Heat Shock and Proinflammatory Stressors Induce Differential Localization of Heat Shock Proteins in Human Monocytes

被引:0
作者
Ewa Mariéthoz
Muriel R. Jacquier-Sarlin
Gabriele Multhoff
Aileen M. Healy
Fabienne Tacchini-Cottier
Barbara S. Polla
机构
[1] Université Paris V,Laboratoire de Physiologie Respiratoire, UFR Cochin Port
[2] University Hospital,Royal
[3] Institute of Clinical Hematology,Environmental and Health Program
[4] CMU,GSF Research Center for Environment and Health
[5] Boston University,Department of Pathology
[6] School of Medicine,Pulmonary Center
来源
Inflammation | 1997年 / 21卷
关键词
Reactive Oxygen Species; Heat Shock; Heat Shock Protein; Immunofluorescent Staining; Nuclear Translocation;
D O I
暂无
中图分类号
学科分类号
摘要
Heat shock (HS) proteins (HSP) are a family of molecular chaperones induced by environmental stresses such as oxidative injury, and contribute to protection from and adaptation to cellular stress. We investigated in human monocytes the expression and subcellular distribution of hsp70 and hsc70 after HS and inflammation-related stresses leading to generation of reactive oxygen species by these cells, such as the phorbol ester PMA and erythrophagocytosis (Eø). By combining immunofluorescent staining and Western blot on subcellular fractions, we found that all three stress factors resulted in an increased hsp70 expression, however the subcellular distribution pattern was different depending on the type of stress. While HS induced a rapid translocation of hsp70 into the nucleus, no nuclear translocation of hsp70 was observed after PMA or Eø. Neither of the examined stresses induced membrane expression of hsp70. The observed differences in subcellular distribution pattern might relate to distinct regulation and specific functions of hsp70 in inflammation.
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页码:629 / 642
页数:13
相关论文
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  • [1] Lindquist S.(1986)The heat shock response Annu. Rev. Biochem. 55 1151-1191
  • [2] Clerget M.(1990)Erythrophagocytosis induces heat shock protein synthesis by human monocytes-macrophages Proc. Natl. Acad. Sci. USA 87 1081-1085
  • [3] Polla B. S.(1996)Dual regulation of heat-shock transcription factor (HSF) activation and DNA-binding activity by H Biochem. J. 318 187-193
  • [4] Jacquier-Sarlin M. R.(1992)O Exp. Cell. Res. 202 507-518
  • [5] Polla B. S.(1996): role of thioredoxin Exp. Cell. Res. 22 16-27
  • [6] Ohtsuka K.(1992)The relationship between hsp70 localization and heat resistance J. Cell Physiol. 151 519-532
  • [7] Laszlo A.(1995)Immunoelectron microscopic localization of the 60kDa heat shock chaperonin protein (Hsp60) in mammalian cells Exp. Cell. Res. 221 301-310
  • [8] Soltys B. J.(1991)Initial characterization of heat-induced excess nuclear proteins in HeLa cells J. Cell Physiol. 149 77-87
  • [9] Gupta R. S.(1992)Analysis by confocal microscopy of the behaviour of heat shock protein 70 within the nucleus and of a nuclear matrix polypeptide during prolonged heat shock response in HeLa cells Biochem. Biophys. Res. Commun. 186 1257-1264
  • [10] Laszlo A.(1991)Differences in preferential synthesis and redistribution of HSP70 and HSP28 families by heat shock or sodium arsenite in Chinese Hamster Ovary cells Exp. Cell Res. 195 338-344
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