Protease-dependent defects in N-cadherin processing drive PMM2-CDG pathogenesis
Elsenoor J. Klaver, … , Richard Steet, Heather Flanagan-Steet
Elsenoor J. Klaver, … , Richard Steet, Heather Flanagan-Steet
Published November 16, 2021
Citation Information: JCI Insight. 2021;6(24):e153474. https://doi.org/10.1172/jci.insight.153474.
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Protease-dependent defects in N-cadherin processing drive PMM2-CDG pathogenesis

Abstract

The genetic bases for the congenital disorders of glycosylation (CDG) continue to expand, but how glycosylation defects cause patient phenotypes remains largely unknown. Here, we combined developmental phenotyping and biochemical studies in a potentially new zebrafish model (pmm2sa10150) of PMM2-CDG to uncover a protease-mediated pathogenic mechanism relevant to craniofacial and motility phenotypes in mutant embryos. Mutant embryos had reduced phosphomannomutase activity and modest decreases in N-glycan occupancy as detected by matrix-assisted laser desorption ionization mass spectrometry imaging. Cellular analyses of cartilage defects in pmm2sa10150 embryos revealed a block in chondrogenesis that was associated with defective proteolytic processing, but seemingly normal N-glycosylation, of the cell adhesion molecule N-cadherin. The activities of the proconvertases and matrix metalloproteinases responsible for N-cadherin maturation were significantly altered in pmm2sa10150 mutant embryos. Importantly, pharmacologic and genetic manipulation of proconvertase activity restored matrix metalloproteinase activity, N-cadherin processing, and cartilage pathology in pmm2sa10150 embryos. Collectively, these studies demonstrate in CDG that targeted alterations in protease activity create a pathogenic cascade that affects the maturation of cell adhesion proteins critical for tissue development.

Authors

Elsenoor J. Klaver, Lynn Dukes-Rimsky, Brijesh Kumar, Zhi-Jie Xia, Tammie Dang, Mark A. Lehrman, Peggi Angel, Richard R. Drake, Hudson H. Freeze, Richard Steet, Heather Flanagan-Steet

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Figure 5

PC inhibition improves craniofacial phenotypes in pmm2m/m embryos.

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PC inhibition improves craniofacial phenotypes in pmm2m/m embryos. (A) P...
(A) Pericardial injection of PC inhibitor. Confocal images of fli1a:EGFP-labeled cartilage structures show PCI injection improves chondrocyte morphology, organization, and differentiation in pmm2m/m embryos. White boxes, central portion of Meckel’s cartilage; orange boxes, lateral regions evaluated for phenotypic rescue. Scale bars: 10 μm. Percentage values indicate number of scored embryos exhibiting pictured phenotype. n = 30 embryos over 4 experiments. (B) Parameters assessed for rescue of central portion of Meckel’s cartilage (white boxes). Cells were scored for percentage of intercalated, ratio between long and short axis (measure of roundness), and percentage of cells with vacuoles. n = 8–15 treated embryos over 4 experiments. (C) Parameters assessed for rescue of lateral portion of Meckel’s cartilage (white boxes). Cells were scored as in B. n = 8–15 treated embryos over 4 experiments. (D) Experimental strategy involving injecting a morpholino targeting furina into mixed progeny of pmm2m/m incross at 1-cell stage and genotyping 3 dpf. Confocal images of fli1a:EGFP-labeled cartilage structures show inhibiting furina improves chondrocyte morphology, organization, and differentiation in pmm2m/m embryos. White boxes, central portion of Meckel’s cartilage; orange boxes, lateral regions evaluated for phenotypic rescue. Scale bars: 10 μm. Percentage values indicate the number of scored embryos exhibiting pictured phenotype. n = 8–15 treated embryos over 4 experiments. (E) Parameters assessed for rescue of central portion of Meckel’s cartilage (white boxes) following morpholino inhibition of furina. Cells were scored as in B. (F) Parameters assessed for rescue of lateral portion of Meckel’s cartilage (orange boxes) following morpholino inhibition of furina. Cells were scored as in B. Error bars show SEM, 2-way ANOVA, *P < 0.05, **P < 0.01, ***P < 0.0001, ****P < 0.0001.