Your search keyword '"Godi M"' showing total 3 results

1. The W520X mutation in the TSHR gene brings on subclinical hypothyroidism through an haploinsufficiency mechanism

Author

Moia, S., Godi, M., Walker, G., Roccio, M., Agretti, P., Tonacchera, M., Berardi, R., Bellone, S., Prodam, F., Giordano, M., and Bona, G.

Abstract

Background:TSHR is a G-protein-coupled seven transmembrane domain receptor that activates the two major signal transduction pathways: the Gαs/adenylate cyclase and the Gαq/11/phospholipase C pathways. Inactivating mutations in the TSHR gene have been demonstrated to be responsible for subclinical hypothyroidism, a disorder characterized by elevated serum TSH concentrations despite normal thyroid hormones levels. Aim:We identified in a child a nonsense mutation (W520X) in the third transmembrane domain of the TSHR that causes the lack of the C-terminus portion of the receptor. The functional significance of this variation was assessed in vitro. Material/subject and methods:The W520X mutation was introduced into the pSVL vector containing the wild-type sequence of TSHR gene. Wild-type and mutated vectors were expressed in Chinese Hamster Ovary (CHO) cells, and cAMP, inositol phosphate (IP), immunofluorescence and FACS analyses were performed. Results:Transfection with pSVL-TSHR vector induced basal cAMP and IP production in the absence of TSH stimulation, indicating a constitutive activity for the TSHR. An impairment of receptor function was demonstrated by the observation that cells expressing the mutant TSHR exhibited a lower second messenger production with respect to the wild-type, despite a normal expression of the receptor at the cell surface. Conclusions:The mechanism through which the W520X mutation exerts its effect is more likely haploinsufficiency rather than a dominant-negative effect. This could explain the phenotype of our patient, who has a hormonal pattern in the range of a mild subclinical hypothyroidism, without an overt disease phenotype.

Published

2013

2. A novel recessive splicing mutation in the POU1F1gene causing combined pituitary hormone deficiency

Author

Carlomagno, Y., Salerno, M., Vivenza, D., Capalbo, D., Godi, M., Mellone, S., Tiradani, L., Corneli, G., Momigliano-Richiardi, P., Bona, G., and Giordano, M.

Abstract

Background: Mutations in the gene encoding the pituitary transcription factor POU1F1 (Pit-1, pituitary transcription factor-1) have been described in combined pituitary hormone deficiency (CPHD). Aim: The aim of this study was the characterisation of the molecular defect causing CPHD in a patient born to consanguineous parents. Subject and methods: The case of a 12.5-yr-old girl presenting with severe growth failure at diagnosis (−3 SD score at 3 months) and deficiency of GH, PRL, and TSH was investigated for the presence of POU1F1gene mutations by denaturing high performance liquid chromatography analysis. Results: A novel mutation adjacent to the IVS2 splicing acceptor site (IVS2-3insA) was identified in the patient at the homozygous state. Analysis of patient’s lymphocyte mRNA and an in vitrosplicing assay revealed the presence of 2 aberrant splicing products: a) deletion of the first 71 nucleotides of exon 3, altering the open reading frame and generating a premature stop codon, b) total exon 3 skipping resulting in an in frame deleted mRNA encoding a putative protein lacking part of the transactivation domain and of the POU-specific homeodomain. Notably, the patient’s relatives heterozygous for the mutation had PRL levels under the normal range with no evident clinical symptoms. Conclusions: The IVS2-3insA mutation, responsible for CPHD at the homozygous state, causes the presence of 2 aberrant splicing products encoding non-functional products. In the heterozygotes one normal allele might not guarantee a complete pituitary function.

Published

2009

3. Genitourinary Anomalies in Mowat-Wilson Syndrome with Deletion/Mutation in the Zinc Finger Homeo Box 1B Gene (ZFHX1B)

Author

Garavelli, L., Cerruti-Mainardi, P., Virdis, R., Pedori, S., Pastore, G., Godi, M., Provera, S., Rauch, A., Zweier, C., Zollino, M., Banchini, G., Longo, N., Mowat, D., Neri, G., and Bernasconi, S.

Abstract

AbstractHypospadias, when the urethra opens on the ventral side of the penis, is a common malformation seen in about 3 per 1,000 male births. It is a complex disorder associated with genetic and environmental factors and can be part of genetic syndromes. Mowat-Wilson syndrome (MWS) is a multiple congenital anomaly syndrome characterized by a distinct facial phenotype, Hirschsprung disease, microcephaly and mental retardation. It is caused by mutations in the zinc finger homeo box 1B gene, ZFHX1B (SIP1). To date, 68 deletion/mutation-positive cases have been reported. Genitourinary anomalies are common in MWS. Here we report that hypospadias is common in males with this syndrome. In 39 patients where this information was available, hypospadias was present in 46% of patients (18/39). In the 3 Italian male cases reported here, hypospadias was always present. MWS should be considered by endocrinologists in patients with hypospadias associated with developmental delays/mental retardation, in particular in the presence of a distinct facial phenotype.Copyright © 2005 S. Karger AG, Basel

Published

2005