Prostate cancer-associated fibroblasts (prostate CAFs) are essential components of the tumor microenvironment and can promote tumor progression through their immunosuppressive functions. MPSSS, a novel polysaccharide purified from Lentinus edodes, has been reported to have anti-tumor activity. MPSSS could also inhibit the immunosuppressive function of prostate CAFs, which has been demonstrated through that the secretome of MPSSS-treated prostate CAFs could inhibit the proliferation of T cells. However, how the secretome of MPSSS-treated prostate CAFs influence prostate cancer progression is still unclear. Interestingly, we found that the low molecular weight (3-100kD) secretome of prostate CAFs (lmwCAFS) could promote the growth of PC-3 cells, while that of MPSSS-treated prostate CAFs (MT-lmwCAFS) could inhibit their growth. We carried out comparative secretomic analysis of lmwCAFS and MT-lmwCAFS to identify functional molecules that inhibit the growth of PC-3 cells, and proteomic analysis of lmwCAFS-treated PC-3 cells and MT-lmwCAFS-treated PC-3 cells to investigate the underlying molecular mechanism. These analyses suggest that TGF-β3 from MT-lmwCAFS may inhibit the growth of PC-3 cells. The validated experiments revealed that TGF-β3 from MT-lmwCAFS activated p21 expression in PC-3 cells by regulating the FoxO pathway thereby inducing G0/G1 cell cycle arrest of PC-3 cells. Overall, our data demonstrated that MPSSS reversed the ability of prostate CAFs to suppress the cell viability of PC-3 cells, which might provide a potential therapeutic strategy to prevent prostate cancer progression.
Keywords: MPSSS; TGF-β3; cell cycle arrest; quantitative proteomics; the FoxO pathway.
© 2021 The Authors. Cancer Medicine published by John Wiley & Sons Ltd.