Effects of combined treatment of chemotherapeutics and hyperthermia on survival and the regulation of heat shock proteins in dunning R3327 prostate carcinoma cells

Abstract: BACKGROUND. Hyperthermia can enhance the clinical response of chemotherapeutic agents in prostate cancer, but optimal sequencing of this combination therapy needs to be developed. Given the role of heat shock proteins (HSPs) in the development of resistance (thermotolerance) to subsequent hyperthermic stresses as well as to certain chemotherapeutics, the study of HSP regulation is important in the establishment of effective schedules in multimodal treatment strategies. METHODS. In this study we evaluated the e… Show more

“…Thermotolerant cells showed a better survival when incubated with chemotherapeutic agents. This enhanced survival was correlated with the accumulation of inducible HSP70 [22]. Our study confirms that the protective effect is HSPmediated, as blocking the synthesis of HSP 72, either nonspecifically by cycloheximide or specifically by means of antisense oligonucleotides, inhibits this resistance.…”

Heat‐shock proteins inhibit induction of prostate cancer cell apoptosis

“…Thermotolerant cells showed a better survival when incubated with chemotherapeutic agents. This enhanced survival was correlated with the accumulation of inducible HSP70 [22]. Our study confirms that the protective effect is HSPmediated, as blocking the synthesis of HSP 72, either nonspecifically by cycloheximide or specifically by means of antisense oligonucleotides, inhibits this resistance.…”

Heat‐shock proteins inhibit induction of prostate cancer cell apoptosis