Heat shock causes a decrease in polysomes and the appearance of stress granules in trypanosomes independently of eIF2{alpha} phosphorylation at Thr169

doi:10.1242/jcs.031823

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JCS ePress online publication date 19 Aug 2008
doi: 10.1242/jcs.031823

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Research Article

Heat shock causes a decrease in polysomes and the appearance of stress granules in trypanosomes independently of eIF2 ${alpha}$ phosphorylation at Thr169

Susanne Kramer, Rafael Queiroz, Louise Ellis, Helena Webb, Jörg D. Hoheisel, Christine Clayton, and Mark Carrington^*
^* Author for correspondence (e-mail: mc115{at}cam.ac.uk)

In trypanosomes there is an almost total reliance on post-transcriptionalmechanisms to alter gene expression; here, heat shock was usedto investigate the response to an environmental signal. Heatshock rapidly and reversibly induced a decrease in polysomeabundance, and the consequent changes in mRNA metabolism werestudied. Both heat shock and polysome dissociation were necessaryfor (1) a reduction in mRNA levels that was more rapid thannormal turnover, (2) an increased number of P-body-like granulesthat contained DHH1, SCD6 and XRNA, (3) the formation of stressgranules that remained largely separate from the P-body-likegranules and localise to the periphery of the cell and, (4)an increase in the size of a novel focus located at the posteriorpole of the cell that contain XRNA, but neither DHH1 nor SCD6.The response differed from mammalian cells in that neither thedecrease in polysomes nor stress-granule formation requiredphosphorylation of eIF2 ${alpha}$ at the position homologous to that ofserine 51 in mammalian eIF2 ${alpha}$ and in the occurrence of a novelXRNA-focus.

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Heat shock causes a decrease in polysomes and the appearance of stress granules in trypanosomes independently of eIF2 phosphorylation at Thr169

Heat shock causes a decrease in polysomes and the appearance of stress granules in trypanosomes independently of eIF2 ${alpha}$ phosphorylation at Thr169