2020006147 (P.T.A.B. Sep. 22, 2021)

Ambrx, Inc. et al.

Patent Trials and Appeals BoardSep 22, 2021

2020006147 (P.T.A.B. Sep. 22, 2021)

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. 16/165,813 10/19/2018 Anna-Maria A. HAYS PUTNAM X18746A 5736 159715 7590 09/22/2021 Elanco US Inc. Patent Division 2500 Innovation Way Greenfield, IN 46140 EXAMINER ALLEN, MARIANNE P ART UNIT PAPER NUMBER 1647 NOTIFICATION DATE DELIVERY MODE 09/22/2021 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@elanco.com PTOL-90A (Rev. 04/07) UNITED STATES PATENT AND TRADEMARK OFFICE BEFORE THE PATENT TRIAL AND APPEAL BOARD Ex parte ANNA-MARIA A. HAYS PUTNAM, NICK KNUDSEN, THEA NORMAN, ALAN KODER, VADIM KRAYNOV, LILLIAN SKIDMORE, and PETER C. CANNING Appeal 2020-006147 Application 16/165,813 Technology Center 1600 Before DONALD E. ADAMS, JEFFREY N. FREDMAN, and JAMIE T. WISZ, Administrative Patent Judges. WISZ, Administrative Patent Judge. DECISION ON APPEAL Pursuant to 35 U.S.C. § 134(a), Appellant1 appeals from the Examiner’s decision to reject claims 68, 102, and 104–116. We have jurisdiction under 35 U.S.C. § 6(b). We AFFIRM. 1 We use the word “Appellant” to refer to “applicant” as defined in 37 C.F.R. § 1.42. Appellant identifies ELANCO US INC. and AMBRX, INC. as the real parties-in-interest. Appeal Br. 2. Appeal 2020-006147 Application 16/165,813 2 CLAIMED SUBJECT MATTER The Specification describes “bovine granulocyte-colony stimulating factor (bG-CSF) polypeptides optionally modified with at least one non- naturally-encoded amino acid.” Spec. 2. In some embodiments, the non- naturally encoded amino acid is linked to a water soluble polymer, such as a poly(ethylene glycol) moiety. Id. ¶ 49. According to the Specification, “G- CSF is capable of inducing an increase in the absolute number of circulating neutrophils and enhances neutrophil function” and “bG-CSF polypeptides of the invention may be used to ameliorate or prevent infections in animals.” Id. ¶¶ 20, 215. Claim 68 is illustrative of the claimed subject matter and is reproduced below: 68. A method of treating an animal having a disorder modulated by bG-CSF comprising administering to the animal a therapeutically-effective amount of a bG-CSF polypeptide comprising the sequence of SEQ ID NO: 1, wherein position 133 of SEQ ID NO: 1 is substituted with a non-naturally encoded amino acid, wherein the non-naturally encoded amino acid is para- acetylphenylalanine, and wherein the non-naturally encoded amino acid is linked to a water soluble polymer comprising a poly(ethylene) glycol moiety having a molecular weight of between about 1 kDa and about 100 kDa. Appeal Br. 19 (Claims App.). REJECTIONS The Examiner rejected claims 68, 102, and 104–116 under 35 U.S.C. § 112 for lack of enablement. Appeal 2020-006147 Application 16/165,813 3 The Examiner rejected claims 68, 102, and 104–116 under 35 U.S.C. § 103 as being unpatentable over Canning2 in view of Cho,3 Heidari,4 Lovejoy,5 Park,6 Kang,7 and Tonon.8 ISSUES AND ANALYSIS Rejection of claims 68, 102, and 104–116 under 35 U.S.C. § 112 for lack of enablement The Examiner rejected claims 68, 102, and 104–116 because the Examiner finds that the Specification does not provide enablement for all the claimed methods. Final Act. 2. According to the Examiner, the claims do not identify the animal, the disorder/infection, or the therapeutic effect that must be achieved by the “therapeutically effective amount.” Id. at 3. The Examiner further finds that, “the claims are broad and the amount of experimentation would be large given the variety of animals to be treated with a bovine G-CSF, the large number of conditions to be treated, and the variety of therapeutic effects that must be achieved (prevention, cure, amelioration or reversal of all symptoms).” Id. at 5. According to the Examiner, there is little direction or guidance in the Specification compared 2 Canning et al., US 2005/0232898 A1, published Oct. 20, 2005 (“Canning”). 3 Cho et al., WO 2005/074650 A2, published Aug. 18, 2005 (“Cho”). 4 Heidari et al., “Cloning, sequencing, and analysis of cDNA encoding bovine granulocyte-colony stimulating factor,” Elsevier 73 (2000), 183–191 (“Heidari”). 5 Lovejoy et al., “Crystal Structure of Canine and Bovine Granulocyte- Colony Stimulating Factor (G-CSF),” J. Mol. Biol. (1993) 234, 640–653 (“Lovejoy”). 6 Park, Myung-Ok, US 7,557,195 B2, issued Jul. 7, 2009 (“Park”). 7 Kang et al., US 2008/0200657 A1, published Aug. 21, 2008 (“Kang”). 8 Tonon et al., WO 2008/017603 A1, published Feb. 14, 2008 (“Tonon”). Appeal 2020-006147 Application 16/165,813 4 to the scope of the claims and “[t]he prior art of record does not disclose that bG-CSF could ameliorate or reverse any symptom of any disease or infection.” Id. Appellant argues that “a person of skill in the art would easily recognize the disorder or infection to be treated and the therapeutic effect to be achieved.” Appeal Br. 9. Appellant points to page 9, lines 10–16 of the Specification, which states: Administration of a compound that treats or modulates the incidence, recurrence, duration, and/or severity of mastitis or respiratory disease in cattle or other infections in non-human animals, including but not limited to, cattle, poultry, swine, horses, dogs, and cats would be useful in veterinary medicine. Examples of such infections include but are not limited to, neonatal septicemia in horses, pleuropneumaonia in pigs, and pneumonia in non-human animals. Such compounds may restore or modulate neutrophil function in the animal. Spec. 9, ¶ 17. Appellant also cites to Examples 2, 25, 26, 27, 28, and 29 as support for the claims. Appeal Br. 11–13. Appellant contends that the Examiner failed to properly analyze the state of the art, particularly as cited in the Specification. Id. at 13 (citing Spec. 10, 12–21, 11, 13–14, 14:27–15:6; 226:28–227:2). We find that Appellant has the better position. The Examiner alleges that “the broadest reasonable interpretation of a claim directed to treating without a specific therapeutic effect recited in the claim includes preventing, curing, and ameliorating or reversing any and all symptoms of the disorder in all animals embraced by the claims.” Final Act. 3. However, the term “treating” is defined in the Specification as referring to “either prophylactic Appeal 2020-006147 Application 16/165,813 5 and/or therapeutic treatments” and “effective amount” is defined as the “amount of the modified non-natural amino acid polypeptide being administered which will relieve to some extent one or more of the symptoms of the disease, condition or disorder being treated.” Spec. ¶¶ 184, 193. Therefore, the method of treatment claims do not require that the recited diseases be cured but, rather, that the symptoms are “relieve[d] to some extent.” While the Examiner acknowledges that the Specification includes examples of administration of bG-CSF polypeptides to cows and steers and that “[t]reatment with a therapeutic goal of reducing the incidence of mastitis is enabled,” the Examiner finds that “[t]here is no evidence of record or reason to believe that administration of a bG-CSF polypeptide of the claims will treat all aspects or symptoms of all disorders modulated by bG-CSF in all animals embraced by the claims.” Final Act. 4. First, as discussed above, the claims do not require that the bG-CSF polypeptides “treat all aspects” of the claimed disorders but, rather, that symptoms are “relieve[d] to some extent.” Second, while acknowledging that there are examples of methods of treatment in the Specification, the Examiner does not cite to any evidence to support the contention that “[i]t is not considered to be so predictable that the results disclosed in the specification would have been predictive or could have been extrapolated to enable the breadth of the claims.” Id. at 6. Therefore, we find that the Examiner has not made a prima facie case of lack of enablement and we reverse the enablement rejection of claims 68, 102, and 104–116. Appeal 2020-006147 Application 16/165,813 6 Rejection of claims 68, 102, and 104–116 under 35 U.S.C. § 103 as being unpatentable over Canning in view of Cho, Heidari, Lovejoy, Park, Kang, and Tonon The Examiner finds that Canning discloses treating or preventing infections in mammals such as cows (bovine) by administering bovine G- CSF (bG-CSF). Final Act. 8 (citing Canning abstract, claims, ¶¶ 9, 11, 13). The Examiner also finds that Canning discloses the treatment of mastitis, intrauterine infections, and bovine respiratory disease and also discloses the need for stable protein compositions. Id. The Examiner acknowledges that Canning does not disclose the PEGylated bG-CSF of the instant claims but finds that this limitation is suggested by other references. Id. at 9. The Examiner finds that Cho discloses “non-natural amino acid modification and PEGylation of human G-CSF.” Id. (citing Cho Examples 36–39). According to the Examiner, the three-dimensional structure of G- CSF would have been well known as well as PEGylation of mutated G-CSF. Id. (citing Cho ¶¶ 14, 22, Figures 1, 5). The Examiner further finds that Cho discloses the non-natural amino acid, para-acetylphenylalaninne (pAF) and also discloses using PEG polymers of 0.1 to 50 kD, 0.1 or 100 kD or 5–20 kD. Id. (citing Cho ¶¶ 254, 261, 455, claims 27–28, 54). The Examiner also finds that Cho discloses the sequence of mature human G-CSF as SEQ ID NO: 29 and mutation of amino acid position 134 of SEQ ID NO: 29. Id. (citing Cho Examples 36–39, ¶ 734). According to the Examiner, Cho “suggests that glycosylation sites may be useful sites for introducing non- naturally-occurring amino acid substitutions into the proteins” and that “[a]mino acids that comprise O-linked glycosylation sites in the proteins may be sites for non-naturally-occurring amino acid substitutions because these amino acids are surface-exposed.” Id. The Examiner acknowledges Appeal 2020-006147 Application 16/165,813 7 that Cho does not disclose the polypeptide sequence of claimed SEQ ID NO: 1 for bovine G-CSF (bG-CSF) but finds that this limitation is suggested by Heidari Id. at 10. The Examiner finds that Heidari discloses the polypeptide of bG-CSF corresponding to the claimed SEQ ID NO: 1 and also discloses an O-linked glycosylation site at Thr-133. Id. (citing Heidari 185, Abstract, Figure 1, Table 1). According to the Examiner, the human and bovine G-CSF sequences have high homology. Id. The Examiner also finds that Lovejoy discloses the 3D structure of bovine G-CSF and its close similarity to the 3D structure of human G-CSF. Id. (citing Lovejoy Abstract, Figs. 1, 6). According to the Examiner amino acid position 133 of the claimed SEQ ID NO: 1 corresponds to amino acid position 134 of SEQ ID NO: 29 of Cho and, as evidenced by Heidari, this is an O-linked glycosylation site, which is suggested by Cho for modification. Id. The Examiner also finds that Kang “discloses substituting the threonine at amino acid 134 of human G-CSF (corresponding to position 133 of instant SEQ ID NO: 1 . . . ) with cysteine and monoPEGylating this position with a 20 kD water soluble PEG polymer” and also discloses that this “PEGylated polypeptide is biologically active.” Id. at 10 (citing Kang abstract, ¶¶ 63, 91, 97–98, Example 5, Figure 5, Tables 1, 5, 6). The Examiner further finds that Tonon “discloses substituting individual G-CSF amino acids within the range of amino acid positions 132-137 with glutamine and monoPEGylating the position with a 20 kD water soluble PEG polymer.” Id. at 11 (citing Tonon 7–8, 17–19, Example 6, claims). According to the Examiner, Park discloses PEGylation of G-CSF and makes clear that non-human G-CSF from recombinant mouse, bovine, or dog can Appeal 2020-006147 Application 16/165,813 8 also be PEGylated in the same way. Id. (citing Park 5:60–65, Example 17, Table 1). The Examiner concludes that “[i]t would have been obvious to modify bovine G-CSF (using the sequence provided by [Heidari]) in the manner taught by [Cho] to arrive at modified bG-CSF compounds containing non- naturally encoded amino acids that are then PEGylated” by “[u]sing the non- natural amino acid para-acetylphenylalanine [which] is taught by [Cho].” Id. at 11. The Examiner also finds that Kang and Tonon teach the desirability of using a 20 kDa PEG to PEGylate G-CSF and mutation of the particularly claimed amino acid position of G-CSF is disclosed by Cho. Id. According to the Examiner, amino acid 134 of Cho corresponds to amino acid 133 of instant SEQ ID NO: 1 and this amino acid position is a glycosylation site. Id. The Examiner finds that Cho specifically suggests modifying this particular amino acid position as well as glycosylation sites. Id. The Examiner also finds that “[m]onoPEGylation at position 133 of G- CSF with a 20 kD water soluble PEG polymer would have been known in the art to be biologically active, particularly in the proliferation of neutrophils as taught by [Kang].” Id. at 12. The Examiner further finds that “[i]t would have been obvious to use the PEGylated bG-CSF suggested by the combination of [Cho, Heidari, Lovejoy, Park, Kang, and Tonon] in the methods of treatment and prevention disclosed by [Canning]” which discloses treatment of mastitis, intrauterine infections, and bovine respiratory disease (also known as shipping fever) in periparturient dairy cows. Id. at 14. According to the Examiner, Canning “suggests using stabilized forms of bovine G-CSF (bG-CSF) and the Appeal 2020-006147 Application 16/165,813 9 PEGylated bG-CSF suggested by the combination of [Cho, Heidari, Lovejoy, Park, Kang, and Tonon] would have been stabilized.” Id. Appellant argues that the art cited by the Examiner disclose “a variety of modifications to a G-CSF molecule,” but “do not provide a motivation to combine their disclosures to arrive at the claimed molecule and using it in the claimed methods of treatment” and that the Examiner is using impermissible hindsight. Appeal Br. 14. Appellant further argues that there would have been no expectation of success and points to Table 9 of the Specification to support their assertion that selecting an amino acid position for PEGylation is unpredictable. Id. (citing Spec. 243). Appellant also submits data related to the generation of porcine G-CSF variants to demonstrate the unpredictability of generating G-CSF variants with substitutions of non-natural amino acids. Id. at 15 (citing Exhibits H and I). Appellant further asserts that there is no motivation to combine the cited references and “Cho fails to provide sufficient direction to arrive at the claimed method comprising the claimed bG-CSF variant with a reasonable expectation of success.” Id. at 18. We find that the Examiner has the better position. Canning discloses treating or preventing infections in mammals such as cows by administering bovine G-CSF and also discloses the need for stable protein compositions. See Canning abstract, ¶ 13. In looking for stable therapeutic G-CSF compositions, one of ordinary skill in the art would have looked to Cho, which discloses using human G-CSF and its homologs as pharmaceutical compositions. See Cho ¶¶ 136, 556–559. It was known from Heidari and Lovejoy that bovine G-CSF has a highly homologous amino acid sequence to human G-CSF and has a similar 3D structure to human G-CSF. See Appeal 2020-006147 Application 16/165,813 10 Heidari 185, 187; Lovejoy 641, 647. Thus, we agree with the Examiner that it would have been obvious to modify bovine G-CSF (using the sequence provided by Heidari), as taught by Cho to arrive at modified bG-CSF compounds containing non-naturally encoded amino acids that are PEGylated because “PEGylated proteins show lower renal clearance rates, as well as higher stability and reduced immunogenicity” Tonon 4. Further, one of skill in the art would have been motivated to use the non-natural amino acid para-acetylphenylalanine as well as a PEG moiety having a molecular weight of between about 0.1 kDa to about 100 kDa as taught by Cho. See Cho ¶¶ 254, 261, claim 54. Cho also teaches mutation of amino acid 134 of SEQ ID NO: 1 (which corresponds to amino acid 133 of Cho). Id. at ¶ 734. A person of ordinary skill in the art would have been motivated to monoPEGylate position 133 of bG-CSF in order to provide an improved therapeutic composition because Kang taught that monoPEGylation of the corresponding position in human G-CSF with a 20 kD water soluble PEG polymer resulted in a biologically active PEGylated polypeptide that increased neutrophil numbers and had increased plasma half-life. See Kang ¶¶ 63, 91, 97–98, Example 5, Figure 5, Tables 1, 5, 6. Thus, one of skill in the art would have been motivated to use the PEGylated bG-CSF taught by Cho, Heidari, Lovejoy, and Kang in the methods of treatment and prevention disclosed by [Canning], which discloses treatment of mastitis, intrauterine infections, and bovine respiratory disease (also known as shipping fever) in cattle. Appellant argues the references individually but does not persuasively argue a lack of motivation to combine these references. “Non-obviousness Appeal 2020-006147 Application 16/165,813 11 cannot be established by attacking references individually where the rejection is based upon the teachings of a combination of references. . . . [The reference] must be read, not in isolation, but for what it fairly teaches in combination with the prior art as a whole.” In re Merck & Co., 800 F.2d 1091, 1097 (Fed. Cir. 1986). We are also not persuaded by Appellant’s arguments regarding no reasonable expectation of success. We agree with the Examiner that one of ordinary skill in the art would have had an expectation of success in producing a biologically active product given the knowledge in the prior art concerning highly related products such as the PEGylated G-CSF proteins of Kang and Tonon, which exhibited increased neutrophil numbers and increased plasma half-life. See Kang abstract, ¶¶ 63, 91, 97–98, Example 5, Figure 5, Tables 1, 5, 6; Tonon 4, 7–8, 17–19, Example 6. As discussed above, given the sequence similarity and 3D structural similarity between human and bovine G-CSF, one of ordinary skill in the art would have expected to obtain stable products that could treat the claimed disorders, as taught in Channing. Appellant argues that the Examiner engaged in impermissible hindsight; however, “[a]ny judgment on obviousness is in a sense necessarily a reconstruction based upon hindsight reasoning, but so long as it takes into account only knowledge which was within the level of ordinary skill at the time the claimed invention was made and does not include knowledge gleaned only from applicant’s disclosure, such a reconstruction is proper.” In re McLaughlin, 443 F.2d 1392, 1395, (CCPA 1971). Based on the teachings of the prior art discussed above, one or ordinary skill in the art at the relevant time would have found it obvious to use the modified bG- Appeal 2020-006147 Application 16/165,813 12 CSF polypeptide in the claimed methods and would have had a reasonable expectation of success in doing so. With regard to Appellant’s arguments regarding Table 9, we agree with the Examiner that the fact that one of the modified bG-CSF variants had better activity than the claimed variant does not teach away from the claimed variant. A teaching away requires a reference to actually criticize, discredit, or otherwise discourage the claimed solution. See In re Fulton, 391 F.3d 1195, 1201 (Fed. Cir. 2004) (“The prior art’s mere disclosure of more than one alternative does not constitute a teaching away from any of these alternatives because such disclosure does not criticize, discredit, or otherwise discourage the solution claimed”). Also, as shown in Table 9, the claimed variant still retained activity and the claims do not require any particular level of activity. See Spec. 253. We also agree that Appellant’s submission of Exhibits H, I, and J is an improper submission of new evidence after the filing of an appeal pursuant to 37 C.F.R. § 41.33(d)(2). However, even if we were to consider such evidence, we do not find it to be persuasive. Appellant contends that data regarding the porcine G-CSF variants described in the Exhibits provide evidence of the unpredictable nature of variant molecules. Appeal Br. 15. First, this data does not indicate any surprising or unexpected results regarding the claimed bovine G-CSF variant and it is unclear how these particular porcine variants relate to the claimed bovine variant. “It is well established that the objective evidence of nonobviousness must be commensurate in scope with the claims.” In re Lindner, 457 F.2d 506, 508, (CCPA 1972). Furthermore, the data does not indicate that the generated porcine variants would lack efficacy. In fact, Exhibit I indicates that eight of Appeal 2020-006147 Application 16/165,813 13 the nine variants had a similar activity profile, including the selected H43 variant. See Exhibit I, 3. Thus, the evidence submitted by Appellant is not persuasive, when weighed with the Examiner’s strong prima facie case of obviousness, to support a finding of nonobviousness. For the reasons explained above, we affirm the Examiner’s rejection of claims 68, 102, and 104 as being obvious over Canning in view of Cho, Heidari, Lovejoy, Park, Kang, and Tonon. Claims 105–116 are not argued separately apart from the independent claims, and, therefore, fall with claims 68, 102, and 104. See 37 C.F.R. § 41.37(c)(1)(iv). CONCLUSION For the reasons described herein and those already of record, we reverse the Examiner’s enablement rejection of 68, 102, and 104–116 and affirm the obviousness rejection of claims 68, 102, and 104–116. DECISION SUMMARY In summary: Claim(s) Rejected 35 U.S.C. § Reference(s)/Basis Affirmed Reversed 68, 102, 104–116 112 Enablement 68, 102, 104–116 68, 102, 104–116 103 Canning, Cho, Heidari, Lovejoy, Park, Kang, Tonon 68, 102, 104–116 Overall Outcome 68, 102, 104–116 Appeal 2020-006147 Application 16/165,813 14 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). AFFIRMED