Development, validation, and preliminary phenotypic characterization of a Col6a3 knockout mouse model targeting exon 3 Article Swipe

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Phenotype Knockout mouse Exon Myopathy Chemistry Collagen VI Cancer research Gene Molecular biology Pathology Biology Medicine Biochemistry

Michel ElChoueiry , Harsimran Sidhu , Maude Lévesque , Dominique Lévesque , Jean‐François Jacques , Otman Sarrhini , Jonathan Beaudoin , Maxime Caron , Brian T. Gaudette , Roger Lecomte , Xavier Roucou , François‐Michel Boisvert , Jean‐Philippe Brosseau ·

YOU? · · 2025 · Open Access · · DOI: https://doi.org/10.1002/ame2.70063 · OA: W4413108210

Background Most mutations in the COL6A3 gene lead to collagen VI‐related myopathies. This is due to a reduced expression or mislocalization of the COL6A3 protein. Therefore, studying the consequence of knocking out the Col6a3 gene in mouse models is relevant, but the Col6a3 mouse models reported so far do not entirely abolish COL6A3 protein expression. Methods Here, we present the development, validation and preliminary phenotypic characterization of a novel CRISPR‐based knockout mouse model targeting Col6a3 exon 3 ( Col6a3 d3/d3 ). Results In this mouse model, Col6a3 mRNA is still expressed at a similar level to wild‐type littermates, although the expected protein is undetectable by mass spectrometry. Histological analysis of Col6a3 d3/d3 quadriceps revealed an abnormally high frequency of muscle cells with internally nucleated muscle cells, consistent with a myopathy phenotype. Interestingly, Col6a3 d3/d3 mice are smaller in size, with their fat, muscle, and bone kept proportional compared to wild‐type littermates. Conclusions In summary, we performed the validation and preliminary phenotypic characterization of a novel Col6a3 knockout mouse model that could be further characterized and used to study COL6A3 biology and model collagen VI‐associated diseases.