Frontiers in Cell and Developmental Biology (Dec 2020)

b3galt6 Knock-Out Zebrafish Recapitulate β3GalT6-Deficiency Disorders in Human and Reveal a Trisaccharide Proteoglycan Linkage Region

  • Sarah Delbaere,
  • Adelbert De Clercq,
  • Shuji Mizumoto,
  • Fredrik Noborn,
  • Fredrik Noborn,
  • Jan Willem Bek,
  • Lien Alluyn,
  • Charlotte Gistelinck,
  • Delfien Syx,
  • Phil L. Salmon,
  • Paul J. Coucke,
  • Göran Larson,
  • Göran Larson,
  • Shuhei Yamada,
  • Andy Willaert,
  • Fransiska Malfait

DOI
https://doi.org/10.3389/fcell.2020.597857
Journal volume & issue
Vol. 8

Abstract

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Proteoglycans are structurally and functionally diverse biomacromolecules found abundantly on cell membranes and in the extracellular matrix. They consist of a core protein linked to glycosaminoglycan chains via a tetrasaccharide linkage region. Here, we show that CRISPR/Cas9-mediated b3galt6 knock-out zebrafish, lacking galactosyltransferase II, which adds the third sugar in the linkage region, largely recapitulate the phenotypic abnormalities seen in human β3GalT6-deficiency disorders. These comprise craniofacial dysmorphism, generalized skeletal dysplasia, skin involvement and indications for muscle hypotonia. In-depth TEM analysis revealed disturbed collagen fibril organization as the most consistent ultrastructural characteristic throughout different affected tissues. Strikingly, despite a strong reduction in glycosaminoglycan content, as demonstrated by anion-exchange HPLC, subsequent LC-MS/MS analysis revealed a small amount of proteoglycans containing a unique linkage region consisting of only three sugars. This implies that formation of glycosaminoglycans with an immature linkage region is possible in a pathogenic context. Our study, therefore unveils a novel rescue mechanism for proteoglycan production in the absence of galactosyltransferase II, hereby opening new avenues for therapeutic intervention.

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