Peroxidasin is required for full viability in development and for maintenance of tissue mechanics in adults

IF 4.5 1区 生物学 Q1 BIOCHEMISTRY & MOLECULAR BIOLOGY
K. Elkie Peebles , Kimberly S. LaFever , Patrick S. Page-McCaw , Selene Colon , Dan Wang , Aubrie M. Stricker , Nicholas Ferrell , Gautam Bhave , Andrea Page-McCaw
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引用次数: 0

Abstract

Basement membranes are thin strong sheets of extracellular matrix. They provide mechanical and biochemical support to epithelia, muscles, nerves, and blood vessels, among other tissues. The mechanical properties of basement membranes are conferred in part by Collagen IV (Col4), an abundant protein of basement membranes that forms an extensive two-dimensional network through head-to-head and tail-to-tail interactions. After the Col4 network is assembled into a basement membrane, it is crosslinked by the matrix-resident enzyme Peroxidasin to form a large covalent polymer. Peroxidasin and Col4 crosslinking are highly conserved throughout the animal kingdom, indicating they are important, but homozygous mutant mice have mild phenotypes. To explore the role of Peroxidasin, we analyzed mutants in Drosophila, including a new CRISPR-generated catalytic null, and found that homozygotes were mostly lethal with 13 % viable escapers. Mouse mutants also show semi-lethality, with Mendelian analysis demonstrating ∼50 % lethality and ∼50 % escapers. Despite the strong mutations, the homozygous fly and mouse escapers had low but detectable levels of Col4 crosslinking, indicating the existence of inefficient alternative crosslinking mechanisms, probably responsible for the viable escapers. Fly mutant phenotypes are consistent with decreased basement membrane stiffness. Interestingly, we found that even after basement membranes are assembled and crosslinked in wild-type animals, continuing Peroxidasin activity is required in adults to maintain tissue stiffness over time. These results suggest that Peroxidasin crosslinking may be more important than previously appreciated.

过氧化物酶是成年人发育和维持组织力学的充分活力所必需的。
基底膜是细胞外基质薄而结实的薄片。它们为上皮、肌肉、神经和血管等组织提供机械和生化支持。基底膜的力学特性部分是由胶原IV (Col4)赋予的,胶原IV是基底膜上丰富的蛋白质,通过头对头和尾对尾的相互作用形成广泛的二维网络。当Col4网络被组装成基膜后,它被基质上的过氧化物酶交联,形成一个大的共价聚合物。过氧化物酶和Col4交联在整个动物王国中是高度保守的,表明它们是重要的,但纯合突变小鼠具有温和的表型。为了探索过氧化物酶的作用,我们分析了果蝇的突变体,包括一个新的crispr产生的催化null,发现纯合子大多是致命的,只有13%的存活逃逸子。小鼠突变体也显示出半致命性,孟德尔分析显示出50%的致死率和50%的逃逸率。尽管存在强突变,纯合子果蝇和小鼠逃逸体的Col4交联水平较低,但可检测到,这表明存在低效的替代交联机制,可能是导致存活逃逸体的原因。果蝇突变表型与基底膜刚度降低一致。有趣的是,我们发现即使在野生型动物的基底膜组装和交联之后,成年动物也需要持续的过氧化物酶活性来维持组织的硬度。这些结果表明过氧化物酶交联可能比以前认为的更重要。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
Matrix Biology
Matrix Biology 生物-生化与分子生物学
CiteScore
11.40
自引率
4.30%
发文量
77
审稿时长
45 days
期刊介绍: Matrix Biology (established in 1980 as Collagen and Related Research) is a cutting-edge journal that is devoted to publishing the latest results in matrix biology research. We welcome articles that reside at the nexus of understanding the cellular and molecular pathophysiology of the extracellular matrix. Matrix Biology focusses on solving elusive questions, opening new avenues of thought and discovery, and challenging longstanding biological paradigms.
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