The Y chromosome carries several genes involved in spermatogenesis, which are distributed in three regions in the euchromatic part of the long arm, called AZFa (azoospermia factor a), AZFb, and AZFc. Microdeletions in these regions have been seen in 10-15% of sterile males with azoospermia or severe oligozoospermia. The relatively high de novo occurrence of these microdeletion events might be due to particular chromosome arrangements associated with certain Y chromosome haplogroups. To test whether there is any association between Y chromosome types and male infertility, we studied a sample of 84 Japanese oligozoospermic or azoospermic males. The patients were analyzed for the presence of Yq microdeletions and also typed with a battery of unique event polymorphisms (UEPs) to define their Y haplogroups. Six of the infertile patients presented likely pathological microdeletions detectable with the sequence tagged sites (STS) markers used. There was no significant association between Y chromosome haplogroups and the microdeletions. We also compared the Y haplogroup frequencies in our subset sample of 51 idiopathic azoospermia patients with 57 fertile control Japanese males, and did not observe any significant differences. Contrary to previous reports, our data suggest that Y microdeletions and other molecular events causally associated with male infertility in Japan occur independently of the Y chromosome background.
Cardiac myxomas are rare tumors that may be encountered sporadically or in the context of the Carney complex. The molecular basis for the development of cardiac myxomas and Carney complex tumors is unclear. Pathological myocardial function and myocardial hypertrophy have been associated with alterations in the heterotrimeric GTP-binding proteins. The postulated proto-oncogenic character of the gene encoding the alpha sub-unit of the stimulatory GTP-binding protein Gs alpha (gsp) in pituitary and thyroid tumors, the finding of identical somatic gsp mutations in the myocardium of patients with McCune-Albright syndrome, and the associated endocrine anomalies of the Carney complex prompted us to investigate the occurrence of activating missense mutations in the Gs alpha gene in 10 sporadically occurring atrial myxomas and in 8 tumors from 7 patients with Carney complex. No gsp mutations could be demonstrated by using the polymerase chain reaction and denaturing gradient gel electrophoresis complemented by direct DNA sequencing. Thus, activating Gs alpha mutations neither are associated with the development of atrial myxomas, nor can be demonstrated in other tumors from patients with Carney complex. The significance of these mutations in the myocardium of asymptomatic patients with McCune-Albright syndrome remains to be determined.
Nephrogenic diabetes insipidus (NDI) is associated with germline mutations in two genes: vasopressin receptor type 2 (V2(R)) in X-linked NDI, and the water channel aquaporin-2, in autosomal-recessive disease. Genetic heterogeneity is further emphasized by reports of phenotypically abnormal individuals with normal structural genes. We analyzed both genes in five Brazilian families and the aquaporin-2 gene in two Swedish families with clinical and laboratory diagnosis of NDI, by a combination of denaturing gradient gel electrophoresis (DGGE) and direct DNA sequencing. A novel polymorphism in the aquaporin-2 gene (S167S), but no disease-associated mutations in any tested individual from all seven families, was detected. In two Brazilian families, frameshift mutations were detected in the V2(R) gene: one leading to a premature stop after codon 36 and the other to a longer peptide (462 aa instead of the 373 aa wild-type protein). In two other Brazilian families, probable disease-associated missense mutations were detected: an alanine to proline at codon 163 (A163P) and an asparagine to aspartic acid at codon 85 (D85N). In one Brazilian family, both genes were structurally normal and the aquaporin-2 gene was also normal in the two Swedish kindreds. This report further extends the mutational spectrum of NDI and suggests that there are other mutational or epigenetic events inactivating the two known genes or even novel genes that underlie NDI.
RESUMOO diabetes insipidus nefrogênico (DIN) é uma doença rara caracterizada pela incapacidade do rim de concentrar a urina, a despeito de concentrações normais ou aumentadas do hormônio antidiurético argininavasopressina (AVP). Recentes avanços da fisiopatologia renal mostraram que, após a ligação do AVP ao seu receptor AVPR2 (receptor de vasopressina tipo 2), uma cascata de eventos culmina com a reabsorção de água no túbulo coletor, por meio de canais permeáveis exclusivamente à água e localizados nas membranas apicais do túbulo coletor, sendo o mais importante deles a aquaporina-2 (AQP2). A identificação, caracterização e análise mutacional dos genes AVPR2 e AQP2 permitiram estabelecer as bases moleculares de vários tipos hereditários de diabetes insipidus nefrogênico. Aproximadamente 90% desses pacientes apresentam mutações do AVPR2, 8% apresentam mutações no AQP2 e o restante não tem causas identificadas. Nessa revisão apresentamos exemplos de alterações genéticas e sugerimos que o uso de técnicas de biologia molecular pode minimizar as complicações dessa doença heterogênea mas com fenótipo bastante semelhante. ABSTRACTNephrogenic diabetes insipidus (NDI) is a rare disease characterized by the kidney failure to concentrate urine despite normal or increased plasma concentrations of the antidiuretic hormone arginine vasopressin (AVP). Recent advances in kidney physiopathology demonstrate that, after AVP binding to its receptor AVPR2 (vasopressin type 2 receptor), a cascade of events leads to water reabsorption in the collecting duct through channels exclusively permeable to water and localized at the apical membranes of these collecting ducts, the most important being aquaporin-2 (AQP2). The identification, characterization and mutational analysis of genes AVPR2 and AQP2 helped to establish the molecular basis of the various types of hereditary nephrogenic diabetes insipidus. Approximately 90% of patients present with mutations of AVPR2, 8% have mutations of AQP2 and the remaining do not have any identifiable causes. In this review, we present examples of such genetic alterations and suggest that the use of molecular biology techniques can minimize the complications of this heterogeneous disease that presents with similar phenotype.
Nephrogenic diabetes insipidus (NDI) is associated with germline mutations in two genes: vasopressin receptor type 2 (V2(R)) in X‐linked NDI, and the water channel aquaporin‐2, in autosomal‐recessive disease. Genetic heterogeneity is further emphasized by reports of phenotypically abnormal individuals with normal structural genes. We analyzed both genes in five Brazilian families and the aquaporin‐2 gene in two Swedish families with clinical and laboratory diagnosis of NDI, by a combination of denaturing gradient gel electrophoresis (DGGE) and direct DNA sequencing. A novel polymorphism in the aquaporin‐2 gene (S167S), but no disease‐associated mutations in any tested individual from all seven families, was detected. In two Brazilian families, frameshift mutations were detected in the V2(R) gene: one leading to a premature stop after codon 36 and the other to a longer peptide (462 aa instead of the 373 aa wild‐type protein). In two other Brazilian families, probable disease‐associated missense mutations were detected: an alanine to proline at codon 163 (A163P) and an asparagine to aspartic acid at codon 85 (D85N). In one Brazilian family, both genes were structurally normal and the aquaporin‐2 gene was also normal in the two Swedish kindreds. This report further extends the mutational spectrum of NDI and suggests that there are other mutational or epigenetic events inactivating the two known genes or even novel genes that underlie NDI. Hum Mutat 14:233–239, 1999. © 1999 Wiley‐Liss, Inc.
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