College of Ocean and Earth Sciences, Xiamen University, Xiamen 361102, China.
College of Science and Engineering, James Cook University, Townsville, Queensland 4811, Australia.
Comp Biochem Physiol A Mol Integr Physiol. 2019 May;231:49-55. doi: 10.1016/j.cbpa.2019.01.015. Epub 2019 Jan 26.
Crustacean hyperglycemic hormone (CHH) plays a crucial role in regulating carbohydrate metabolism in crustaceans. In this study, a new cDNA encoding type I CHH peptide, termed Sp-CHH3, was isolated from the mud crab Scylla paramamosain and its potential functions were investigated. The full length cDNA of Sp-CHH3 was identified as encoding a 127-aa precursor composed of a 27-aa signal peptide, a 23-aa CHH precursor-related peptide and a 75-aa mature peptide with a typical motif of CHH. Phylogenic analysis suggested that, Sp-CHH3 is a previously unreported CHH from S. paramamosain. Tissue distribution analysis showed that Sp-CHH3 was mainly expressed in the eyestalk ganglia, thoracic ganglia, stomach and the ovary. A RNA interference experiments showed that after injection of Sp-CHH3-targeted dsRNA, both the level of Sp-CHH3 expression in the eyestalk ganglia and hemolymph glucose level decreased significantly. A further short-term starvation experiments demonstrated that, the level of Sp-CHH3 detected in the eyestalk ganglia was significantly up-regulated at the 12th h of starvation, it then fell back at the 24th h of starvation and subsequently remained relative stability between the 24th to 96th h of starvation. The hemolymph glucose level decreased significantly (P < .05) at each sampling time during the 96 h starvation duration when compared to that of 0 h (prior to starvation) and the overall trend was largely correlated with the level of Sp-CHH3 expression in the eyestalk ganglia. In summary, the results suggest that Sp-CHH3 plays a functional role in regulating carbohydrate metabolism in S. paramamosain.
甲壳动物糖质激素(CHH)在调节甲壳动物的碳水化合物代谢中起着至关重要的作用。在这项研究中,从泥蟹锯缘青蟹中分离出一种新的编码 I 型 CHH 肽的 cDNA,称为 Sp-CHH3,并研究了其潜在功能。Sp-CHH3 的全长 cDNA被鉴定为编码由 27 个氨基酸信号肽、23 个氨基酸 CHH 前体相关肽和 75 个氨基酸成熟肽组成的 127 个氨基酸前体,具有 CHH 的典型基序。系统发育分析表明,Sp-CHH3 是锯缘青蟹中一种以前未报道的 CHH。组织分布分析表明,Sp-CHH3 主要在眼柄神经节、胸神经节、胃和卵巢中表达。RNA 干扰实验表明,注射 Sp-CHH3 靶向 dsRNA 后,眼柄神经节中 Sp-CHH3 的表达水平和血淋巴葡萄糖水平均显著下降。进一步的短期饥饿实验表明,在饥饿的第 12 小时,检测到的眼柄神经节中 Sp-CHH3 的水平显著上调,然后在饥饿的第 24 小时下降,随后在饥饿的第 24 小时至第 96 小时之间保持相对稳定。与饥饿前的 0 小时(即饥饿前)相比,在 96 小时饥饿期间的每个采样时间,血淋巴葡萄糖水平显著下降(P<0.05),整体趋势与眼柄神经节中 Sp-CHH3 的表达水平高度相关。总之,这些结果表明 Sp-CHH3 在调节锯缘青蟹的碳水化合物代谢中发挥了功能作用。
