A novel mtDNA point mutation in tRNAVal is associated with hypertrophic cardiomyopathy and MELAS

Background. Pathological mutations of mitochondrial (mt) DNA may cause specific diseases such as cardiomyopathies or hearing loss, or syndromes such as mitochondrial myopathy, encephalopathy, lactic acidosis, and stroke-like episode (MELAS) syndrome. We describe a novel mtDNA mutation in a patient with severe hypertrophic cardiomyopathy associated with MELAS. The familial phenotype included 1) hypertrophic cardiomyopathy and MELAS, 2) clinically mild cardiac hypertrophy, and 3) deafness. Methods. The proband and her first degree relatives underwent echo and electrocardiograms, and biochemical tests. Magnetic resonance imaging of the brain was performed in the proband. mtDNA was fully analyzed by sequencing. DNA purification, polymerase chain reaction and direct automated sequencing were performed following standard procedures. Heteroplasmy of the novel mutation was quantified by densitometric analysis. Results. A novel G1644A transition affecting the tRNAVal was identified in the proband and maternal relatives. The mutation has been interpreted as pathological because the G at the 1644 position is a highly conserved base, is heteroplasmic with higher levels of mutant DNA in the proband than in the relatives, is located in the unique tRNAVal, is very close to a mutation described as causative of MELAS, and finally has not been found in 100 healthy controls. Conclusions. Although it is rare for patients with MELAS to be referred to cardiological evaluation because of coexisting cardiomyopathy, cardiologists should be aware of this association as well as of the non cardiac signs that may address the diagnosis to mtDNA defect-related disease in families with a variable phenotype. © 2004 CEPI Srl

The shortness of Pygmies is associated with severe under-expression of the growth hormone receptor

The stature is a highly heritable trait controlled by genetic and environmental factors. The African Pygmies represent a paradigmatic example of non-disease-related idiopathic short stature (ISS), showing a similar endocrine profile of Caucasian individuals with ISS. Pygmy children show normal anthropometric and endocrine parameters until puberty, while adult Pygmies show normal baseline and post-stimulation serum growth hormone (GH) levels but low values of baseline serum GH-binding protein (GHBP) and insulin-like growth factor-1 (IGF-I). This discrepancy suggests a defective response to GH occurring in adulthood since Pygmies lack both the pubertal serum IGF-I surge and the growth spurt. However, sequencing of the key genes of the GH-IGF-I axis failed to identify Pygmy specific variants or haplotypes. We therefore aimed at assessing whether the quantitative gene expression profile of two key genes of the GH-IGF-1 axis, GH and GHR, was also similar in low-stature and normal stature populations. We showed that the GH gene expression is 1.8-fold reduced and the CH receptor(GHR) gene expression is 8-fold reduced in adult Pygmies in comparison with sympatric adult Bantu, and that this reduction is not associated with sequence variants of the GHR gene. The marked decrease of the GHR expression in Pygmies is associated with reduced serum levels of the lGF-I and GHBP. Our results, documenting a markedly reduced GHR gene expression in adult Pygmies, could contribute to elucidate the mechanisms involved in ISS in Caucasoid subjects. (C) 2009 Elsevier Inc. All rights reserved

Y-chromosome specific YCAII, DYS19 and YAP polymorphisms in human populations: a comparative study

Two hypervariable Y-specific markers, the YCAII and DYS19 STRs, and the more stable Y Alu Polymorphism (YAP) have been analysed in about 1400 individuals of 21 different populations, mainly from Europe but also from the Middle East, Africa and Asia. On the basis of the frequency distributions of these three Y-markers we compare, using different statistical analyses, their power in detecting population genetic structure and in distinguishing closely related groups. The pattern of populations' genetic affinities inferred from the three markers considered altogether suggests a strong genetic structure that, with a few exceptions, broadly corresponds to the linguistic relatedness and/or geographic location of the sampled populations