This research is being done to see if an investigational prostate cancer vaccine, called GVAX, can safely be given together with a single intravenous injection of a drug called cyclophosphamide to men that will undergo surgery to remove their cancerous prostate glands who have also received standard hormonal therapy.
Cancer immunotherapy refers broadly to approaches which attempt to treat cancer by activating immune responses directed against malignant tissue. Prostate GVAX is an allogeneic cell-based prostate cancer vaccine composed of two irradiated cell lines (PC3 and LNCaP) that have been genetically modified to secrete granulocyte-macrophage colony-stimulating factor (granulocytemacrophage-colony stimulating factor). The release of granulocytemacrophage-colony stimulating factor by these modified tumor cells serves to recruit dendritic cells which then present tumor antigens to T-cells, thus initiating antitumor immune responses. However, abundant preclinical data show that, when used alone, cell-based immunotherapy is unable to break specific T-cell tolerance in tumor-bearing hosts. Studies in an autochthonous prostate cancer mouse model have shown that giving low-dose cyclophosphamide prior to a cell-based granulocytemacrophage-colony stimulating factor-secreting vaccine abrogates immune tolerance through augmentation of CD8+ T cell infiltration in the prostate, transient depletion of regulatory T cells (Tregs), and increased expression of dendritic cell maturation markers. Enhancement of antitumor immunity has also been observed in other preclinical models where cyclophosphamide was given in sequence with granulocytemacrophage-colony stimulating factor-secreting immunotherapy for the treatment of breast and pancreatic cancers. These preclinical data are supported by early-phase clinical trials combining GVAX with low-dose cyclophosphamide in pancreatic and breast cancers. Furthermore, emerging evidence suggests that androgen deprivation therapy (ADT) itself has profound effects on the host immune system, resulting in thymic regeneration and enhancement of antitumor immunity. In addition, preclinical and clinical studies demonstrate that ADT augments prostate cancer-specific immune responses induced by immunotherapy, suggesting that ADT may act synergistically with immunotherapy. Based on data from mouse models as well as human clinical trials, it has been suggested that prostate cancer immunotherapy may be most effective when administered in the setting of an androgen-suppressed environment. Building on these findings, investigators have designed a study to assess the use of ADT given alone or administered following immunization with low-dose cyclophosphamide and prostate GVAX, in patients undergoing radical prostatectomy. Investigators aim (1) to determine whether ADT is immunogenic in men with localized prostate cancer by evaluating T-cell infiltration in harvested prostate glands; (2) to determine whether administering ADT after low-dose cyclophosphamide and prostate GVAX augments immune infiltration into the prostate gland; and (3) to investigate whether this combinatorial immuno-hormonal approach is safe and feasible. Investigators hypothesize that the combination of ADT and cyclophosphamide/GVAX will produce significantly greater antitumor immune responses than would ADT used alone.
Study Type
INTERVENTIONAL
Allocation
RANDOMIZED
Purpose
TREATMENT
Masking
NONE
Enrollment
29
Degarelix Acetate is a gonadotropin-releasing hormone (GnRH) receptor antagonist. It works by decreasing the amount of testosterone in the body,which the tumor needs to grow.
Cyclophosphamide as a potent enhancer of immune responses to GVAX. cyclophosphamide is used as an immune suppressor in many autoimmune disorders.
GVAX is granulocytemacrophage -colony stimulating factor -secreting allogeneic cell-based vaccine as immunotherapy for prostate cancer
The Sidney Kimmel Comprehensive Cancer Center at Johns Hopkins
Baltimore, Maryland, United States
Intraprostatic CD8+ T Cell Infiltration
CD8+ T cell infiltration (quantified as log\[CD8 density\]) into the prostate from harvested prostate glands in men with localized prostate cancer receiving neoadjuvant Androgen deprivation therapy alone (2 weeks prior to surgery), or cyclophosphamide and GVAX followed by Androgen deprivation therapy, (with cyclophosphamide/GVAX administered 4 weeks prior to prostatectomy, and Androgen deprivation therapy administered 2 weeks prior to prostatectomy).
Time frame: 2 years
Intraprostatic CD4+ T Cell and Treg Infiltration
Number of participants with CD4+ T cell and Treg infiltration into the prostate.
Time frame: 2 years
Quantification of Tissue Androgen Concentrations
Tissue androgen concentrations (testosterone, dihydrotestosterone), and androgen receptor (AR) protein expression in prostate specimens
Time frame: 2 years
Quantification of Markers of Apoptosis
Amount of apoptosis (activated caspase 3) and proliferation (Ki-67) in prostate tumor specimens
Time frame: 2 years
Pathological Complete Responses
Number of participants with pathological complete response (pCR)
Time frame: 2 years
Serum Antibodies to Prostate-associated Antigens
Number of participants with generation of novel antibodies to prostate-associated antigens in the serum of patients, after the initiation of protocol therapy
Time frame: 2 years
Prostate-specific Antigen Response Rate
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Number of participants with Prostate-specific antigen response
Time frame: 2 years
Percentage of Participants Without Prostate Specific Antigen Recurrence at 24 Months After Surgery
Percentage of participants in each arm who were free of prostate specific antigen recurrence (i.e. prostate specific antigen remained undetectable after prostatectomy) at 24 months after undergoing surgery.
Time frame: 2 years