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西伯利亚鲟鱼中血红素结合蛋白的分子特征:进化见解及免疫和热应激下的差异表达

Molecular Characterization of Hemopexin in the Siberian Sturgeon (): Evolutionary Insights and Differential Expression Under Immune and Thermal Stresses.

作者信息

Kim Eun Jeong, Kim Ki Hong, Nam Yoon Kwon

机构信息

Faculty of Fisheries Life Sciences, Pukyong National University, Busan 48513, Republic of Korea.

Department of Aquatic Life Medicine, Pukyong National University, Busan 48513, Republic of Korea.

出版信息

Int J Mol Sci. 2025 Aug 17;26(16):7934. doi: 10.3390/ijms26167934.

DOI:10.3390/ijms26167934
PMID:40869255
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC12386703/
Abstract

Hemopexin (HPX) is a heme-binding glycoprotein involved in detoxification, oxidative stress regulation, and immune defense. In teleosts, gene duplication gave rise to and , but the structure and function of ancestral in basal actinopterygians remain poorly understood. Here, we characterized from the Siberian sturgeon (), a slow-evolving chondrostean species that diverged prior to the teleost-specific duplication. Structural modeling and superimposed 3D alignment revealed high similarity between sturgeon HPX, human HPX, and Wap65-2, but not Wap65-1. Phylogenetic analysis placed sturgeon HPX in a distinct basal clade within the Actinopterygian lineage, positioned below the divergence of Wap65 paralogs. Tissue expression was liver-dominant but also evident in skin and kidney, and transcripts increased during larval development. Under challenge, was strongly upregulated in immune-relevant tissues. Thermal challenge also induced modest, tissue-specific changes, particularly in peripheral tissues. These results indicate that ancestral possessed multivalent stress responsiveness-primarily immune-related-with supplementary thermal sensitivity. The observed functional flexibility is consistent with the hypothesis that ancestral HPX functions were partitioned following gene duplication in teleosts, with evolving toward a specialized thermal response role.

摘要

血红素结合蛋白(HPX)是一种与解毒、氧化应激调节和免疫防御相关的血红素结合糖蛋白。在硬骨鱼中,基因复制产生了 和 ,但基底辐鳍鱼中祖先 的结构和功能仍知之甚少。在这里,我们对西伯利亚鲟鱼( )的 进行了表征,西伯利亚鲟鱼是一种进化缓慢的软骨硬鳞鱼类,在硬骨鱼特异性复制之前就已经分化。结构建模和叠加的三维比对显示,鲟鱼HPX、人类HPX和Wap65-2之间具有高度相似性,但与Wap65-1不相似。系统发育分析将鲟鱼HPX置于辐鳍鱼谱系中一个独特的基底分支中,位于Wap65旁系同源物分化之下。组织表达以肝脏为主,但在皮肤和肾脏中也很明显,并且 在幼体发育过程中转录本增加。在 刺激下, 在免疫相关组织中强烈上调。热刺激也诱导了适度的、组织特异性的变化,特别是在外周组织中。这些结果表明,祖先 具有多价应激反应性——主要与免疫相关——并具有补充性的热敏感性。观察到的功能灵活性与以下假设一致,即硬骨鱼中基因复制后祖先HPX的功能被划分, 朝着专门的热反应角色进化。

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