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Mutations in ANTXR1 cause GAPO syndrome

V. Stránecký, A. Hoischen, H. Hartmannová, MS. Zaki, A. Chaudhary, E. Zudaire, L. Nosková, V. Barešová, A. Přistoupilová, K. Hodaňová, J. Sovová, H. Hůlková, L. Piherová, JY. Hehir-Kwa, D. de Silva, MP. Senanayake, S. Farrag, J. Zeman, P....

American journal of human genetics. 2013 ; 92 (5) : 792-799.

Am J Hum Genet
ISSN 1537-6605
Medvik
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Language English Country United States

Document type Case Reports, Journal Article, Research Support, N.I.H., Intramural, Research Support, Non-U.S. Gov't

Persistent link https://www.medvik.cz/link/bmc13031486

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PubMed 23602711
DOI 10.1016/j.ajhg.2013.03.023
Knihovny.cz E-resources

The genetic cause of GAPO syndrome, a condition characterized by growth retardation, alopecia, pseudoanodontia, and progressive visual impairment, has not previously been identified. We studied four ethnically unrelated affected individuals and identified homozygous nonsense mutations (c.262C>T [p.Arg88*] and c.505C>T [p.Arg169*]) or splicing mutations (c.1435-12A>G [p.Gly479Phefs*119]) in ANTXR1, which encodes anthrax toxin receptor 1. The nonsense mutations predictably trigger nonsense-mediated mRNA decay, resulting in the loss of ANTXR1. The transcript with the splicing mutation theoretically encodes a truncated ANTXR1 containing a neopeptide composed of 118 unique amino acids in its C terminus. GAPO syndrome's major phenotypic features, which include dental abnormalities and the accumulation of extracellular matrix, recapitulate those found in Antxr1-mutant mice and point toward an underlying defect in extracellular-matrix regulation. Thus, we propose that mutations affecting ANTXR1 function are responsible for this disease's characteristic generalized defect in extracellular-matrix homeostasis.

Institute for Inherited Metabolic Disorders 1st Faculty of Medicine Charles University Prague 120 00 Prague 2 Czech Republic

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