A Damaging COL6A3 Variant Alters the MIR31HG-Regulated Response of Chondrocytes in Neocartilage Organoids to Hyperphysiologic Mechanical Loading

The pericellular matrix (PCM), with its hallmark proteins collagen type VI (COLVI) and fibronectin (FN), surrounds chondrocytes and is critical in transducing the biomechanical cues. To identify genetic variants that change protein function, exome sequencing is performed in a patient with symptomati...

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Published inAdvanced science Vol. 11; no. 36; pp. e2400720 - n/a
Main Authors Bloks, Niek Gc, Harissa, Zainab, Mazzini, Giorgia, Adkar, Shaunak S, Dicks, Amanda R, Hajmousa, Ghazaleh, Steward, Nancy, Koning, Roman I, Mulder, Aat, de Koning, Berend B R, Kloppenburg, Margreet, de Almeida, Rodrigo Coutinho, Ramos, Yolande Fm, Guilak, Farshid, Meulenbelt, Ingrid
Format Journal Article
LanguageEnglish
Published Germany John Wiley & Sons, Inc 01.09.2024
John Wiley and Sons Inc
Wiley
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Summary:The pericellular matrix (PCM), with its hallmark proteins collagen type VI (COLVI) and fibronectin (FN), surrounds chondrocytes and is critical in transducing the biomechanical cues. To identify genetic variants that change protein function, exome sequencing is performed in a patient with symptomatic OA at multiple joint sites. A predicted damaging variant in COL6A3 is identified and introduced by CRISPR-Cas9 genome engineering in two established human induced pluripotent stem cell-derived in-vitro neocartilage organoid models. The downstream effects of the COL6A3 variant on the chondrocyte phenotypic state are studied by a multi-omics (mRNA and lncRNA) approach in interaction with hyper-physiological mechanical loading conditions. The damaging variant in COL6A3 results in significantly lower binding between the PCM proteins COLVI and FN and provokes an osteoarthritic chondrocyte state. By subsequently exposing the neocartilage organoids to hyperphysiological mechanical stress, it is demonstrated that the COL6A3 variant in chondrocytes abolishes the characteristic inflammatory signaling response after mechanical loading with PTGS2, PECAM1, and ADAMTS5, as central genes. Finally, by integrating epigenetic regulation, the lncRNA MIR31HG is identified as key regulator of the characteristic inflammatory signaling response to mechanical loading.
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ISSN:2198-3844
2198-3844
DOI:10.1002/advs.202400720