par Maassen, Antonie J.A.;Tobias, Edward E.S.;Kayserilli, Hülya;Tukel, Turgut;Yuksel-Apak, Memnune;D'Haens, Esther;Kleijer, Wim W.J.;Fery, Françoise ;Van Der Zon, Gerard G.C.M.
Référence The Journal of clinical endocrinology and metabolism, 88, 9, page (4251-4257)
Publication Publié, 2003-09
Article révisé par les pairs
Résumé : We analyzed the insulin receptor gene in four patients with leprechaunism and one with type A insulin resistance. We detected novel and previously reported mutations. The novel mutants were expressed in Chinese hamster ovary cells to evaluate the consequences for insulin receptor function. A type A insulin resistance patient from Morocco was homozygous for Arg252His mutation, similar to a previously described type A patient from Japan. A patient with leprechaunism was homozygous for the Ser323Leu mutation, previously identified in homozygous form in two patients with Rabson-Mendenhall syndrome. Phenotypic expression of this mutation is variable. A patient with leprechaunism is compound heterozygous for the previously described Arg1092Trp mutation and a nonsense mutation in eodon 897. Another patient with leprechaunism was homozygous for a novel Asn431Asp mutation, which only partially reduces insulin proreceptor processing and activation of signaling cascades. The novel Leu93Gln mutation that fully disrupts proreceptor processing was found in one allele in a patient with leprechaunism. A nonsense mutation at codon 1122 was in the other allele. These results expand the number of pathogenic insulin receptor mutations and demonstrate the variability in their phenotypic expression. The biochemical analysis of mutant insulin receptors does not reliably predict whether the phenotype will be leprechaunism, the Rabson-Mendenhall syndrome, or type A insulin resistance. The previously reported correlation between fibroblast insulin binding and duration of patient survival was not observed.

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