Modulation of prostaglandin A1-induced thermotolerance by quercetin in human leukemic cells: role of heat shock protein 70.

Prostaglandins of the A type (PGAs) function as signals for heat shock protein (hsp) synthesis in mammalian cells. In human K562 erythroleukemic cells, PGA1 induces the synthesis of a M(r) 70,000 hsp (hsp70) by cycloheximide-sensitive activation of heat shock transcription factor (HSF). Induction of hsp70 has been associated recently with the ability of PGA to protect K562 cells from thermal injury, establishing a thermotolerant state; however, the role of hsp70 in thermotolerance is still controversial. Because quercetin was shown to modulate hsp70 expression after heat shock in K562 cells, we have investigated the effect of this flavonoid on HSF activation, hsp70 synthesis, and thermotolerance in human K562 cells after induction with PGA1. Quercetin was found to inhibit hsp70 synthesis for a period of 3-6 h after PGA1 treatment. This transient block was exerted at the transcriptional level and was not due to the loss of HSF DNA-binding activity. After the initial delay, hsp70 synthesis reached the same rate as the PGA1-treated control, and it was actually prolonged in the presence of quercetin. In PGA1-treated cells, quercetin suppressed PGA1-induced thermotolerance completely if the heat shock was applied at a time (6 h) when hsp70 synthesis was inhibited, whereas it could not prevent the establishment of a thermotolerant state if the heat challenge was applied 24 h after treatment, when hsp70 synthesis was not affected. These results support strongly the hypothesis that hsp70 is involved in the establishment of thermotolerance in human cells.