Section of Invertebrate Zoology and Hydrobiology, Museo delle Scienze, Trento, Italy.
Arch Insect Biochem Physiol. 2013 May;83(1):1-14. doi: 10.1002/arch.21088. Epub 2013 Feb 12.
Laboratory experiments on the cold stenothermal midge Diamesa cinerella (Diptera, Chironomidae) were performed to study the relationship between increasing temperature and heat shock proteins (HSP70) expression at translational level (Western blotting). Thermotolerance of IV instar larvae collected in nature at 1.5-4.3°C during seasons was analyzed through short-term (1 h at ten different temperatures from 26°C to 35°C) and long-term (1-14 h at 26°C and 1-4 h at 32°C) heat shocks. A high thermotolerance was detected (LT50=30.9-32.8°C and LT100=34.0-37.8°C). However, survival decreased consistently with increasing exposure time, especially at higher temperature (LTime50=7.64 h at 26°C and LTime50=1.73 h at 32°C). The relationship between such heat resistance and HSP70 expression appeared evident because a relationship between HSP70 level and larval survival rate was generally found. A heat shock response (HSR) was consistent only in the summer larvae. The absence of HSR in the other populations coupled with even higher amounts of HSP70 than in summer, led us to hypothesize that other macromolecules and other adaptive mechanisms, apart from biochemical ones, are involved in the response of D. cinerella larvae to high temperature. Altogether these results stressed how in this midge the HSP70 protein family confers resistance against cold, being detected under natural conditions in control larvae collected in all seasons, but also against warm under experimental heat shocks. These results give new insights into possible responses to climate changes in freshwater insects within the context of global warming.
实验室对冷温性摇蚊 Diamesa cinerella(双翅目,摇蚊科)进行了实验,以研究温度升高与热休克蛋白(HSP70)在翻译水平(Western 印迹)上表达之间的关系。通过对自然采集的 1.5-4.3°C 的四龄幼虫进行短期(1 小时,在 26°C 至 35°C 的十个不同温度下)和长期(1-14 小时在 26°C 下和 1-4 小时在 32°C 下)热激实验,分析了幼虫的耐热性。检测到高耐热性(LT50=30.9-32.8°C 和 LT100=34.0-37.8°C)。然而,随着暴露时间的增加,存活率持续下降,尤其是在较高温度下(LTime50=7.64 小时在 26°C 下和 LTime50=1.73 小时在 32°C 下)。这种耐热性与 HSP70 表达之间的关系似乎很明显,因为通常发现 HSP70 水平与幼虫存活率之间存在关系。夏季幼虫中仅存在热激反应(HSR)。其他种群中没有 HSR,但其 HSP70 含量甚至高于夏季,这使我们假设除了生化机制之外,其他大分子和其他适应机制也参与了 D. cinerella 幼虫对高温的反应。总而言之,这些结果强调了在这种摇蚊中,HSP70 蛋白家族如何赋予其对寒冷的抵抗力,在所有季节收集的对照幼虫的自然条件下检测到该蛋白,而且在实验热激下也赋予其对温暖的抵抗力。这些结果为淡水昆虫在全球变暖背景下对气候变化的可能反应提供了新的见解。
