Adam R. Stankiewicz scite author profile

Hsp70 overexpression can protect cells from stress-induced apoptosis. Our previous observation that Hsp70 inhibits cytochrome c release in heat-stressed cells led us to examine events occurring upstream of mitochondrial disruption. In this study we examined the effects of heat shock on the proapoptotic Bcl-2 family member Bax because of its central role in regulating cytochrome c release in stressed cells. We found that heat shock caused a conformational change in Bax that leads to its translocation to mitochondria, stable membrane association, and oligomerization. All of these events were inhibited in cells that had elevated levels of Hsp70. Hsp70 did not physically interact with Bax in control or heat-shocked cells, indicating that Hsp70 acts to suppress signals leading to Bax activation. Hsp70 inhibited stress-induced JNK activation and inhibition of JNK with SP600125 or by expression of a dominant negative mutant of JNK-blocked Bax translocation as effectively as Hsp70 overexpression. Hsp70 did not protect cells expressing a mutant form of Bax that has constitutive membrane insertion capability or cells treated with a small molecule activator of apoptosome formation, indicating that it is unable to prevent cell death after mitochondrial disruption and caspase activation have occurred. These results indicate that Hsp70 blocks heat-induced apoptosis primarily by inhibiting Bax activation and thereby preventing the release of proapoptotic factors from mitochondria. Hsp70, therefore, inhibits events leading up to mitochondrial membrane permeabilization in heat-stressed cells and thereby controls the decision to die but does not interfere with cell death after this event has occurred.

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Regulation of heat-induced apoptosis by Mcl-1 degradation and its inhibition by Hsp70

Stankiewicz

Livingstone

Mohseni

et al. 2009

Cell Death Differ

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Cellular stress eliminates irreversibly damaged cells by initiating the intrinsic death pathway. Cell stress is sensed by pro-and antiapoptotic members of the Bcl-2 protein family, which regulate the release of apoptogenic factors, such as cytochrome c, from mitochondria. Exposure of cells to hyperthermia results in the activation of the proapoptotic Bcl-2 family protein Bax, which plays an essential role in cytochrome c release. Heat directly affects Bax activity in vitro; however, antiapoptotic Bcl-2 family proteins, such as Bcl-xL, can suppress this activation, suggesting that a second heat-sensitive step must be breached before apoptosis ensues in cells exposed to hyperthermia. Here we show that heat shock causes the loss of

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Acute acidification or amiloride treatment suppresses the ability of Hsp70 to inhibit heat-induced apoptosis

et al. 2007

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Inhibition of stress-induced apoptosis by the molecular chaperone protein Hsp70 is a contributing factor in tumorigenesis and suppression of this ability could increase the effectiveness of anti-tumor therapy. Tumor cells exist in an acidic environment and acute acidification can sensitize tumor cells to heat-induced cell death. However, the ability of Hsp70 to prevent apoptosis under these conditions has not been examined. The effect of acute acidification on heat-induced apoptosis was examined in a human T-cell line with tetracycline-regulated Hsp70 expression. Apoptosis was inhibited in cells exposed to hyperthermia in acidic media when examined 6 h after the heat stress, but resumed if cells were returned to physiological pH during this recovery period. Long-term proliferation assays showed that acute acidification sensitized cells to heat-induced apoptosis. Hsp70 expressing cells were also sensitized and this was correlated with a reduced ability to suppress the activation of JNK (c-jun N-terminal kinase), Bax and caspase-3. Further sensitization could be achieved with the NHE1 (Na(+)/H(+) exchanger) inhibitor HMA (5-(N, N-hexamethylene) amiloride), which potentiated JNK activation in heat-shocked cells. These results demonstrate that the ability of Hsp70 to suppress apoptosis is compromised when cells are exposed to hyperthermia in an acidic environment, which is correlated with an impaired ability to inhibit JNK activation.

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