正向和反向降解组学定义了人膝关节骨关节炎软骨的蛋白水解景观以及丝氨酸蛋白酶 HtrA1 的作用。

Forward and reverse degradomics defines the proteolytic landscape of human knee osteoarthritic cartilage and the role of the serine protease HtrA1.

机构信息

Department of Biomedical Engineering, Cleveland Clinic Lerner Research Institute, Cleveland, OH, USA.

Proteomics and Metabolomics Core, Cleveland Clinic Lerner Research Institute, Cleveland, OH, USA.

出版信息

Osteoarthritis Cartilage. 2022 Aug;30(8):1091-1102. doi: 10.1016/j.joca.2022.02.622. Epub 2022 Mar 24.

DOI:10.1016/j.joca.2022.02.622

PMID:35339693

Abstract

OBJECTIVES

Proteolytic destruction of articular cartilage, a major pathogenic mechanism in osteoarthritis (OA), was not previously investigated by terminomics strategies. We defined the degradome of human knee OA cartilage and the contribution therein of the protease HtrA1 using Terminal Amine Isotopic Labeling of Substrates (TAILS).

DESIGN

Proteins from OA cartilage taken at knee arthroplasty (n = 6) or separately, from healthy cartilage incubated in triplicate with/without active HtrA1, were labeled at natural and proteolytically cleaved N-termini by reductive dimethylation, followed by trypsin digestion, enrichment of N-terminally labeled/blocked peptides, tandem mass spectrometry and positional peptide annotation to identify cleavage sites. Biglycan proteolysis by HtrA1 was validated biochemically and Amino-Terminal Oriented Mass Spectrometry of Substrates (ATOMS) was used to define the HtrA1 cleavage sites.

RESULTS

We identified 10,155 unique internal peptides from 2,162 proteins, suggesting at least 10,797 cleavage sites in OA cartilage. 7,635 internal peptides originated in 371 extracellular matrix/secreted components, many undergoing extensive proteolysis. Rampant ragging of protein termini suggested pervasive exopeptidase activity. HtrA1, the most abundant protease in OA cartilage, experimentally generated 323 cleavages in 109 cartilage proteins, accounting for 171 observed cleavages in the OA degradome. ATOMS identified HtrA1 cleavage sites in a selected substrate, biglycan, whose direct cleavage by HtrA1 was thus orthogonally validated.

CONCLUSIONS

OA cartilage demonstrates widespread proteolysis by endo- and exopeptidases. HtrA1 contributes broadly to cartilage proteolysis. Forward degradomics of OA cartilage together with reverse degradomics of proteases active in OA, e.g., HtrA1, can potentially fully annotate OA proteolytic pathways and provide new biomarkers.

摘要

目的

关节软骨的蛋白水解破坏是骨关节炎（OA）的主要致病机制，但以前并未通过末端组学策略进行研究。我们使用末端胺同位素标记物（TAILS）来定义人膝关节 OA 软骨的降解组以及其中 HtrA1 蛋白酶的作用。

设计

从膝关节置换术（n=6）中取出的 OA 软骨或从单独的健康软骨中取出，在有/无活性 HtrA1 的情况下分别在三复孔中孵育，通过还原二甲化使天然和蛋白水解切割的 N 末端标记，然后进行胰蛋白酶消化、N 末端标记/封闭肽的富集、串联质谱和位置肽注释以鉴定切割位点。用生物化学方法验证 HtrA1 对 biglycan 的蛋白水解作用，并使用氨基末端定向质谱法（ATOMS）来定义 HtrA1 的切割位点。

结果

我们从 2162 种蛋白质中鉴定出 10155 个独特的内部肽，表明 OA 软骨中至少存在 10797 个切割位点。7635 个内部肽起源于 371 种细胞外基质/分泌成分，其中许多经历了广泛的蛋白水解。蛋白末端的猖獗撕裂表明存在广泛的外肽酶活性。HtrA1 是 OA 软骨中最丰富的蛋白酶，在 109 种软骨蛋白中实验生成 323 个切割，占 OA 降解组中观察到的 171 个切割。ATOMS 确定了在选定的基质 biglycan 中 HtrA1 的切割位点，因此直接切割由 HtrA1 验证。

结论

OA 软骨表现出广泛的内肽酶和外肽酶蛋白水解作用。HtrA1 广泛参与软骨蛋白水解。OA 软骨的正向降解组学和在 OA 中具有活性的蛋白酶的反向降解组学，例如 HtrA1，可以全面注释 OA 蛋白水解途径并提供新的生物标志物。

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正向和反向降解组学定义了人膝关节骨关节炎软骨的蛋白水解景观以及丝氨酸蛋白酶 HtrA1 的作用。

Forward and reverse degradomics defines the proteolytic landscape of human knee osteoarthritic cartilage and the role of the serine protease HtrA1.

机构信息

出版信息

OBJECTIVES

DESIGN

RESULTS

CONCLUSIONS

目的

设计

结果

结论

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