Abstract
BackgroundDespite several reports describing the HSP70-mediated cytoprotection against IL-1, the precise mechanism for this phenomenon remains to be determined.Methods/Principal FindingsHere we used HeLa cells, a human epithelial carcinoma cell line, to evaluate the role of inducible HSP70 in response of IL-1β stimulation. We found that inducible HSP70 antagonized the cytotoxicity of IL-1β and improved the survival of HeLa cells. Further investigation demonstrated that increased expression level of inducible HSP70 reduced the complex of TAK1 and HSP90, and promoted the degradation of TAK1 protein via proteasome pathway. By overexpression and RNAi knockdown, we showed that inducible HSP70 modulated the NF-kB but not MAPKs signalings through influencing the stability of TAK1 protein in HeLa cells. Moreover, overexpression of HSP70 attenuated the production of iNOS upon IL-1β stimulation, validating that inducible HSP70 serves as a cytopretective factor to antagonize the cytocidal effects of IL-1β in HeLa cells.Conclusions/SignificanceOur observations provide evidence for a novel signaling mechanism involving HSP70, TAK1, and NF-κB in the response of IL-1β cytocidal effects. This research also provides insight into mechanisms by which HSP70 exerts its cytoprotective action upon toxic stimuli in tumor cells.
Highlights
Interleukin-1 (IL-1) family is a pleiotropic cytokine produced mainly by activated monocytes/macrophages, and expressed in a variety of other immune and non-immune cells
Only less than 15% of cell death was observed in group transiently overexpressed with HSP70 exposed to both IL-1b and CHX, demonstrating that inducible HSP70 protects HeLa cells from IL-1b cytotoxicity
Unlike constitutively expressed heat shock cognate 70 (HSC70), inducible HSP70 is present at relative low level in untransformed cells, but is frequently observed at high level in tumor cells, in which HSP70 serves as a protective factor conferring resistance to stress-induced apoptosis [34] and suppression of default senescence pathway [35], and is associated with metastasis development and drug resistance [36]
Summary
Interleukin-1 (IL-1) family is a pleiotropic cytokine produced mainly by activated monocytes/macrophages, and expressed in a variety of other immune and non-immune cells. It has been demonstrated that IL-1 exerts a wide range of activities, including the regulation of growth, differentiation and many metabolic processes in a variety of cell types [3,4]. The role and mechanism of IL-1 in mediating inflammation have been extensively studied. IL-1a or IL-1b binds first to the ligandbinding chain, termed the type I IL-1 receptor (IL-1RI). This is followed by recruitment of the coreceptor chain, termed the receptor accessory protein (IL-1RAcP). Despite several reports describing the HSP70-mediated cytoprotection against IL-1, the precise mechanism for this phenomenon remains to be determined
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