Gain of glycosylation in integrin α3 causes lung disease and nephrotic syndrome
Nayia Nicolaou, … , Kirsten Y. Renkema, Arnoud Sonnenberg
Nayia Nicolaou, … , Kirsten Y. Renkema, Arnoud Sonnenberg
Published November 1, 2012
Citation Information: J Clin Invest. 2012;122(12):4375-4387. https://doi.org/10.1172/JCI64100.
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Research Article Nephrology

Gain of glycosylation in integrin α3 causes lung disease and nephrotic syndrome

Abstract

Integrins are transmembrane αβ glycoproteins that connect the extracellular matrix to the cytoskeleton. The laminin-binding integrin α3β1 is expressed at high levels in lung epithelium and in kidney podocytes. In podocytes, α3β1 associates with the tetraspanin CD151 to maintain a functional filtration barrier. Here, we report on a patient homozygous for a novel missense mutation in the human ITGA3 gene, causing fatal interstitial lung disease and congenital nephrotic syndrome. The mutation caused an alanine-to-serine substitution in the integrin α3 subunit, thereby introducing an N-glycosylation motif at amino acid position 349. We expressed this mutant form of ITGA3 in murine podocytes and found that hyperglycosylation of the α3 precursor prevented its heterodimerization with β1, whereas CD151 association with the α3 subunit occurred normally. Consequently, the β1 precursor accumulated in the ER, and the mutant α3 precursor was degraded by the ubiquitin-proteasome system. Thus, these findings uncover a gain-of-glycosylation mutation in ITGA3 that prevents the biosynthesis of functional α3β1, causing a fatal multiorgan disorder.

Authors

Nayia Nicolaou, Coert Margadant, Sietske H. Kevelam, Marc R. Lilien, Michiel J.S. Oosterveld, Maaike Kreft, Albertien M. van Eerde, Rolph Pfundt, Paulien A. Terhal, Bert van der Zwaag, Peter G.J. Nikkels, Norman Sachs, Roel Goldschmeding, Nine V.A.M. Knoers, Kirsten Y. Renkema, Arnoud Sonnenberg

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Figure 3

Abnormalities in lung tissue of the patient.

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Abnormalities in lung tissue of the patient. (A) H&E staining of a l...
(A) H&E staining of a lung section from a healthy individual. Scale bar: 100 μm. (B) H&E staining of a lung section from the patient. Scale bar: 100 μm. (C) Keratin staining showing lining of the thickened alveolar septa with reactive type II pneumocytes in patient lungs. Scale bar: 100 μm. (D) PAS staining demonstrating glycogen deposits in interstitial cells in the lungs of the patient. Scale bar: 25 μm. (E) Lung cryosections of the patient and a control were subjected to indirect immunofluorescence analysis using our homemade antibodies against the cytoplasmic tail of α3 (green) and collagen IV (red) or α6 (green) and nidogen (red). IgG was included as a control for antibody specificity. Nuclei were counterstained with DAPI (blue). Scale bar: 50 μm.