Combined genetic-pharmacologic inactivation of tightly linked ADAMTS proteases in temporally specific windows uncovers distinct roles for versican proteolysis and glypican-6 in cardiac development

IF 4.5 1区 生物学 Q1 BIOCHEMISTRY & MOLECULAR BIOLOGY
Timothy J. Mead , Sumit Bhutada , Simon J. Foulcer , Niccolò Peruzzi , Courtney M. Nelson , Deborah E. Seifert , Jonathan Larkin , Karin Tran-Lundmark , Jorge Filmus , Suneel S. Apte
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引用次数: 0

Abstract

Extracellular matrix remodeling mechanisms are understudied in cardiac development and congenital heart defects. We show that matrix-degrading metalloproteases ADAMTS1 and ADAMTS5, are extensively co-expressed during mouse cardiac development. The mouse mutants of each gene have mild cardiac anomalies, however, their combined genetic inactivation to elicit cooperative roles is precluded by tight gene linkage. Therefore, we coupled Adamts1 inactivation with pharmacologic ADAMTS5 blockade to uncover stage-specific cooperative roles and investigated their potential substrates in mouse cardiac development. ADAMTS5 blockade was achieved in Adamts1 null mouse embryos using an activity-blocking monoclonal antibody during distinct developmental windows spanning myocardial compaction or cardiac septation and outflow tract rotation. Synchrotron imaging, RNA in situ hybridization, immunofluorescence microscopy and electron microscopy were used to determine the impact on cardiac development and compared to Gpc6 and ADAMTS-cleavage resistant versican mutants. Mass spectrometry-based N-terminomics was used to seek relevant substrates. Combined inactivation of ADAMTS1 and ADAMTS5 prior to 12.5 days of gestation led to dramatic accumulation of versican-rich cardiac jelly and inhibited formation of compact and trabecular myocardium, which was also observed in mice with ADAMTS cleavage-resistant versican. Combined inactivation after 12.5 days impaired outflow tract development and ventricular septal closure, generating a tetralogy of Fallot-like defect. N-terminomics of combined ADAMTS knockout and control hearts identified a cleaved glypican-6 peptide only in the controls. ADAMTS1 and ADAMTS5 expression in cells was associated with specific glypican-6 cleavages. Paradoxically, combined ADAMTS1 and ADAMTS5 inactivation reduced cardiac glypican-6 and outflow tract Gpc6 transcription. Notably, Gpc6−/− hearts demonstrated similar rotational defects as combined ADAMTS inactivated hearts and both had reduced hedgehog signaling. Thus, versican proteolysis in cardiac jelly at the canonical Glu441-Ala442 site is cooperatively mediated by ADAMTS1 and ADAMTS5 and required for proper ventricular cardiomyogenesis, whereas, reduced glypican-6 after combined ADAMTS inactivation impairs hedgehog signaling, leading to outflow tract malrotation.

在时间特异性窗口中对紧密相连的 ADAMTS 蛋白酶进行遗传-药物联合灭活,揭示了 versican 蛋白溶解和 glypican-6 在心脏发育过程中的不同作用。
细胞外基质重塑机制在心脏发育和先天性心脏缺陷中的作用研究不足。我们发现,基质降解金属蛋白酶 ADAMTS1 和 ADAMTS5 在小鼠心脏发育过程中广泛共表达。每个基因的小鼠突变体都有轻微的心脏畸形,然而,由于基因间的紧密联系,无法通过联合基因失活来激发它们的协同作用。因此,我们将 Adamts1 基因失活与药物性 ADAMTS5 基因阻断结合起来,以发现特定阶段的协同作用,并研究它们在小鼠心脏发育过程中的潜在底物。我们使用活性阻断单克隆抗体对 Adamts1 基因缺失的小鼠胚胎进行了 ADAMTS5 阻断,阻断过程跨越了心肌压实、心脏隔膜形成和流出道旋转等不同的发育窗口期。同步加速器成像、RNA 原位杂交、免疫荧光显微镜和电子显微镜被用来确定对心脏发育的影响,并与 Gpc6 和抗 ADAMTS 蛋白裂解的 versican 突变体进行比较。基于质谱的 N-端组学用于寻找相关底物。在妊娠12.5天之前联合灭活ADAMTS1和ADAMTS5会导致富含versican的心肌胶冻急剧积累,并抑制紧凑和小梁心肌的形成,这在具有ADAMTS裂解抗性versican的小鼠中也能观察到。12.5 天后的联合灭活损害了流出道的发育和室间隔的闭合,产生了类似法洛氏四联症的缺损。对ADAMTS基因敲除和对照组心脏的N-端组学研究发现,只有对照组中存在已裂解的glypican-6肽。ADAMTS1和ADAMTS5在细胞中的表达与特定的glypican-6裂解有关。矛盾的是,ADAMTS1 和 ADAMTS5 的联合失活降低了心脏 glypican-6 和流出道 Gpc6 的转录。值得注意的是,Gpc6-/-心脏与ADAMTS联合失活的心脏表现出相似的旋转缺陷,且两者的刺猬信号传导均减少。因此,ADAMTS1和ADAMTS5共同介导了心肌果冻中典型Glu441-Ala442位点的versican蛋白水解,这是心室心肌正常生成所必需的,而ADAMTS联合失活后减少的glypican-6会损害刺猬信号转导,导致流出道旋转不良。
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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