RGD Reference Report - Parental origin of Gsalpha mutations in the McCune-Albright syndrome and in isolated endocrine tumors. - Rat Genome Database

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Parental origin of Gsalpha mutations in the McCune-Albright syndrome and in isolated endocrine tumors.

Authors: Mantovani, G  Bondioni, S  Lania, AG  Corbetta, S  De Sanctis, L  Cappa, M  Di Battista, E  Chanson, P  Beck-Peccoz, P  Spada, A 
Citation: Mantovani G, etal., J Clin Endocrinol Metab. 2004 Jun;89(6):3007-9.
RGD ID: 1580402
Pubmed: PMID:15181091   (View Abstract at PubMed)
DOI: DOI:10.1210/jc.2004-0194   (Journal Full-text)

Activating mutations of the Gsalpha gene are detected in different endocrine tumors, such as GH-secreting adenomas and toxic thyroid adenomas, and in hyperfunctioning glands from patients with McCune-Albright syndrome (MAS). There is increasing evidence that the Gsalpha gene is subjected to imprinting control and that Gsalpha imprinting plays a key role in the pathogenesis of different human diseases. The aim of this study was to investigate the presence of a parent specificity of Gsalpha mutations in 10 patients affected with MAS and 12 isolated tumors (10 GH-secreting adenomas, one toxic thyroid adenoma, and one hyperfunctioning adrenal adenoma). The parental origin of Gsalpha mutations was assessed by evaluating NESP55 and exon 1A transcripts, which are monoallelically expressed from the maternal and paternal alleles, respectively. By this approach, we demonstrated that in isolated GH-secreting adenomas, as well as in MAS patients with acromegaly, Gsalpha mutations were on the maternal allele. By contrast, the involvement of other endocrine organs in MAS patients was not associated with a particular parent specificity, as precocious puberty and hyperthyroidism were present in patients with mutations on either the maternal or the paternal allele. Moreover, isolated hyperfunctioning thyroid and adrenal adenomas displayed the mutation on the maternal and paternal alleles, respectively. These data confirm the importance of Gsalpha imprinting in the pituitary gland and point out the high degree of tissue specificity of this phenomenon.

Objects referenced in this article
Gene GNAS GNAS complex locus Homo sapiens
Gene Gnas GNAS complex locus Mus musculus
Gene Gnas GNAS complex locus Rattus norvegicus

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