Abstract
Small stress proteins protect against the cytotoxicity mediated by oxidative stress. The relationship between Hsp25 expression and the integrity of the actin network was studied in H2O2-treated murine L929 fibrosarcoma cells overexpressing endogenous wild-type (wt-) or non-phosphorylatable mutant (mt-) Hsp25. We show here that both proteins prevented actin network disruption induced by a 1 h treatment with 400 μM H2O2. In contrast, SB203580, a p38 MAPkinase inhibitor which suppresses Hsp25 phosphorylation, abolished the protective activity conferred by both wt- and mt-Hsp25. Hence, phosphorylation does not appear essential for Hsp25 protective activity against H2O2-induced actin disruption, and SB203580-sensitive events other than Hsp25 phosphorylation may be important for actin network regulation. Since, in L929 cells, wt- or mt-Hsp25 expression modulates intracellular glutathione levels, analyses were performed which revealed a direct correlation between glutathione and the integrity of the actin network. Moreover, laser scanning confocal immunofluorescences revealed that only a small fraction of wt- or mt-Hsp25 colocalized with actin microfilaments. Taken together, our results suggest that, in L929 cells, the protection against actin network disruption is probably a consequence of the redox change mediated by Hsp25 rather than a direct effect of this stress protein towards actin.
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