Myeloma: Therapy, excluding Transplantation
Oral and Poster Abstracts
653. Myeloma: Therapy, excluding Transplantation: Poster III
Hall A, Level 2
(Orange County Convention Center)
Jacalyn Rosenblatt, MD1,2, Irit Avivi, MD3*, Noam Binyamini, MD3*, Lynne Uhl, MD1, Poorvi Somaiya1*, Dina Stroopinsky, PhD1*, Kristen Anna Palmer1*, Maxwell Douglas Coll1*, Tami Katz, PhD3*, Lina Bisharat, MSc3*, Robin Joyce, MD2, James D. Levine, MD1, Jon E. Arnason, MD1, Katarina Luptakova, MD1, Malgorzata McMasters, MD1*, Salvia Jain, MD1,4, Merav Leiba, MD5*, Aya Sato-Dilorenzo, RN, BSN, OCN1*, Emma Logan1*, Mary Paty Bryant1*, Viki Held3*, Paul G. Richardson, MD6, Jacob P. Laubach, MD6, Arnon Nagler, MD, MSc5, Kenneth C. Anderson, MD7, Nikhil C. Munshi, MD6, Jacob M. Rowe, MD3, Donald Kufe, MD6* and David E. Avigan, MD1
1Beth Israel Deaconess Medical Center, Boston, MA
2Beth Israel Deaconess Medical Center, Harvard Medical School, Boston, MA
3Rambam Health Care Campus, Haifa, Israel
4Malignant Hematology and Bone Marrow Transplantation, Beth Israel Deaconess Medical Center, Harvard Medical School, Boston, MA
5Sheba Medical Center, Tel Hashomer, Ramat Gan, Israel
6Dana-Farber Cancer Institute, Boston, MA
7Medical Oncology, Dana-Farber Cancer Institute, Harvard Medical School, Boston, MA
Autologous stem cell transplantation (ASCT) for multiple myeloma (MM) offers a unique setting to incorporate immunotherapy in an effort to target residual disease. Our group has developed a cancer vaccine in which dendritic cells (DCs) are fused to autologous tumor cells resulting in the presentation of multiple tumor antigens with the capacity to elicit a broad anti-tumor response. A fundamental challenge to developing a more effective tumor vaccine is overcoming the immunosuppressive milieu by which tumor cells evade host immunity. Up-regulation of the PD-1/PDL1 pathway represents a key element contributing to tumor-mediated tolerance, and potentially muting response to vaccination. We are conducting a clinical trial in which patients with MM are treated with an anti-PD1 antibody (Pidilizumab, MDV9300) in combination with a dendritic cell/myeloma fusion cell vaccine following autologous transplantation. 22 patients have been treated with post-transplant immunotherapy. Mean age was 64. MM cells were isolated from bone marrow and were identified by expression of CD38 or CD138. Mean tumor cell yield was 118x106 cells. Adherent mononuclear cells were isolated from leukapheresis collections and cultured with GM-CSF and IL-4 for 5-7 days, then exposed to TNFα for 48-72 hours to generate mature DCs. DCs expressed co-stimulatory (mean CD86 75%) and maturation markers (mean CD83 50%). DC and MM cells were co-cultured with PEG and fusion cells were quantified by determining the percentage of cells that co-express unique DC and myeloma antigens. Mean fusion efficiency was 41% and the mean cell dose generated was 4 x 106 fusion cells. Mean viability of the DC, myeloma, and fusion preparations was 92%, 89%, and 85%, respectively. As a measure of their potency as antigen presenting cells, DC/MM fusions potently stimulate allogeneic T cell proliferation ex-vivo (Mean stimulation index of 1.9, 9.2 and 7.1 for tumor, DC and DC/myeloma fusions respectively, n=21) Post-transplant immunotherapy was initiated after recovery from transplant-related toxicities. Median time from transplant to initiation of post-transplant immunotherapy was 80 days. Patients received 3 doses of Pidilizumab at 6-week intervals. DC/myeloma fusion cells vaccination is administered 1 week before each dose of Pidilizumab. To date, 22 patients have completed vaccinations and Pidilizumab. Adverse events judged to be potentially treatment related included grade 1-2 diarrhea, arthralgias, myalgias, fatigue, headache, nausea, chills, transaminitis, cytopenia, elevated TSH, and vaccine site reactions. A significant increase in circulating tumor reactive lymphocytes was noted following post-transplant immunotherapy, as determined by T cell expression of IFN-γ by CD8 cells following ex-vivo co-culture with autologous myeloma cell lysate. Mean percentage of tumor reactive CD8 cells increased from 1.8% post-transplant to a peak of 9.16% following immunotherapy. In the post-transplant period, regulatory T cells fell to minimal levels and remained low throughout the period of immunotherapy. 6 patients achieved a best response of VGPR, 6 patients have achieved a nCR/CR, including 3 who converted to CR following immunotherapy. Median PFS from transplant is 19 months with ongoing follow up. In summary, DC/MM fusion cell vaccination in conjunction with PD1 blockade following ASCT was well tolerated, potently induced anti-tumor immunity, and in a subset of patients, resulted in the eradication of post-transplant measurable disease.
Disclosures: Richardson: Novartis:
Membership on an entity’s Board of Directors or advisory committees
; Millennium Takeda:
Membership on an entity’s Board of Directors or advisory committees
; Gentium S.p.A.:
Membership on an entity’s Board of Directors or advisory committees
,
Research Funding
; Jazz Pharmaceuticals:
Membership on an entity’s Board of Directors or advisory committees
,
Research Funding
; Celgene Corporation:
Membership on an entity’s Board of Directors or advisory committees
. Laubach: Novartis:
Research Funding
; Onyx:
Research Funding
; Celgene:
Research Funding
; Millennium:
Research Funding
. Anderson: Celgene:
Consultancy
; Millennium:
Consultancy
; BMS:
Consultancy
; Gilead:
Consultancy
; Oncopep:
Equity Ownership
; Acetylon:
Equity Ownership
. Rowe: BioSight Ltd.:
Consultancy
,
Membership on an entity’s Board of Directors or advisory committees
; Amgen:
Consultancy
; BioLineRx Ltd.:
Consultancy
. Kufe: Genus Oncology:
Consultancy
,
Equity Ownership
. Avigan: Regimmune:
Research Funding
.
*signifies non-member of ASH