The ability of allogeneic lymphocytes to target and eradicate leukemia cells has been established as a true biological entity over the past 20 years. Whether such effects can be generated against non-hematological """"""""solid"""""""" malignancies remains unexplored. We initiated a clinical trail using a non-myeloablative approach of allogeneic stem cell transplantation in patients with treatment refractory metastatic renal cell carcinoma (RCC). Definitive evidence for an allogeneic graft-versus-RCC effect has been demonstrated with complete regression of large metastasis observed in some patients. We have subsequently conducted studies investigating immune reconstitution in those demonstrating an anti-RCC effect in attempts to identify both the effector cell populations mediating these regressions as well as their target antigens. Our laboratory has confirmed the expression of minor histocompatibility antigens on the surface of kidney cancer cells. We demonstrated that cytotoxic T-cell clones with specificity for minor antigens are capable of killing RCC cells in patients having a GVT effect post transplant. We also were able to expand T-cell clones in two responding patients that recognized either tumor cells specifically or broadly expressed antigens present on both patient hematopoietic cells and RCC cells. These observations provide the first insight into the immune mechanisms mediating the regression of metastatic cancer following non-myeloablative allogeneic transplantation. Using c-DNA expression cloning, we have recently identified a novel tumor antigen derived from a human endogenous retrovirus over-expressed in RCC cells called HERV-E CT-RCC. This antigen is not expressed on normal tissues and therefore could potentially serve as a target for a future kidney cancer vaccine. We have also have preliminary lab evidence the VHL gene may regulate expression of this newly identified tumor antigen. ? ? Recently we have developed a murine model of allogeneic SCT in hosts bearing metastatic RCC, in which reproducible GVT effects occur, extending animal survival compared to recipients of autologous transplants. Post transplant tumor vaccination studies are being conducted in this model, as well as investigations into the impact of inhibiting angiogenesis in the first few months of transplantation using VEGFR tyrosine kinase inhibitors. Our group has recently shown that KIR incompatible NK cells are cytotoxic to solid tumor cells in vitro. Using the above mentioned animal model, we have shown that a single infusion of alloreactive NK cells can significantly reduce GVHD and prolong survival in mice with RCC undergoing allogeneic HCT. Based on these findings, we plan to evaluate whether GVT effects against RCC can be enhanced after allogeneic HCT by adoptively infusing escalating doses of donor NK cells.? ? We are also exploring methods to sensitize solid tumors to NK cell attack by altering the phenotype of tumor cells through targeted gene induction. Recently we showed that bortezomib and depsipeptide sensitize tumors to NK cell cytotoxity by enhancing NK-cell mediated TRAIL killing. This sensitization appears to overcome NK inhibition that is mediated through KIR-KIR ligand interactions. We have also developed a method to expand by > 4 logs NK cells from healthy donors for adoptive infusion in future NK-cell based adoptive immunotherapy trials. Based on these findings, we were awarded a bench to bedside award in 2006 to scale up our NK cell expansions to test whether bortezomib could be used to sensitize patient's tumors to adoptive autologous NK cell infusions. We now have developed a method to expand human NK cells by 100 to 1000 fold in bags using GMP conditions. A phase I study entitled Safety and the anti- tumor effects of escalating doses of adoptively infused ex vivo expanded autologous natural killer cells against metastatic cancers or hematological malignancies sensitized to NK TRAIL cytotoxicity with Bortezomib has just been initiated this year. A trial evaluating adoptively infused donor NK cells following bortezomib treatment in patients with hematological diseases that have relapsed after allogeneic HCT is under design and will hopefully be submitted to the IRB within the next 12 months. ? ? Our group continues to explore the use of allogeneic SCT in patients with nonmalignant diseases such as PNH or ATGF-Refractory severe aplastic anemia. We have also recently shown that PNH can be cured following nonmyeloablative stem cell transplantation. In vitro studies conducted in our laboratory have shown PNH cells are equally sensitive to allogeneic immune attack as normal GPI-positive immune cells. At present, 50 patients with SAA/PNH have been transplanted with a day 100 TRM of 0% and with a sustained donor engraftment rate of 100%. ? Finally, the inability to find a suitable HLA matched donor limits the application of allogeneic transplantation to only a minority of patients with severe aplastic anemia or RA MDS. For such patients, transplantation using unrelated cord blood (UCB) has been shown to be a reasonable alternative transplant strategy. The major disadvantage of UCB transplantation in adults is the limited number of nucleated cells contained within the cord unit resulting in prolonged neutropenia and failure of engraftment which contributes to infection and TRM. In order to harness the advantage of UCB availability and to overcome the disadvantage of delayed neutrophil recovery, we have recently initiated a clinical trial that evaluates whether co-administration of unrelated umbilical cord blood and a relatively low number of highly purified haploidentical peripheral blood CD34+ cells from a related donor could be used as a method to promote rapid neutrophil recovery. This research protocol is designed to evaluate the safety and effectiveness of co-infusion of unrelated umbilical cord blood and haploidentical CD34+ cells from a related donor following nonmyeloablative conditioning for neutropenic patients with SAA or MDS (RA) that has proven to be refractory to immunosuppressive therapy. Subjects will receive a novel non-myeloablative immunosuppressive conditioning regimen of cyclophosphamide, fludarabine, horse ATG and one dose of total body irradiation (200cGy) followed by an infusion of the allografts. The haploidentical stem cell product will be T-cell depleted and enriched for CD34+ cells using the Miltenyi CliniMacs system. To reduce TRM secondary to prolonged neutropenia associated with conventional UCB transplantation, haploidentical CD34+ stem cells will be co-infused with a single UCB unit (serologically matched at d 4/6 HLA loci). The primary endpoint will be cord engraftment (persistent cord derived ANC > 500 cells/ul) by day 42. If successful, this strategy could be used to substantially shorten the prolonged period of neutropenia associated with conventional cord blood transplantation, which potentially could result in a reduction in transplant related morbidity and mortality associated with infection.

Agency
National Institute of Health (NIH)
Institute
National Heart, Lung, and Blood Institute (NHLBI)
Type
Intramural Research (Z01)
Project #
1Z01HL002345-08
Application #
7734975
Study Section
Project Start
Project End
Budget Start
Budget End
Support Year
8
Fiscal Year
2008
Total Cost
$3,075,283
Indirect Cost
Name
National Heart, Lung, and Blood Institute
Department
Type
DUNS #
City
State
Country
United States
Zip Code
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