MPDU1 mutations underlie a novel human congenital disorder of glycosylation, designated type If
Barbara Schenk, Timo Imbach, Christian G. Frank, Claudia E. Grubenmann, Gerald V. Raymond, Haggit Hurvitz, Annick Raas-Rotschild, Anthony S. Luder, Jaak Jaeken, Eric G. Berger, Gert Matthijs, Thierry Hennet, Markus Aebi
Barbara Schenk, Timo Imbach, Christian G. Frank, Claudia E. Grubenmann, Gerald V. Raymond, Haggit Hurvitz, Annick Raas-Rotschild, Anthony S. Luder, Jaak Jaeken, Eric G. Berger, Gert Matthijs, Thierry Hennet, Markus Aebi
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Article

MPDU1 mutations underlie a novel human congenital disorder of glycosylation, designated type If

Abstract

Deficiencies in the pathway of N-glycan biosynthesis lead to severe multisystem diseases, known as congenital disorders of glycosylation (CDG). The clinical appearance of CDG is variable, and different types can be distinguished according to the gene that is altered. In this report, we describe the molecular basis of a novel type of the disease in three unrelated patients diagnosed with CDG-I. Serum transferrin was hypoglycosylated and patients’ fibroblasts accumulated incomplete lipid-linked oligosaccharide precursors for N-linked protein glycosylation. Transfer of incomplete oligosaccharides to protein was detected. Sequence analysis of the Lec35/MPDU1 gene, known to be involved in the use of dolichylphosphomannose and dolichylphosphoglucose, revealed mutations in all three patients. Retroviral-based expression of the normal Lec35 cDNA in primary fibroblasts of patients restored normal lipid-linked oligosaccharide biosynthesis. We concluded that mutations in the Lec35/MPDU1 gene cause CDG. This novel type was termed CDG-If.

Authors

Barbara Schenk, Timo Imbach, Christian G. Frank, Claudia E. Grubenmann, Gerald V. Raymond, Haggit Hurvitz, Annick Raas-Rotschild, Anthony S. Luder, Jaak Jaeken, Eric G. Berger, Gert Matthijs, Thierry Hennet, Markus Aebi

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Alignment of the primary sequence of Lec35 proteins from human (Homo sap...
Alignment of the primary sequence of Lec35 proteins from human (Homo sapiens, GenBank accession no. XP_008236), mouse (Mus musculus, accession number Q9R0Q9), hamster (Cricetulus griseus, accession no. Q60441), worm (Caenorhabditis elegans, accession no. AAA83473), and plant (Arabidopsis thaliana, assembled from genomic clone AF147262). Regions conserved in the five proteins are shaded in black, and residues that are conserved in four proteins are shaded in gray. The amino acid substitutions and the change of reading frame detected in CDG-If patients are indicated above the human sequence. The line following the Δ-mark for the mutation 511delC shows the portion of the polypeptide translated in another reading frame before a stop codon appears (vertical line).