10939302 (P.T.A.B. May. 6, 2013)

Ex Parte Yang

Patent Trial and Appeal BoardMay 6, 2013

10939302 (P.T.A.B. May. 6, 2013)

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. 10/939,302 09/10/2004 Demao Yang 3067.02US01 3447 62274 7590 05/06/2013 DARDI & HERBERT, PLLC Moore Lake Plaza, Suite 205 1250 East Moore Lake Drive Fridley, MN 55432 EXAMINER PARAS JR, PETER ART UNIT PAPER NUMBER 1632 MAIL DATE DELIVERY MODE 05/06/2013 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 DEMAO YANG __________ Appeal 2011-011434 Application 10/939,302 Technology Center 1600 __________ Before FRANCISCO C. PRATS, MELANIE L. McCOLLUM, and JEFFREY N. FREDMAN, Administrative Patent Judges. PRATS, Administrative Patent Judge. DECISION ON APPEAL This appeal under 35 U.S.C. § 134 involves claims to a process of treating a severely myelosuppressed patient. The Examiner rejected the claims as obvious. We have jurisdiction under 35 U.S.C. § 6(b). We affirm. STATEMENT OF THE CASE “Myelosuppression is a condition in which bone marrow cell activity is decreased, and can result in fewer red blood cells, white blood cells, and/or platelets. . . . Myelosuppression is probably the most common side effect of chemotherapy in cancer patients” (Spec. 3). Appeal 2011-011434 Application 10/939,302 2 “Unfortunately, the four FDA-approved growth factors (GCSF, GM- CSF, Interleukin-11 and Erythropoietin) that are routinely used to accelerate recovery of blood production are often not effective for severe and/or chronic myelosuppression, and the recovery of multilineage hematopoiesis” (id. at 5). Appellant’s invention is thus directed to “materials and methods using cultured (activated) blood cells for treating myelosuppressed patients, and patients with blood deficiencies, such as anemia, aplastic anemia and/or thrombocytopenia. Such approaches include treatments for severe and/or chronic myelosuppression, and the recovery of multilineage hematopoiesis” (id. at 6). The sole rejection before us for review is the Examiner’s rejection of claims 1-7, 9-14, 16-19, 21, 23-25, 38, 41, 44-47, 49, and 50 under 35 U.S.C. § 103(a) as obvious over Hashimoto,1 Weaver,2 Bowers,3 Ragnhammar,4 and Erdahl5 (Ans. Br. 4-7). Claims 1 and 11 are representative and read as follows: 1 S. Hashimoto et al., Mechanism of Calcium Ionophore and Phorbol Ester- Induced T-cell Activation, Accessory Cell Requirement for T-cell Activation, 33 SCAND. J. IMMUNOL. 393-403 (1991). 2 C.H. Weaver et al., Syngeneic Transplantation With Peripheral Blood Mononuclear Cells Collected After the Administration of Recombinant Human Granulocyte Colony-Stimulating Factor, 82 BLOOD 1981-1984 (1993). 3 Daniel C. Bowers et al., Immune constitution of complete DiGeorge anomaly by transplantation of unmobilised blood mononuclear cells, 352 THE LANCET 1983-84 (1998). 4 P. Ragnhammar et al., Cytotoxicity of white blood cells activated by granulocyte-colony-stimulating factor, granulocyte/macrophage-colony- stimulating factor and macrophage-colony-stimulating factor against tumor Appeal 2011-011434 Application 10/939,302 3 1. A process of treating a severely myelosuppressed patient having a blood deficiency, the process comprising administering ex vivo activated blood cells to the patient to increase concentrations of blood components that are deficient in the severely myelosuppressed patients through stimulation of hematopoiesis, wherein the blood cells comprise a mixed population of peripheral blood mononuclear cells cultured for from about 20 hours to about 80 hours, without preselecting CD34+ cells and without preparing a purified preparation of stem cells or highly enriched monocyte preparations, in the presence of a cytokine and a calcium ionophore to form the ex vivo activated blood cells, wherein the peripheral blood mononuclear cells [PMBCs] comprise at least monocytes and lymphocytes, and wherein the cytokine is chosen from a group consisting of survival, growth and differentiation stimulators of myeloid cells, T-cells, or combination of them. 11. The process of claim 1 wherein the cytokine comprises macrophage-colony stimulating factor. DISCUSSION The Examiner cited Hashimoto as teaching that culturing in the presence of “the ionophore, ionomycin, stimulates cell proliferation in peripheral blood mononuclear cells (PBMC) populations” and causes the cultured PBMCs to produce the cytokine interleukin 2 (IL-2) (Ans. 5). The Examiner thus reasoned that Hashimoto taught the culturing conditions required by claim 1, but found that Hashimoto differed from claim 1 in that Hashimoto did not teach that its PBMCs were “used in transplantation” (id.). cells in the presence of various monoclonal antibodies, 39 CANCER IMMUNOL. IMMUNOTHER. 254-262 (1994). 5 Warren L. Erdahl et al., Ca2+ Transport Properties of lonophores A23187, lonomycin, and 4-BrA23187 in a Well Defined Model System, 66 BIOPHYSICAL JOURNAL 1678-1693 (1994). Appeal 2011-011434 Application 10/939,302 4 To address that deficiency, the Examiner cited Weaver as disclosing that “PBMC transplants are used to treat patients that have undergone myeloablative therapy” (id.). Based on the references’ combined teachings, the Examiner concluded that an ordinary artisan would have considered it obvious to “use proliferating PBMCs cells in a cancer patient whose bone marrow is depleted of immune cells in order to repopulate said cancer patient’s immune cells quickly” (id. at 5-6). In particular, the Examiner contends: Hashimoto et al. . . . provide guidance that PBMCs proliferate in the presence of ionomycin . . . . This teaching would indicate to an artisan that PBMCs can be expanded before being administered to a patient who has no immune system (e.g. a leukemia patient whose bone marrow has been irradiated to remove cancerous cells). An artisan would know that PBMCs can be administered to patients, as shown by Weaver et al. and an artisan would understand that the advantage of using an expanded population of cells would mean more cells can be used to restore a patient’s immune system. (Id. at 9 (citation omitted).) As stated in In re Oetiker, 977 F.2d 1443, 1445 (Fed. Cir. 1992): [T]he examiner bears the initial burden . . . of presenting a prima facie case of unpatentability. . . . After evidence or argument is submitted by the applicant in response, patentability is determined on the totality of the record, by a preponderance of evidence with due consideration to persuasiveness of argument. Appellant’s arguments do not persuade us that a preponderance of the evidence fails to support the Examiner’s conclusion of obviousness as to claim 1. Appeal 2011-011434 Application 10/939,302 5 As to claim 1’s actual treatment step, Weaver describes administering PBMCs from syngeneic donors to cancer patients that had received myeloablative treatments (see Weaver 1981 (abstract) (“Five syngeneic transplants were performed in four patients following myeloablative therapy using unmodified peripheral blood mononuclear cells (PBMCs) collected after the administration of recombinant human granulocyte colony stimulating factor (rhG-CSF) to normal donors.”)). As Weaver explains, administering PBMCs to myeloablated patients offers distinct advantages as compared to bone marrow transplantation: PBMCs appear to result in faster engraftment of neutrophils and platelets than does marrow, or marrow plus post-transplant GM-CSF in the autologous setting. Additional advantages of PBMCs include a decrease in platelet and red blood cell transfusions, a decrease in the duration of hospital stay, and a reduction in the cost of transplantation. (Id. at 1982 (citations omitted).) While it is undisputed that Weaver differs from claim 1 in failing to subject the PBMCs to the culturing steps recited in the claim, as the Examiner pointed out, Hashimoto discloses that culturing PBMCs in the presence of an ionophore causes the cells to proliferate (see Hashimoto 393- 94 (“When peripheral blood mononuclear cells (PBMC) (approximately 80% lymphocytes and 20% monocytes) are stimulated with either calcium ionophore or phorbol ester, lymphocyte proliferation does occur.”)). As the Examiner also pointed out, Hashimoto discloses that the proliferation effect was detectable in PBMCs cultured for 68 hours (see id. at 394), and that the presence of IL-2 was detected in PBMCs cultured in the presence of ionomycin after 48 hours (see id. at 398 (Table 5)). We are Appeal 2011-011434 Application 10/939,302 6 therefore not persuaded that Hashimoto fails to describe claim 1’s culturing steps, including culturing the PBMCs in the presence of a cytokine, as Appellant argues (see App. Br. 10; see also Reply Br. 4). Moreover, given the references’ teachings, we are not persuaded that the Examiner’s position is contrary to the references’ teachings, as Appellant further argues (see App. Br. 11). Rather, we agree with the Examiner that an ordinary artisan, advised by Weaver of the therapeutic efficacy and advantages of PBMCs in myeloablated patients, would have been prompted to administer those cells to patients suffering from severe myelosuppression, and would also have been prompted to culture those cells under the proliferative conditions described by Hashimoto, so as to increase the number of cells available for transplantation. While Hashimoto might not have expressly stated that increasing the number of PBMCs had any clinical application, given Weaver’s disclosure of the therapeutic efficacy of that very same population of cells, i.e. PBMCs, we agree with the Examiner that an ordinary artisan would have reasoned that it would be useful to culture the cells under the conditions described in Hashimoto before transplanting them. As the Supreme explained in KSR, “the [obviousness] analysis need not seek out precise teachings directed to the specific subject matter of the challenged claim, for a court can take account of the inferences and creative steps that a person of ordinary skill in the art would employ.” KSR Int’l v. Teleflex Inc., 550 U.S. 398, 418 (2007); see also id. at 421 (“A person of ordinary skill is . . . a person of ordinary creativity, not an automaton.”). We acknowledge Appellant’s argument that a number of prior art treatments using growth factors had failed to provide adequate results in Appeal 2011-011434 Application 10/939,302 7 severely myelosuppressed patients, and that this art should therefore be considered unpredictable (see App. Br. 8 (citing Spec. 5); see also Reply Br. 5-6). In particular, we note claim 1’s requirement that the treatment is “to increase concentrations of blood components that are deficient in the severely myelosuppressed patients through stimulation of hematopoiesis” (App. Br. 13 (claim 1)). However, given the success and advantages described in Weaver that result from PBMC administration, we are not persuaded that an ordinary artisan lacked a reasonable expectation that administering PMBCs would result in the claimed patient improvement, even if those cells were subjected to the proliferative culture conditions described in Hashimoto. Moreover, given that Weaver describes administering the same population of cells to a very similar, if not the same, patient population, we conclude that the Examiner had an adequate basis for finding that the patient improvement recited in claim 1 would necessarily occur when administering PBMCs cultured in the manner taught by Hashimoto. As stated in In re Best, 562 F.2d 1252, 1255 (CCPA 1977) (citations omitted): Where . . . the claimed and prior art products are identical or substantially identical, or are produced by identical or substantially identical processes, the PTO can require an applicant to prove that the prior art products do not necessarily or inherently possess the characteristics of his claimed product. . . . Whether the rejection is based on ‘inherency’ under 35 U.S.C. § 102, on ‘prima facie obviousness’ under 35 U.S.C. § 103, jointly or alternatively, the burden of proof is the same, and its fairness is evidenced by the PTO’s inability to manufacture products or to obtain and compare prior art products. Appeal 2011-011434 Application 10/939,302 8 We are also not persuaded that culturing PBMCs before administering them to a patient would have required an ordinary artisan to discard the teachings in Weaver, as Appellant argues (see App. Br. 9-10). In particular, claim 1 does not contain any language limiting the donor of the PMBCs to any particular population of individuals, nor does claim 1 exclude culturing PBMCs obtained from donors which have received rhG-CSF prior to cell donation, as taught in Weaver. Moreover, while the rationale for culturing the cells in vivo – increasing cell number as taught by Hashimoto – might not be taught or suggested in Weaver, Appellant directs us to no clear or specific evidence of record suggesting that the therapeutic properties of PBMCs taught in Weaver would be lost upon culturing as described in Hashimoto. In sum, for the reasons discussed, Appellant’s arguments do not persuade us that the Examiner erred in concluding that the process recited in claim 1 would have been obvious to an ordinary artisan. We therefore affirm the Examiner’s rejection of that claim, as well as claims 2-7, 9, 10, 12-14, 16-19, 21, 23-25, 38, 41, 44-47, 49, and 50, which were not argued separately. See 37 C.F.R. § 41.37(c)(1)(vii). Claim 11, which Appellant did argue separately, recites “[t]he process of claim 1 wherein the cytokine comprises macrophage-colony stimulating factor [M-CSF].” (App. Br 14.) In rejecting claim 11, in addition to relying on Hashimoto and Weaver, the Examiner cited Ragnhammar as teaching that “M-CSF and GM- CSF can be used to activate PBMCs in antibody-dependent cellular cytotoxicity (ADCC) to lyse cancer cells” (Ans. 6). Based on this teaching, the Examiner reasoned that an ordinary artisan would have considered it Appeal 2011-011434 Application 10/939,302 9 obvious to “have included M-CSF or GM-CSF to a media that comprises ionomycin to arrive at NK cells that are activated to lyse tumor cells” (id. at 6-7). Appellant argues that the Examiner’s rationale does not find a basis in the prior art or in the “evidence in the record. Neither Weaver no[r] Hashimoto teach or suggest a need to make NK cells or lyse tumor cells. Nor does Ragnhammar provide any such suggestions. Nor is there any suggestion to undertake all of the particularly claimed cell culture conditions using M-CSF” (App. Br. 11; see also Reply Br. 7-8 (also arguing unpredictability in the art (citing Spec. 5)). We are not persuaded. Specifically, Ragnhammar discloses an in vitro study whereby PBMCs acted as effector cells in the monoclonal antibody-mediated killing of cancer cells, also known as antibody-dependent cellular cytotoxicity or ADCC (see Ragnhammar 254). As Ragnhammar explains “[t]he killing capacity of PBMC as well as of granulocytes was statistically significantly enhanced when mAbs [monoclonal antibodies] were added. M-CSF and GM-CSF were the best CSF for augmenting the lytic capacity of PBMC in ADCC” (id.). Ragnhammar thus ultimately advised that “[o]n the basis of the present evaluation, clinical trials in tumor patients are warranted, combining mAbs with GM-CSF or M-CSF. Preference might be given to GM-CSF as this cytokine activates both PBMC and granulocytes” (id.). While it may be true that neither Weaver nor Hashimoto discloses the cancer cell killing capacity of PMBCs, Weaver does disclose that its patients suffered from a number of different cancers (see Weaver 1982 (Table 1)). Thus, we detect no error in the Examiner’s finding that an ordinary artisan Appeal 2011-011434 Application 10/939,302 10 would have reasoned that the cancer cell killing properties of M-CSF- activated PBMCs would have been useful for targeting any cancer cells remaining in Weaver’s patients after myeloablation (see Ans. 15). Accordingly, Appellant’s arguments do not persuade us that the cited references failed to provide a reason why an ordinary artisan, advised by Ragnhammar that M-CSF boosted the cancer cell-killing ability of PMBCs, would have cultured PMBCs in M-CSF before administering them to cancer patients. Moreover, given the express teaching in Weaver regarding the therapeutic effect of PBMCs, as well as the express teaching in Ragnhammar that M-CSF-stimulated PBMCs were useful for killing cancer cells, we are not persuaded that an ordinary artisan lacked a reasonable expectation of success in treating cancer patients with M-CSF-treated PBMCs. We note the teaching in Ragnhammar, pointed to by Appellant (Reply Br. 8), that the cell-killing effect occurred after as little as 6 hours (see Ragnhammar 254 (abstract)), whereas claim 11, through its dependency on claim 1, requires culturing for from about 20 hours to about 80 hours. As the Examiner found, however (Ans. 16), Ragnhammar discloses that the improvement in cancer cell-killing capacity in PBMCs was observed up to 18 hours after growth factor stimulation (see id. at 259 (“Fc receptors did not increase in vitro on the cell surface of effector cells after stimulation with CSF during short (3-18 h) culture periods but the cytotoxic capability increased . . . .”) (emphasis added)). Thus, as Appellant points to no clear or specific evidence of record suggesting that the lower limit of the claimed range, about 20 hours, fails to encompass the 18 hour culture period taught by Ragnhammar as achieving Appeal 2011-011434 Application 10/939,302 11 the improvement in the cancer cell-killing capacity of PBMCs, we are not persuaded that the Examiner lacked an evidentiary basis for concluding that an ordinary artisan would have been prompted to culture PBMCs under the claimed conditions, before transplanting them as taught by Weaver. We therefore affirm the Examiner’s rejection as to claim 11 as well. SUMMARY We affirm the Examiner’s obviousness rejection of claims 1-7, 9-14, 16-19, 21, 23-25, 38, 41, 44-47, 49, and 50 over Hashimoto, Weaver, Bowers, Ragnhammar, and Erdahl. TIME PERIOD No time period for taking any subsequent action in connection with this appeal may be extended under 37 C.F.R. § 1.136(a). AFFIRMED lp