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Hypomorphic homozygous mutations in phosphoglucomutase 3 (PGM3) impair immunity and increase serum IgE levels.


ABSTRACT: BACKGROUND:Recurrent bacterial and fungal infections, eczema, and increased serum IgE levels characterize patients with the hyper-IgE syndrome (HIES). Known genetic causes for HIES are mutations in signal transducer and activator of transcription 3 (STAT3) and dedicator of cytokinesis 8 (DOCK8), which are involved in signal transduction pathways. However, glycosylation defects have not been described in patients with HIES. One crucial enzyme in the glycosylation pathway is phosphoglucomutase 3 (PGM3), which catalyzes a key step in the synthesis of uridine diphosphate N-acetylglucosamine, which is required for the biosynthesis of N-glycans. OBJECTIVE:We sought to elucidate the genetic cause in patients with HIES who do not carry mutations in STAT3 or DOCK8. METHODS:After establishing a linkage interval by means of SNPchip genotyping and homozygosity mapping in 2 families with HIES from Tunisia, mutational analysis was performed with selector-based, high-throughput sequencing. Protein expression was analyzed by means of Western blotting, and glycosylation was profiled by using mass spectrometry. RESULTS:Mutational analysis of candidate genes in an 11.9-Mb linkage region on chromosome 6 shared by 2 multiplex families identified 2 homozygous mutations in PGM3 that segregated with disease status and followed recessive inheritance. The mutations predict amino acid changes in PGM3 (p.Glu340del and p.Leu83Ser). A third homozygous mutation (p.Asp502Tyr) and the p.Leu83Ser variant were identified in 2 other affected families, respectively. These hypomorphic mutations have an effect on the biosynthetic reactions involving uridine diphosphate N-acetylglucosamine. Glycomic analysis revealed an aberrant glycosylation pattern in leukocytes demonstrated by a reduced level of tri-antennary and tetra-antennary N-glycans. T-cell proliferation and differentiation were impaired in patients. Most patients had developmental delay, and many had psychomotor retardation. CONCLUSION:Impairment of PGM3 function leads to a novel primary (inborn) error of development and immunity because biallelic hypomorphic mutations are associated with impaired glycosylation and a hyper-IgE-like phenotype.

SUBMITTER: Sassi A 

PROVIDER: S-EPMC4825677 | biostudies-literature | 2014 May

REPOSITORIES: biostudies-literature

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Hypomorphic homozygous mutations in phosphoglucomutase 3 (PGM3) impair immunity and increase serum IgE levels.

Sassi Atfa A   Lazaroski Sandra S   Wu Gang G   Haslam Stuart M SM   Fliegauf Manfred M   Mellouli Fethi F   Patiroglu Turkan T   Unal Ekrem E   Ozdemir Mehmet Akif MA   Jouhadi Zineb Z   Khadir Khadija K   Ben-Khemis Leila L   Ben-Ali Meriem M   Ben-Mustapha Imen I   Borchani Lamia L   Pfeifer Dietmar D   Jakob Thilo T   Khemiri Monia M   Asplund A Charlotta AC   Gustafsson Manuela O MO   Lundin Karin E KE   Falk-Sörqvist Elin E   Moens Lotte N LN   Gungor Hatice Eke HE   Engelhardt Karin R KR   Dziadzio Magdalena M   Stauss Hans H   Fleckenstein Bernhard B   Meier Rebecca R   Prayitno Khairunnadiya K   Maul-Pavicic Andrea A   Schaffer Sandra S   Rakhmanov Mirzokhid M   Henneke Philipp P   Kraus Helene H   Eibel Hermann H   Kölsch Uwe U   Nadifi Sellama S   Nilsson Mats M   Bejaoui Mohamed M   Schäffer Alejandro A AA   Smith C I Edvard CI   Dell Anne A   Barbouche Mohamed-Ridha MR   Grimbacher Bodo B  

The Journal of allergy and clinical immunology 20140401 5


<h4>Background</h4>Recurrent bacterial and fungal infections, eczema, and increased serum IgE levels characterize patients with the hyper-IgE syndrome (HIES). Known genetic causes for HIES are mutations in signal transducer and activator of transcription 3 (STAT3) and dedicator of cytokinesis 8 (DOCK8), which are involved in signal transduction pathways. However, glycosylation defects have not been described in patients with HIES. One crucial enzyme in the glycosylation pathway is phosphoglucomu  ...[more]

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