Mesenchymal stem cells modified to express lentivirus TNF‐α Tumstatin 45–132 inhibit the growth of prostate cancer

Mesenchymal stem cells (MSCs) are a potential novel delivery system for cell‐based gene therapies. Although tumour necrosis factor (TNF)‐α has been shown to have antitumour activity, its use in therapy is limited by its systemic toxicity. For the present study, we designed lentivirus‐mediated signal peptide TNF‐α‐Tumstatin 45–132 ‐expressing mesenchymal stem cells (SPTT‐MSCs) as a novel anti‐cancer approach. We evaluated the effects of this approach on human prostate cancer cells (PC3 and LNCaP) by co‐culturing them with either SPTT‐MSCs or supernatants from their culture medium in vitro . The antitumour effects and possible mechanisms of action of SPTT‐MSCs were then determined in PC3 cells in vivo . The results showed that efficient TNF‐α‐Tumstatin 45–132 ‐expressing MSCs had been established, and demonstrated that SPTT‐MSCs inhibited the proliferation of and induced apoptosis in prostate cancer cells and xenograft tumours. As would be expected, given the properties of the individual proteins, the TNF‐α‐Tumstatin 45–132 fusion exerted potent cytotoxic effects on human prostate cancer cells and tumours via the death receptor‐dependent apoptotic pathway and via antiangiogenic effects. Our findings suggest that SPTT‐MSCs have significant activity against prostate cancer cells, and that they may represent a promising new therapy for prostate cancer.