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Uncovering the ligandome of low-density lipoprotein receptor-related protein 1 in cartilage: a top-down approach to identify therapeutic targets

作者
Kazuhiro Yamamoto,Carsten Scavenius,Maria Martina Meschis,Emilie Hage Mogensen,Abdulrahman M E Gremida,Ida B. Thøgersen,Simone Bonelli,Simone Dario Scilabra,Salvatore Santamaria,Josefin Ahnström,George Bou–Gharios,Jan J. Enghild,Hideaki Nagase
出处
期刊: [Cold Spring Harbor Laboratory]
被引量:2
标识
DOI:10.1101/2022.03.02.482546
摘要

Abstract The low-density lipoprotein receptor-related protein 1 (LRP1) is a cell-surface receptor ubiquitously expressed in adult tissues. It plays tissue-specific physiological roles by mediating endocytosis of a diverse range of extracellular molecules. Dysregulation of LRP1 is involved in multiple conditions including Alzheimer’s disease, atherosclerosis and osteoarthritis (OA). However, little information is available about the specific ligand profile (ligandome) for each tissue, which would lead to better understanding of its role in disease states. Here, we investigated adult articular cartilage where impaired LRP1-mediated endocytosis leads to tissue destruction. We used a top-down approach involving analysis of human chondrocyte secretome, direct binding assays and validation in LRP1-deficient fibroblasts, as well as a novel Lrp1 conditional knockout (KO) mouse model. We found that inhibition of LRP1-mediated endocytosis results in cell death, alteration of the entire secretome and transcriptional modulations in human chondrocytes. We have identified more than 50 novel ligand candidates and confirmed direct LRP1 binding of HGFAC , HMGB1 , HMGB2 , CEMIP , SLIT2 , ADAMTS1 , IGFBP7 , SPARC and LIF . Our in vitro endocytosis assay revealed the correlation of their affinity for LRP1 and the rate of endocytosis. Moreover, a conditional LRP1 KO mouse model demonstrated a critical role of LRP1 in regulating the high-affinity ligands in cartilage in vivo . This systematic approach revealed the extent of the chondrocyte LRP1 ligandome and identified potential novel therapeutic targets for OA.

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