Qiang Zhang1, Brian T Helfand2, Benedito A Carneiro3, Weijun Qin4, Ximing J Yang5, Chung Lee6, Weipeng Zhang7, Francis J Giles3, Massimo Cristofanilli8, Timothy M Kuzel9. 1. Department of Medicine, Division of Hematology/Oncology, Northwestern University Feinberg School of Medicine, Chicago, IL, USA. Electronic address: q-zhang2@northwestern.edu. 2. Department of Surgery, Northshore University Heathsystem, Evanston, IL, USA. 3. Department of Medicine, Division of Hematology/Oncology, Northwestern University Feinberg School of Medicine, Chicago, IL, USA. 4. Department of Urology, The Forth Military Medical University, Xian, Shan Xi, China. 5. Department of Pathology, Northwestern University Feinberg School of Medicine, Chicago, IL, USA. 6. Department of Urology, Northwestern University Feinberg School of Medicine, Chicago, IL, USA. 7. McCormick School of Engineering, Northwestern University, Chicago, IL, USA. 8. Department of Medicine, Division of Hematology/Oncology, Northwestern University Feinberg School of Medicine, Chicago, IL, USA. Electronic address: Massimo.cristofanilli@nm.org. 9. Department of Medicine, Division of Hematology/Oncology and Cell Therapy, Rush University, Chicago, IL, USA.
Abstract
Current immunotherapy has limited efficacy on metastatic castrate-resistant prostate cancer (mCRPC). We therefore sought to improve the antitumor ability of mCRPC patient-derived CD8+ T-cells by the endowment of specificity to prostate-specific membrane antigen (PSMA) and insensitivity to immunosuppressant molecule transforming growth factor-β (TGF-ß) under the control of herpes simplex virus-1 thymidine kinase. CD8+ T-cells were collected by leukapheresis and cultured in a Food and Drug Administration-approved Cell Processing Work Station. We developed a chimeric antigen receptor retroviral construct using an anti-PSMA chimeric immunoglobulin-T-cell receptor(ζ) gene (PZ1) and dominant negative TGF-ß type II receptor (TßRIIDN), that could induce CD8+ T-cells to be PSMA reactive and insensitive to TGF-ß. Cr51 release assay was performed on PC-3 and PC-3-PSMA. The further antitumor functions of PSMA-specific, TGF-ß insensitive CD8+ T-cells was evaluated using an immunodeficient RAG-1-/- mouse model. We found PSMA-specific, TGF-ß insensitive CD8+ T-cells from mCRPC were expanded with strong expression of PZ1 and thymidine kinase genes, and their growth was not suppressed by TGF-ß. The survival of these cells decreased sharply after treatment with ganciclovir. Treatment of PSMA-specific TGF-ß, insensitive CD8+ T-cells was associated with 61.58% specific lysis on PC-3-PSMA, and significantly suppressed PC3-PSMA tumor compared with the PC3 tumor. A large amount of tumor apoptosis and CD8+ T-cell infiltration were found only in the PC3-PSMA tumor. This study verified that PSMA-specific, TGF-ß insensitive CD8+ T-cells derived from mCRPC patients could be successfully expanded and used to overcome the immunosuppressive effects of the tumor microenvironment to control PSMA-expressing PC in vitro and in vivo. This may provide a promising approach for men with mCRPC who fail androgen deprivation therapy. PATIENT SUMMARY: We investigated the role of a novel chimeric antigen receptor T-immunotherapy based on autologous metastatic castrate-resistant prostate cancer patient-derived prostate-specific membrane antigen (PSMA)-specific, transforming growth factor-ß insensitive CD8+ T-cells on PSMA-positive prostate cancer. We found that this chimeric antigen receptor T-cells could kill PSMA-positive prostate cancer specifically. The results suggest that this novel immunotherapy treatment is a potential new approach for men with metastatic castrate-resistant prostate cancer.
Current immunotherapy has limited efficacy on metastatic castrate-resistant prostate cancer (mCRPC). We therefore sought to improve the antitumor ability of mCRPC patient-derived CD8+ T-cells by the endowment of specificity to prostate-specific membrane antigen (PSMA) and insensitivity to immunosuppressant molecule transforming growth factor-β (TGF-ß) under the control of herpes simplex virus-1thymidine kinase. CD8+ T-cells were collected by leukapheresis and cultured in a Food and Drug Administration-approved Cell Processing Work Station. We developed a chimeric antigen receptor retroviral construct using an anti-PSMA chimeric immunoglobulin-T-cell receptor(ζ) gene (PZ1) and dominant negative TGF-ß type II receptor (TßRIIDN), that could induce CD8+ T-cells to be PSMA reactive and insensitive to TGF-ß. Cr51 release assay was performed on PC-3 and PC-3-PSMA. The further antitumor functions of PSMA-specific, TGF-ß insensitive CD8+ T-cells was evaluated using an immunodeficient RAG-1-/- mouse model. We found PSMA-specific, TGF-ß insensitive CD8+ T-cells from mCRPC were expanded with strong expression of PZ1 and thymidine kinase genes, and their growth was not suppressed by TGF-ß. The survival of these cells decreased sharply after treatment with ganciclovir. Treatment of PSMA-specific TGF-ß, insensitive CD8+ T-cells was associated with 61.58% specific lysis on PC-3-PSMA, and significantly suppressed PC3-PSMAtumor compared with the PC3tumor. A large amount of tumor apoptosis and CD8+ T-cell infiltration were found only in the PC3-PSMAtumor. This study verified that PSMA-specific, TGF-ß insensitive CD8+ T-cells derived from mCRPC patients could be successfully expanded and used to overcome the immunosuppressive effects of the tumor microenvironment to control PSMA-expressing PC in vitro and in vivo. This may provide a promising approach for men with mCRPC who fail androgen deprivation therapy. PATIENT SUMMARY: We investigated the role of a novel chimeric antigen receptor T-immunotherapy based on autologous metastatic castrate-resistant prostate cancerpatient-derived prostate-specific membrane antigen (PSMA)-specific, transforming growth factor-ß insensitive CD8+ T-cells on PSMA-positive prostate cancer. We found that this chimeric antigen receptor T-cells could kill PSMA-positive prostate cancer specifically. The results suggest that this novel immunotherapy treatment is a potential new approach for men with metastatic castrate-resistant prostate cancer.
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