Discovery of a potential biomarker for immunotherapy of melanoma: PLAC1 as an emerging target.

BACKGROUND: Melanoma has increased in incidence worldwide prompting investigators to search for new biomarkers for targeted immunotherapy of this disease. Placenta specific 1 (PLAC1) is a new member of cancer-testis antigens with widespread expression in many types of cancer. Here, we aimed to study for the first time the expression pattern of PLAC1 in skin cancer samples including cutaneous melanoma, basal cell carcinoma (BCC), squamous cell carcinoma (SCC) in comparison to normal skin and nevus tissues and potential therapeutic effect of anti-PLAC1 antibody in melanoma cancer cell lines in vitro. MATERIALS AND METHODS: Polyclonal and monoclonal antibodies were applied for immunohistochemical profiling of PLAC1 expression using tissue microarray. The cytotoxic action of anti-PLAC1 antibody alone or as an antibody drug conjugate (with anti-neoplastic agent SN38) was investigated in melanoma cell lines. RESULTS: We observed that 100% (39 of 39) of melanoma tissues highly expressed PLAC1 with both cytoplasmic and surface expression pattern. Investigation of PLAC1 expression in BCC (n = 110) samples showed negative results. Cancer cells in SCC samples (n = 66) showed very weak staining. Normal skin tissues and nevus samples including congenital melanocytic nevus failed to express PLAC1. Anti-PLAC1-SN38 exerted a specific pattern of cytotoxicity in a dose- and time-dependent manner in melanoma cells expressing surface PLAC1. CONCLUSIONS: Our findings re-inforce the concept of re-expression of embryonic/placental tissue antigens in cancer and highlight the possibility of melanoma targeted therapy by employing anti-PLAC1 antibodies. The data presented here should lead to the future research on targeted immunotherapy of patients with melanoma.

Immunization with placenta-specific 1 (plac1) induces potent anti-tumor responses and prolongs survival in a mouse model of melanoma.

PURPOSE: Melanoma is a malignant and metastatic form of skin cancer, which is not diagnosed in early stages of the disease. Nowadays, immunotherapy is changing the treatment landscape for metastatic melanoma. Placenta-specific1 (PLAC1) is a cancer-testis-placenta (CTP) antigen with differential expression in melanoma tissues. Here, we evaluated the potential of plac1 to induce anti-cancer immune responses as well as to prevent cancer development in a mouse model of melanoma. METHODS: Two proteins containing full extracellular domain (ED) of mouse plac1+KDEL3 and full ED of mouse plac1+ tetanus toxin P2 and P30+ pan DR epitope (PADRE) â€‹+ â€‹KDEL3 were produced and injected in mice to evaluate their capacity to induce anti-cancer immune responses as well as their potential to prevent melanoma development. Induction of plac1-specific humoral and cellular responses as well as tumor-associated parameters were tested in a series of 36 mice. RESULTS: Sera of mice immunized with ED â€‹+ â€‹P2P30+PADRE â€‹+ â€‹KDEL3 contained antibodies able to react with surface plac1 in B16F10 â€‹cells. Both proteins induced proliferative cellular immune responses against B16F10 â€‹cells and plac1-specific cytotoxic T cells (CTL) and CD107a â€‹+ â€‹CTL responses, which was higher in mice immunized with ED â€‹+ â€‹P2P30+PADRE â€‹+ â€‹KDEL3. Splenocytes of mice vaccinated with ED â€‹+ â€‹P2P30+PADRE â€‹+ â€‹KDEL3 exerted a significant cytotoxicity against B16F10 â€‹cells. Vaccination with ED â€‹+ â€‹P2P30+PADRE â€‹+ â€‹KDEL3 significantly delayed B16F10-induced tumor onset, reduced tumor growth, and increased survival. Tumors induced by B16F10 expressed plac1 in vivo. CONCLUSION: Our results pave the way for development of effective melanoma preventive vaccine in humans, although further studies are needed.

Optimization of Expression and Purification of Recombinant Mouse plac1.

Background: Placenta-specific 1 (PLAC1) is one of the recently-discovered Cancer-Testis-Placenta (CTP) antigen with restricted normal tissue and ectopic expression in a wide range of cancer cells from different histological origins. The production of recombinant human PLAC1 has already been optimized; however, no study has been reported so far on the production and purification of mouse plac1. In this study, mouse plac1 expression and purification was optimized in a prokaryotic system and the effects of the generated proteins on inducing humoral responses in mice were investigated. Methods: A fusion protein containing full extracellular domain of mouse plac1, immunostimulatory peptides, tetanus toxin P2P30 and PADRE and KDEL3 signal (main plac1), and the same fragment without immunostimulatory peptides (control plac1) was produced. To optimize production and purification steps, different parameters including bacterial strain, cultivation temperature, cultivation time, IPTG concentration, culture medium, and also different buffers for purification of the recombinant proteins were tested. After confirming the identity of recombinant plac1 proteins with Western Blotting (WB) and ELISA assays, these proteins were subcutaneously injected in mice with Freund's adjuvant and the anti-plac1 antibody response was detected by ELISA. Results: The optimal expression level of main and control plac1 was obtained in BL21 (DE3) and TB culture medium in the presence of 0.25 mM IPTG after 24 hr of induction at 15°C. The buffer containing 2% sarkosyl produced higher yield and purity. Our results showed specific reactivity of anti-human recombinant plac1 polyclonal antibody with both main and control plac1 recombinant proteins in WB and ELISA analysis. Both proteins induced humoral responses in mice; however, anti-plac1 antibody titer was significantly higher in sera of mice immunized with main compared to control plac1. Conclusion: In this study, an optimized protocol for production and purification of mouse plac1 was reported and it was shown that insertion of immunostimulatory peptides in gene construct could efficiently enhance humoral immune responses against mouse plac1, which could potentially augment cellular immune responses against plac1 leading to more effective anti-cancer responses.