Teets Nicholas M, Denlinger David L
Department of Entomology and ‡Department of Evolution, Ecology, and Organismal Biology, Ohio State University , Columbus, Ohio 43210, United States.
J Proteome Res. 2016 Aug 5;15(8):2855-62. doi: 10.1021/acs.jproteome.6b00427. Epub 2016 Jul 11.
Rapid cold hardening (RCH) is a physiological adaptation in which brief chilling (minutes to hours) significantly enhances the cold tolerance of insects. RCH allows insects to cope with sudden cold snaps and diurnal variation in temperature, but the mechanistic basis of this rapid stress response is poorly understood. Here, we used phosphoproteomics to identify phosphorylation-mediated signaling events that are regulated by chilling that induces RCH. Phosphoproteomic changes were measured in both brain and fat bodies, two tissues that are essential for sensing cold and coordinating RCH at the organismal level. Tissues were chilled ex vivo, and changes in phosphoprotein abundance were measured using 2D electrophoresis coupled with Pro-Q diamond labeling of phosphoproteins followed by protein identification via LC-MS/MS. In both tissues, we observed an abundance of protein phosphorylation events in response to chilling. Some of the proteins regulated by RCH-inducing chilling include proteins involved in cytoskeletal reorganization, heat shock proteins, and proteins involved in the degradation of damaged cellular components via the proteasome and autophagosome. Our results suggest that phosphorylation-mediated signaling cascades are major drivers of RCH and enhance our mechanistic understanding of this complex phenotype.
快速冷硬化(RCH)是一种生理适应性变化,即短暂低温处理(数分钟至数小时)可显著提高昆虫的耐寒性。RCH使昆虫能够应对突然的寒流和温度的昼夜变化,但其这种快速应激反应的机制基础仍知之甚少。在此,我们利用磷酸化蛋白质组学来鉴定由诱导RCH的低温处理所调控的磷酸化介导的信号转导事件。在脑和脂肪体这两个对于感知寒冷以及在机体水平协调RCH至关重要的组织中测量磷酸化蛋白质组的变化。组织在体外进行低温处理,并通过二维电泳结合磷酸化蛋白质的Pro-Q钻石标记,随后通过液相色谱-串联质谱进行蛋白质鉴定,来测量磷酸化蛋白质丰度的变化。在这两种组织中,我们均观察到大量响应低温处理的蛋白质磷酸化事件。一些受诱导RCH的低温处理调控的蛋白质包括参与细胞骨架重组的蛋白质、热休克蛋白以及通过蛋白酶体和自噬体参与受损细胞成分降解的蛋白质。我们的结果表明,磷酸化介导的信号级联反应是RCH的主要驱动因素,并增强了我们对这种复杂表型的机制理解。
