Background: Previous study indicated that PS-341 induces cell death via JNK pathway in vitro in glioma. However, suppressing proteasome complex by PS-341 may induce expression of heat shock proteins (HSPs), which confer potential protection against cellular stress. In this study, we explored whether induction of HSPs could impair PS-341-induced cell death and whether inhibition of HSPs could enhance cell damage induced by PS-341 in glioma cells.
Methods: HSP expression in glioma cells was modulated by HSP inhibitor, sublethal heat, or knockdown of heat shock factor1 (HSF1), then PS-341-induced cell damage was examined by different methods. Similar experiments were also performed in HSF1+/+ and HSF1-/- cells. HSP70 expression and HSF1 nuclear localization were compared between glioma and normal brain tissues.
Results: HSP level was upregulated mediated by HSF1 when glioma cells were treated with PS-341. PS-341-mediated cell damage could be significantly augmented by HSP inhibition. Furthermore, HSP70 expression and HSF1 nuclear localization were much more abundant in gliomas than in normal brain tissues.
Conclusions: Our results demonstrated that HSP70 impaired cell death induced by PS-341 in glioma cells. Administration of PS-341 in combination with either HSP70 inhibitor or HSF1 knockdown may act as a new approach to treatment of glioma.