and triple mutagenesis at the 365th, 472nd, and 4 7 5th positions were examined. Yamaoka 833 i-f 86; see also Final Action 10-21 and Ans. 5-14 (discussing Yamaoka 833). FF8. Yamaoka 833 disclosed Table 17, an excerpt of which is reproduced below: S365Y (single mnt.-1tion) 365Y + 326Q 365Y +472 .. { T1\BLE 17 Double n.mtage.nesis U/ml. (culture medium) 5 mrvt 10mM Glucose Maltose Mal/Gfo Glucose Malt\.mc Mal/Glc 1.42 0.02 2.46 0.05 *** 2.28 0.01 0.6% " ""} Â·'Â·Â·'"-Â· o.cn 1.0% *** 0,98 0.051 .;; ")()/ -Â· ..... . d) L85 O.Cl42 2.31%1 Table 17 (in excerpt) shows that a double mutation of SEQ ID NO: 3, where tyrosine is substituted at the 365 position and glutamine is substituted at the 326 position, decreased the specific activity maltose/glucose ratio to 0.6% for 5mM and 1.0% for 1 OmM. Yamaoka 833 i-f 86; see also Final Action 10-21 and Ans. 5-14 (discussing Yamaoka 833). Table 17 also shows that a double mutation of SEQ ID NO: 3, where tyrosine is substituted at both the 7 Appeal2014-007206 Application 13/282,243 3 65 and 4 72 positions, decreased the specific activity glucose/maltose ratio to 5.2% and 2.3%, respectively at 5mM and lOmM. Yamaoka 833 i-f 86; see also Final Action 10-21 and Ans. 5-14 (discussing Yamaoka 833). FF9. In view of the results shown at Table 17, Yamaoka disclosed: It was found that the substrate characteristics were synergistically improved by the combinations with all the positions examined, and it became clear that the substrate characteristics could be further improved by a combination of a mutation at the 365th position and amino acid substitution at another position improving the substrate characteristics. Yamaoka 833 i-f 87; see also Final Action 10-21 and Ans. 5-14 (discussing Yamaoka 833). FF 10. Yamaoka disclosed, the "combination effect of a mutation at the 4 72 or 4 7 5th position, for which the substrate characteristic improving effect was already confirmed by the inventors of the present invention, and a mutation at a position other than the 365th position was examined." Yamaoka 833 i-f 89; see also Final Action 10-21 and Ans. 5-14 (discussing Yamaoka 833). FFl 1. Yamaoka 833 disclosed, "[t]he synergistic effect was also confinned for combinations of mutations at the 4 72 and 4 7 5th positions and other positions," for example, the triple mutation 472Y + 475H + 326Q was shown to decrease the maltose/ glucose specific activity reaction ratio to 4.3% and 6.1% for 5mM and lOmM, respectively. Yamaoka 833 i-fi-188-91; see also Final Action 10-21 and Ans. 5-14 (discussing Yamaoka 833). FF12. Yamaoka 833 disclosed, "it became clear that the mutations including S365Y maintained about 90% of the specific activity for glucose, and thus they were preferred mutations from the viewpoint of glucose 8 Appeal2014-007206 Application 13/282,243 measurement. Moreover, it also became clear that the S326Q mutation had an effect of increasing the specific activity for glucose." Yamaoka 833 i-fi-192-93; see also Final Action 10-21 and Ans. 5-14, 29-30 (discussing Yamaoka 833). FF13. Yamaoka 833 disclosed, "it also became clear that use of the mutation 326Q in addition to the mutation 365Y can increase the specific activity for glucose, and relatively decrease the reactivity to maltose." Yamaoka 833 i-f l 06; see also Final Action 10-21 and Ans. 5-14 (discussing Yamaoka 833). FF14. Sode disclosed SEQ ID NO: 3, which is 100% identical to SEQ ID NO: 3 of the appealed claims. Final Action 14 (referencing App'x to Office Action dated Mar. 9, 2012). FF 15. Sode disclosed: As a specific embodiment of the peptide enzyme of the present invention, a protein having the amino acid sequence of SEQ ID NO: 3 can be mentioned. Further, this peptide enzyme may be a protein having the amino acid sequence containing substitution, deletion, insertion or addition of one or more amino acid residues in the amino acid sequence of SEQ ID NO: 3 so long as it has the GDH activity .... In the present invention, "one or more" means a number of 1 to 10, preferably 1 to 5, particularly preferably 1 to 3. Sode col. 7, 1. 60 to col. 8, 1. 14, and claims 1-2; see also Final Action 14 and Ans. 5-6 (discussing Sode). 9 Appeal2014-007206 Application 13/282,243 DISCUSSION The rejection of claims 1-3, 8-11, 15, 16, 18, and 19 under 35 US. C. Â§ 102(b) as anticipated by Yamaoka 833. Appellants contend Yamaoka 833 fails to disclose "each and every element as set forth in the present claims." Br. 4. Appellants argue that, although Yamaoka 833 discloses potential mutations of SEQ ID NO: 3 at positions 365, 326, and 472, because it also discloses potential mutations at several other positions and, at the positions of the appealed claims, discloses several optional amino acid substitutions other than those recited by the claims, "one of ordinary skill in the art would not at once envisage the claimed mutations at positions 326, 365 and 472 with particular glutamine, tyrosine and tyrosine, respectively." Id. 5. We find that the claims are not anticipated by Yamaoka 83 3. Whether or not the skilled artisan would "at once envisage" it, the specific combination of SEQ ID NO: 3 mutations of the claims is not expressly or inherently disclosed by Yamaoka 833. The reference does suggest such a combination of mutations, but this is not enough for anticipation. As stated in Arkley, an anticipatory reference under 35 U.S.C. Â§ 102: [M]ust clearly and unequivocally disclose the claimed compound or direct those skilled in the art to the compound without any need for picking, choosing, and combining various disclosures not directly related to each other by the teachings of the cited reference. Such picking and choosing may be entirely proper in the making of a [Â§] 103, obviousness rejection, where the applicant must be afforded an opportunity to rebut with objective evidence any inference of obviousness which may arise from the similarity of the subject matter which he claims to the prior art, 10 Appeal2014-007206 Application 13/282,243 but it has no place in the making of a [ Â§] 102, anticipation rejection. In reArkley, 455 F.2d 586, 587-588 (CCPA 1972) (emphasis original). Therefore, we reverse the anticipation rejection. The rejection of claims 1-3, 8-11, 15, 16, 18, and 19 under 35 US. C. Â§ 103(a) over Sode and Yamaoka 833. Appellants have not presented persuasive evidence that the Examiner's prima facie case that the claims would have been obvious is incorrect. Appellants renew the contention that the Examiner "fails to show a teaching or suggestion of all of the claim elements." Br. 7. More specifically, Appellants argue: Yamaoka [833] fails to disclose the specific combination of the mutations at positions 326, 365 and 472 with glutamine, tyrosine and tyrosine, respectively, as set forth in the present claims [and] Sode fails to cure the deficiency of Yamaoka [833] because Sode does not even disclose any mutation of glucose dehydrogenase. Id. 7. Appellants argue there would have been no motivation to replace the amino acids (of SEQ ID NO: 3) at positions 326, 365, and 472 with glutamine, tyrosine, and tyrosine, respectively." Id. 8. Appellants also allege "unexpected superior properties of the claimed combination of mutations, which are not present in the combinations of mutations in the cited references;" the unexpected improvement being a decreased reactivity to maltose relative to glucose (i.e., a decreased reaction ratio). Id. 9. Appellants' arguments are unconvincing. Yamaoka 83 3 alone is enough to have rendered the claimed subject matter obviousness, but 11 Appeal2014-007206 Application 13/282,243 certainly so when combined with Sode, which also discloses SEQ ID NO: 3 and suggests mutating it for the very reason the invention does so, preferably at 3 positions. See FF 1-FF 15. The amino acid replacements of the claims, in view of the mutant GDH disclosed by Yamaoka 833 's finite suggested possibilities, would have been obvious. Yamaoka 833 taught that each of the mutations of SEQ ID NO: 3 at positions 326, 365, and 472, individually or as a plurality of mutations, were advantageous in increasing the specific activity of glucose with respect to maltose. FF4, FF6-FF13. Yamaoka 833 also taught the amino acids for replacement at each position, as claimed. FF2, FF5, FF6, FF8, FFl 1, FF13. Yamaoka 833 also taught the synergistic effect of combining such mutations to further improve the specific activity of glucose and the desirability of testing the finite combinations of mutations at the claimed positions to this end. FF 4, FF7-FF 13. Such disclosure renders the claimed subject matter obvious. Where there is a need or market pressure (as there would be here), picking one of a finite number of known solutions to a known problem is obvious. KSR Int 'l Co. v. Teleflex Inc., 550 U.S. 398, 421 (2007). Appellants contend that the data at Table 4 in the Specification is evidence of unexpected results and the non-obviousness of the claims. We are not persuaded. "[B]y 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 must] consider[] what properties were expected." Pfizer, Inc. v. Apotex, Inc., 480 F.3d 1348, 1371 (Fed. Cir. 2007) (emphasis original; internal citations omitted herein unless otherwise indicated). Here, 12 Appeal2014-007206 Application 13/282,243 Appellants present evidence of experimental results relating to some aspects of the claimed invention (see generally, Br. 9-11); however, on the current record (see, e.g., discussion supra), the evidence and results presented were not "unexpected." Besides the Examiner's determination that such results are not commensurate with claim scope, i.e., they do not relate to a mutant having only 80% identity to SEQ ID NO: 3, and additionally, that the results are not "unexpected" in view of Yamaoka 833. Yamaoka 833, as discussed above, urges combining mutations (and Sode suggests 3 mutations) to improve glucose specificity respective of maltose in GDH and provides a roadmap of such experimentation. Yamaoka 833 extolls the synergistic effect of such combinations of mutations, identifies the positions to make amino acid replacements, and identifies the claimed amino acids to be substituted. Therefore, we are not persuaded by Appellants' arguments and affirm the obviousness rejection. The rejection of claims 1-3, 8-11, 15, 16, 18, and 19 under the judicially created doctrine of obviousness-type double patenting as unpatentable over claims 1, 3--8, 11, 13, 15, and 20-25 of Yamaoka 969 and also over claims 1and4-10 of Yamaoka 529 in view of Yamaoka 833. Appellants present overlapping arguments with respect to the two double patenting rejections and, so, we address them together. Appellants have not presented persuasive evidence that the Examiner's prima facie case that the claims would have been obvious in over the claims of Yamaoka 969 or the claims of Yamaoka 529 in view of Yamaoka 833 is incorrect. Appellants' arguments are essentially repeated 13 Appeal2014-007206 Application 13/282,243 from those made with respect to the Yamaoka 833-Sode obviousness rejection, discussed above. Appellants argue the specific combination of mutations is not recited in claims and that there would be no motivation to choose the claimed mutations. Br. 14--16. The claims of Yamaoka 969 are essentially the same as the disclosure of Yamaoka 833 and Yamaoka 833 is expressly invoked in the rejection over the claims of the Yamaoka 529 claims. For the same reasons set forth above with respect to the Yamaoka 833 reference, we are unpersuaded by Appellants' arguments here and the respective rejection is affirmed. SUMMARY The rejection of claim 1 under 35 U.S.C. Â§ 102(b) as anticipated by Yamaoka 833 is reversed. Claims 2, 3, 8-11, 15, 16, 18, and 19 fall with claim 1. 3 7 C.F .R. Â§ 41.3 7 ( c )(1 )(iv). The rejection of claim 1 under 35 U.S.C. Â§ 103(a) over Sode and Yamaoka 833 is affirmed. Claims 2, 3, 8-11, 15, 16, 18, and 19 fall with claim 1. 3 7 C.F .R. Â§ 41.3 7 ( c )(1 )(iv). The rejection of claim 1 under the judicially created doctrine of obviousness-type double patenting as unpatentable over claims 1, 3-8, 11, 13, 15, and 20-25 of Yamaoka 969 is affirmed. Claims 2, 3, 8-11, 15, 16, 18, and 19 fall with claim 1. 37 C.F.R. Â§ 41.37(c)(l)(iv). The rejection of claim 1 under the judicially created doctrine of obviousness-type double patenting as unpatentable over claims 1 and 4--10 14 Appeal2014-007206 Application 13/282,243 of Yamaoka 529 in view of Yamaoka 833 is affirmed. Claims 2, 3, 8-11, 15, 16, 18, and 19 fall with claim 1. 37 C.F.R. Â§ 41.37(c)(l)(iv). 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. Â§ 1.136(a). AFFIRMED 15