热休克蛋白的上调对于昆虫滞育期间的低温存活至关重要。

Up-regulation of heat shock proteins is essential for cold survival during insect diapause.

作者信息

Rinehart Joseph P, Li Aiqing, Yocum George D, Robich Rebecca M, Hayward Scott A L, Denlinger David L

机构信息

Department of Entomology, Ohio State University, 400 Aronoff Laboratory, 318 West 12th Avenue, Columbus, OH 43210, USA.

出版信息

Proc Natl Acad Sci U S A. 2007 Jul 3;104(27):11130-7. doi: 10.1073/pnas.0703538104. Epub 2007 May 23.

DOI:10.1073/pnas.0703538104

PMID:17522254

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2040864/

Abstract

Diapause, the dormancy common to overwintering insects, evokes a unique pattern of gene expression. In the flesh fly, most, but not all, of the fly's heat shock proteins (Hsps) are up-regulated. The diapause up-regulated Hsps include two members of the Hsp70 family, one member of the Hsp60 family (TCP-1), at least four members of the small Hsp family, and a small Hsp pseudogene. Expression of an Hsp70 cognate, Hsc70, is uninfluenced by diapause, and Hsp90 is actually down-regulated during diapause, thus diapause differs from common stress responses that elicit synchronous up-regulation of all Hsps. Up-regulation of the Hsps begins at the onset of diapause, persists throughout the overwintering period, and ceases within hours after the fly receives the signal to reinitiate development. The up-regulation of Hsps appears to be common to diapause in species representing diverse insect orders including Diptera, Lepidoptera, Coleoptera, and Hymenoptera as well as in diapauses that occur in different developmental stages (embryo, larva, pupa, adult). Suppressing expression of Hsp23 and Hsp70 in flies by using RNAi did not alter the decision to enter diapause or the duration of diapause, but it had a profound effect on the pupa's ability to survive low temperatures. We thus propose that up-regulation of Hsps during diapause is a major factor contributing to cold-hardiness of overwintering insects.

摘要

滞育是越冬昆虫常见的休眠状态，会引发独特的基因表达模式。在肉蝇中，大部分（但并非全部）热休克蛋白（Hsps）会上调。滞育上调的热休克蛋白包括Hsp70家族的两个成员、Hsp60家族的一个成员（TCP-1）、小热休克蛋白家族的至少四个成员以及一个小热休克蛋白假基因。热休克同源蛋白Hsc70的表达不受滞育影响，而Hsp90在滞育期间实际上是下调的，因此滞育不同于引发所有热休克蛋白同步上调的常见应激反应。热休克蛋白的上调在滞育开始时启动，在整个越冬期间持续存在，并在苍蝇接收到重新开始发育的信号后数小时内停止。热休克蛋白的上调似乎在代表不同昆虫目的物种的滞育中很常见，包括双翅目、鳞翅目、鞘翅目和膜翅目，以及在不同发育阶段（胚胎、幼虫、蛹、成虫）发生的滞育中。通过RNA干扰抑制苍蝇中Hsp23和Hsp70的表达并没有改变进入滞育的决定或滞育的持续时间，但对蛹在低温下存活的能力有深远影响。因此，我们提出滞育期间热休克蛋白的上调是导致越冬昆虫耐寒性的一个主要因素。

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