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. 1996 Dec;1(4):225–235. doi: 10.1379/1466-1268(1996)001<0225:tapaci>2.3.co;2

Transient accumulation, phosphorylation and changes in the oligomerization of Hsp27 during retinoic acid-induced differentiation of HL-60 cells: possible role in the control of cellular growth and differentiation

Sylvain Chaufour 1, Patrick Mehlen 1, André-Patrick Arrigo 1
PMCID: PMC376460  PMID: 9222608

Abstract

Expression of the mammalian small stress protein Hsp27 has been increasingly linked to cell growth regulation and differentiation. Hsp27 is a phosphoprotein which forms oligomers with native sizes ranging between 100 and 800 kDa. We have examined the fate of Hsp27 transiently expressed during the retinoic acid (tRA)-induced granulocytic differentiation of human leukemic HL-60 cells. We show that tRA, in addition to its effects on Hsp27 accumulation and phosphorylation, transiently increased the oligomerization state of this protein. While Hsp27 phosphorylation by tRA is an early phenomenon that takes place before cellular growth is altered, the redistribution of Hsp27 oligomers occurred later and concomitantly with the maximal accumulation of this protein. Hence, complex regulations of Hsp27 are induced by tRA which suggest that this protein plays a role in the pathway through which retinoids exert their effects. To approach Hsp27 function during HL-60 cell differentiation, experiments aimed at reducing the cellular content of this protein were performed by transiently inhibiting Hsp27 mRNA translation by a specific anti-sense oligonucleotide. This process, which decreased the basal level of Hsp27 by about 40%, did not interfere with the growth of undifferentiated HL-60 cells. In contrast, a decreased level of Hsp27 diminished the differentiation-mediated down-regulation of cell growth and altered some morphological changes induced by this retinoid. These results suggest that Hsp27 is a mediator of granulocytic differentiation.

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