Mmp14 is required for matrisome homeostasis and circadian rhythm in fibroblasts

IF 4.5 1区 生物学 Q1 BIOCHEMISTRY & MOLECULAR BIOLOGY
Ching-Yan Chloé Yeung , Richa Garva , Adam Pickard , Yinhui Lu , Venkatesh Mallikarjun , Joe Swift , Susan H. Taylor , Jyoti Rai , David R. Eyre , Mayank Chaturvedi , Yoshifumi Itoh , Qing-Jun Meng , Cornelia Mauch , Paola Zigrino , Karl E. Kadler
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引用次数: 0

Abstract

The circadian clock in tendon regulates the daily rhythmic synthesis of collagen-I and the appearance and disappearance of small-diameter collagen fibrils in the extracellular matrix. How the fibrils are assembled and removed is not fully understood. Here, we first showed that the collagenase, membrane type I-matrix metalloproteinase (MT1-MMP, encoded by Mmp14), is regulated by the circadian clock in postnatal mouse tendon. Next, we generated tamoxifen-induced Col1a2-Cre-ERT2::Mmp14 KO mice (Mmp14 conditional knockout (CKO)). The CKO mice developed hind limb dorsiflexion and thickened tendons, which accumulated narrow-diameter collagen fibrils causing ultrastructural disorganization. Mass spectrometry of control tendons identified 1195 proteins of which 212 showed time-dependent abundance. In Mmp14 CKO mice 19 proteins had reversed temporal abundance and 176 proteins lost time dependency. Among these, the collagen crosslinking enzymes lysyl oxidase-like 1 (LOXL1) and lysyl hydroxylase 1 (LH1; encoded by Plod2) were elevated and had lost time-dependent regulation. High-pressure chromatography confirmed elevated levels of hydroxylysine aldehyde (pyridinoline) crosslinking of collagen in CKO tendons. As a result, collagen-I was refractory to extraction. We also showed that CRISPR-Cas9 deletion of Mmp14 from cultured fibroblasts resulted in loss of circadian clock rhythmicity of period 2 (PER2), and recombinant MT1-MMP was highly effective at cleaving soluble collagen-I but less effective at cleaving collagen pre-assembled into fibrils. In conclusion, our study shows that circadian clock-regulated Mmp14 controls the rhythmic synthesis of small diameter collagen fibrils, regulates collagen crosslinking, and its absence disrupts the circadian clock and matrisome in tendon fibroblasts.

Mmp14是成纤维细胞基质稳态和昼夜节律所必需的。
肌腱中的昼夜节律时钟调节胶原-I的每日节律性合成以及细胞外基质中小直径胶原原纤维的出现和消失。原纤维是如何组装和去除的还不完全清楚。在这里,我们首次发现胶原酶,膜型I型基质金属蛋白酶(MT1-MMP,由Mmp14编码),受出生后小鼠肌腱昼夜节律时钟的调节。接下来,我们产生了三苯氧胺诱导的Col1a2-Cre-ERT2::Mmp14 KO小鼠(Mmp14条件敲除(CKO))。CKO小鼠出现后肢背屈和肌腱增厚,积聚了直径狭窄的胶原纤维,导致超微结构紊乱。对照肌腱的质谱鉴定出1195种蛋白质,其中212种显示出与时间相关的丰度。在Mmp14 CKO小鼠中,19种蛋白质的时间丰度发生逆转,176种蛋白质失去了时间依赖性。其中,胶原交联酶赖氨酰氧化酶样1(LOXL1)和赖氨酰羟化酶1(LH1;由Plod2编码)升高,并失去了时间依赖性调节。高压色谱法证实CKO肌腱中胶原蛋白的羟基赖氨酸醛(吡啶啉)交联水平升高。因此,胶原-I是难提取的。我们还发现,培养的成纤维细胞中Mmp14的CRISPR-Cas9缺失导致2期昼夜节律性(PER2)的丧失,重组MT1-MMP在切割可溶性胶原-I方面非常有效,但在切割预先组装成原纤维的胶原方面效果较差。总之,我们的研究表明,昼夜节律时钟调节的Mmp14控制小直径胶原纤维的节律性合成,调节胶原交联,其缺失会破坏肌腱成纤维细胞的昼夜节律时钟和基质。
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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