Autologous Whole Tumor Cell Vaccination Early After Allogeneic Stem Cell Transplantation Elicits Anti-Tumor T Cell Responses in Patients with Advanced Chronic Lymphocytic Leukemia (CLL)

Abstract 1892

Patients with advanced hematological malignancies remain at high risk for eventual disease progression following reduced intensity conditioning (RIC) allogeneic hematopoietic stem cell transplantation (allo-HSCT). We hypothesized that vaccination with whole leukemia cells during the critical period of immune reconstitution early after transplant may enhance antitumor immunity and facilitate expansion of leukemia-reactive T cell responses. We tested this hypothesis in a prospective clinical trial, in which patients with advanced chronic lymphocytic leukemia (CLL) received up to 6 vaccine doses initiated between day 30–45 following RIC allo-HSCT. Each vaccine consisted of 1×10⁷ irradiated autologous tumor cells admixed with 1×10⁷ irradiated K562 bystander cells secreting GM-CSF (GM-K562). All patients received tacrolimus and mini-methotrexate as graft-versus-disease (GvHD) prophylaxis. Tacrolimus was maintained at therapeutic levels during the vaccination period without taper.

Twenty-two patients were enrolled, all with advanced disease (median number of prior therapies 3; range 2–11). Many of the leukemias expressed markers associated with aggressive disease (e.g. unmutated IgVH - 68%) and displayed high-risk cytogenetic abnormalities (sole del(11q) - 41%; sole del(17p) - 23%; del(11q and 17p) - 18%). Greater than 50% (n=13) of patients had persistent marrow involvement (≥10%) at time of allo-HSCT. Eighteen of 22 subjects were vaccinated after allo-HSCT and received a median of 6 (range 1–6) vaccines. The remaining 4 patients were precluded from vaccination due to development of acute GvHD before day 45. Vaccines were generally well tolerated, but mild, transient injection site erythema was common. Only one grade 4 event (neutropenia) with a possible attribution to treatment occurred. We observed a similar incidence of grade II-IV aGvHD at 1 year in the 18 vaccinated patients (39%; 95% CI: 17–61%) and 42 control CLL patients that underwent RIC allo-HSCT at our institution from 2004–2009 (31%; 95%CI: 18–46%). At a median follow-up of 2.9 (range 1–4) years, the estimated 2-year rates of progression-free survival and overall survival of vaccinated study participants were 80% (95% CI: 54–92%) and 84% (95% CI: 58–95%).

With these promising clinical results, we next focused on gaining insight into the mechanism that generated the observed clinical graft-versus-leukemia (GvL) responses. To delineate the specific contribution of vaccination to the overall GvL effect, we performed T cell assays to detect CLL-specific reactivity in serial pre- and post-HSCT samples obtained from vaccinated patients (n=9) who received median of 6 vaccines (range 3–6). In comparison, we examined T cell responses in study subjects (n=4) that developed aGvHD at a median of 44.5 days (range 26–56) after HSCT; and control CLL patients (n=4; no vaccine, no GvHD in the early post-transplant period) that were not enrolled in the study. Although early post-transplant vaccination had no impact on recovering absolute T cell numbers, reactivity of CD8+ T cells from the vaccinated patients was consistently directed against autologous tumor cells but not alloantigen bearing-recipient cells (PHA T cell blasts and fibroblasts) in IFNγ ELISpot assays. A peak response against autologous tumor cells was reached at day 60 after allo-HSCT (average 221 SFC/5×10⁵ cells vs. 29 and 33 average SFC/5×10⁵cells for PHA blasts and fibroblasts, respectively). CD8+ T cell clones were isolated from 4 vaccinated study subjects by limiting dilution and 17% (range 13–33%) reacted solely against CLL-associated antigens. In contrast, broad CD8+ T cell reactivity indicating an alloantigen response was observed in GvHD patients, while no increase in T cell reactivity against tumor-associated or alloantigens was seen in control patients. Tumor-reactive CD8+ T cells isolated from vaccinated patients secreted a broad profile of effector cytokines (GM-CSF, TNFα and IP10). Moreover, the amount of cytokines secreted by these CLL-specific CD8+ T cells steadily increased following early post-transplant vaccination, but not after allo-HSCT alone or in relation to GvHD.

Our studies reveal that vaccination with autologous whole CLL/GM-K562 cells between days 30–100 after allo-HSCT is associated with induction of immunity against recipient CLL cells, and suggest that this is an effective strategy for promoting GvL following RIC allo-HSCT.