Randomized trial of autologous cellular immunotherapy with sipuleucel-T in androgen-dependent prostate cancer

Trial Watch: Adoptive cell transfer immunotherapy

During the last two decades, several approaches for the activation of the immune system against cancer have been developed. These include rather unselective maneuvers such as the systemic administration of immunostimulatory agents (e.g., interleukin-2) as well as targeted interventions, encompassing highly specific monoclonal antibodies, vaccines and cell-based therapies. Among the latter, adoptive cell transfer (ACT) involves the selection of autologous lymphocytes with antitumor activity, their expansion/activation ex vivo, and their reinfusion into the patient, often in the context of lymphodepleting regimens (to minimize endogenous immunosuppression). Such autologous cells can be isolated from tumor-infiltrating lymphocytes or generated by manipulating circulating lymphocytes for the expression of tumor-specific T-cell receptors. In addition, autologous lymphocytes can be genetically engineered to prolong their in vivo persistence, to boost antitumor responses and/or to minimize side effects. ACT has recently been shown to be associated with a consistent rate of durable regressions in melanoma and renal cell carcinoma patients and holds great promises in several other oncological settings. In this Trial Watch, we will briefly review the scientific rationale behind ACT and discuss the progress of recent clinical trials evaluating the safety and effectiveness of adoptive cell transfer as an anticancer therapy.

Immune response to sipuleucel-T in prostate cancer

Historically, chemotherapy has remained the most commonly utilized therapy in patients with metastatic cancers. In prostate cancer, chemotherapy has been reserved for patients whose metastatic disease becomes resistant to first line castration or androgen deprivation. While chemotherapy palliates, decreases serum prostate specific antigen and improves survival, it is associated with significant side effects and is only suitable for approximately 60% of patients with castrate-resistant prostate cancer. On that basis, exploration of other therapeutic options such as active secondary hormone therapy, bone targeted treatments and immunotherapy are important. Until recently, immunotherapy has had no role in the treatment of solid malignancies aside from renal cancer and melanoma. The FDA-approved autologous cellular immunotherapy sipuleucel-T has demonstrated efficacy in improving overall survival in patients with metastatic castrate-resistant prostate cancer in randomized clinical trials. The proposed mechanism of action is reliant on activating the patients' own antigen presenting cells (APCs) to prostatic acid phosphatase (PAP) fused with granulocyte-macrophage colony stimulating factor (GM-CSF) and subsequent triggered T-cell response to PAP on the surface of prostate cancer cells in the patients body. Despite significant prolongation of survival in Phase III trials, the challenge to health care providers remains the dissociation between objective changes in serum PSA or on imaging studies after sipleucel-T and survival benefit. On that basis there is an unmet need for markers of outcome and a quest to identify immunologic or clinical surrogates to fill this role. This review focuses on the impact of sipuleucel-T on the immune system, the T and B cells, and their responses to relevant antigens and prostate cancer. Other therapeutic modalities such as chemotherapy, corticosteroids and GM-CSF and host factors can also affect immune response. The optimal timing for immunotherapy, patient selection and best sequencing with other prostate cancer therapies remain to be determined. A better understanding of immune response may help address these issues.

The immune contexture in human tumours: impact on clinical outcome

Tumours grow within an intricate network of epithelial cells, vascular and lymphatic vessels, cytokines and chemokines, and infiltrating immune cells. Different types of infiltrating immune cells have different effects on tumour progression, which can vary according to cancer type. In this Opinion article we discuss how the context-specific nature of infiltrating immune cells can affect the prognosis of patients.

Development of novel immune interventions for prostate cancer

Prostate cancer is the leading cause of cancer-related morbidity and mortality in men in the Western world. Use of traditional and newer therapeutic regimens is constrained in terms of tolerance, efficacy, and cross-resistance. There is a need for newer therapies without overlapping mechanisms of action and toxicities to improve the outcome. Advances in the field of immunology and cancer biology have led to an improved understanding of the interactions between the immune system and tumors, propelling the field of cancer vaccines to the forefront of clinical investigation. Recent US Food and Drug Administration approval of sipuleucel-T, an autologous dendritic cell-based vaccine for the treatment of castration refractory prostate cancer, represents a significant advancement in the field of cancer vaccines. However, the overall survival benefits with sipuleucel-T are modest at best, and the field of cancer vaccine therapy is in a continuous state of evolution and expansion. Further improvements are expected to result from the selection of more appropriate tumor antigens, which circumvent immune tolerance, and from the development of more effective immunization strategies aimed at inducing an effective cytotoxic T-cell response. This review summarizes recent developments in the field of immunotherapy in prostate cancer with a focus on dendritic cell vaccines, virus-based vaccines, DNA-based vaccines, cell-based vaccines, peptide-based vaccine and therapies blocking immune checkpoints to break peripheral immune tolerance.

Blood cells and their use in active immunotherapy of prostate cancer

Immune therapy has traditionally had a limited role in the treatment of solid malignancies, outside of renal cancer and melanoma. However, early evidence of the ability to provoke an effective anti-tumor immune response in prostate cancer has led to interest in developing a variety of immune activating strategies in this disease. The first immune therapy to attain success in prolonging survival for metastatic prostate cancer patients is Sipuleucel-T. Rather than utilizing a typical vaccine approach in which antigens and immune activators are injected into the cancer host, sipuleucel-T was developed to stimulate autologous dendritic cells ex vivo, in order to evade the immune suppressive environment created by the cancer. We review the components of the immune system which may be harnessed in the development of immunotherapy in the setting of the recent success with sipuleucel-T.

The role of sipuleucel-T in therapy for castration-resistant prostate cancer: a critical analysis of the literature

CONTEXT

Sipuleucel-T, an autologous antigen-presenting cell vaccine loaded with prostate acid phosphatase conjugated with granulocyte-macrophage colony-stimulating factor (GM-CSF), yielded a survival advantage in men with metastatic castration-resistant prostate cancer (mCRPC).

OBJECTIVE

Critically analyze the role of sipuleucel-T in therapy for mCRPC.

EVIDENCE ACQUISITION

A systematic review of the literature was performed in June 2011 using Medline and an abstract search of major cancer conferences. The search strategy included the terms sipuleucel-T, APC-8015, castration-resistant, prostate cancer, and immunotherapy.

EVIDENCE SYNTHESIS

The era of targeted immunotherapy was initiated with the regulatory approval in 2010 of sipuleucel-T for asymptomatic and minimally symptomatic mCRPC. The median survival was prolonged by 4.1 mo (25.8 vs 21.7 mo; hazard ratio: 0.78; 95% confidence interval, 0.61-0.98; p=0.03), coupled with an improvement in 3-yr survival (31.7% vs 23.0%). Outcomes were characterized by the lack of tumor regression or delay in progression. Further development is proceeding in earlier stages of prostate cancer and in the context of a host of emerging agents.

CONCLUSIONS

The addition of sipuleucel-T, an immunotherapeutic agent, to the armamentarium represents a paradigm shift in therapy for mCRPC. The rational combination and proper sequencing of sipuleucel-T with other newly approved agents (abiraterone acetate, cabazitaxel) and emerging agents (MDV3100, TAK-700, ipilimumab) will be important to evaluate.

Immunotherapy in prostate cancer: emerging strategies against a formidable foe

Recent clinical trials have shown therapeutic vaccines to be promising treatment modalities against prostate cancer. Unlike preventive vaccines that teach the immune system to fight off specific microorganisms, therapeutic vaccines stimulate the immune system to recognize and attack certain cancer-associated proteins. Additional strategies are being investigated that combine vaccines and standard therapeutics, including radiation, chemotherapy, targeted therapies, and hormonal therapy, to optimize the vaccines' effects. Recent vaccine late-phase clinical trials have reported evidence of clinical benefit while maintaining excellent quality of life. One such vaccine, sipuleucel-T, was recently FDA-approved for the treatment of metastatic prostate cancer. Another vaccine, PSA-TRICOM, is also showing promise in completed and ongoing randomized multicenter clinical trials in both early- and late-stage prostate cancer. Clinical results available to date indicate that immune-based therapies could play a significant role in the treatment of prostate and other malignancies.