Chromosome 10p terminal deletions have been associated with DiGeorge phenotype, and within the same genomic region haploinsufficiency of GATA3 causes the HDR syndrome (hypoparathyroidism, sensorineural deafness, renal dysplasia). We have performed detailed molecular analysis of four patients with partial overlapping 10p deletions by using FISH-mapping, array-CGH, and custom-designed high-resolution oligonucleotide array. All four patients had mental retardation and speech impairment and three of them showed variable signs of HDR syndrome. In addition, two patients had autistic behaviors and had similar dysmorphic features giving them a striking physical resemblance. A review of the literature identified 10 previously published cases with similar 10p deletions and reliable molecular or molecular cytogenetic mapping data. The combined information of present and previous cases suggests that partial deletions of 10p14-p15 represent a syndrome with a distinct and more severe phenotype than previously assumed. The main characteristics include severe mental retardation, language impairment, autistic behavior, and characteristic clinical features. A critical region involved in mental retardation and speech impairment is defined within 1.6 Mb in 10p15.3. In addition, deletion of 4.3 Mb within 10p14 is associated with autism and characteristic clinical findings.
BackgroundPartial deletion of chromosome 21q is a very rare chromosomal abnormality associated with highly variable phenotypes, such as facial dysmorphic features, heart defects, seizures, psychomotor delay, and severe to mild intellectual disability, depending on the location and size of deletions. So far, three broad deletion regions of 21q have been correlated with the clinical phenotype.ResultsWe described the clinical and genetic features of three family members (father and two siblings) and other two unrelated patients with very wide range in age of diagnosis. All of them showed intellectual disability with very variable symptoms, from mild to severe, and carried 21q interstitial deletions with different sizes and position, as detected by conventional karyotype and array-CGH.ConclusionsOur study provided additional cases of partial 21q deletions, allowing to better delineate the genotype-phenotype correlations. In contrast to previous observations, we showed that deletions of the 21q proximal region are not necessarily associated with severe phenotypes and, therefore, that mild phenotypes are not exclusively related to distal deletions. To the best of our knowledge, this is the first report showing 21q deletions in adult patients associated with mild phenotypes, mainly consisting of neurobehavioral abnormalities, such as obsessive-compulsive disorders, poor social interactions and vulnerability to psychosis.
Klinefelter's syndrome (KS) is due to the presence of one or more supernumerary X chromosomes. Aneuploidy 47,XXY is the most common abnormality of sex chromosomes in humans, with an incidence of 1/500 male live births. Only one-third of subjects with KS is, however, diagnosed. The aim of this work is to present a review of current literature about neurogenetic functions in KS, referring to both clinical and therapeutics aspects. If it is well known that the majority of subjects with 47,XXY karyotype have a normal intellectual level, the identification of strengths and weaknesses of their intellectual functioning is important for the purpose of planning early psycho-educational interventions. Language difficulties are one of the more distinctive traits in cognitive functioning of people with KS. It has also been suggested that the limitations in communication markedly affect social adaptation and behavioral aspects, as well as the development of personality. Moreover, difficulties in learning language appear to be related to an altered functional lateralization; therefore, KS subjects are a suitable model for studying genetic abnormalities of lateralization. In this, perspective psychopathological risk is analyzed. Early recognition of this aspect is needed to address the educational and therapeutic perspectives for KS subjects.
Point mutations in the cAMP-responsive element (CRE) of the rat somatostatin gene promoter/enhancer sequence (TGACGTCA) were used as a model for assessing the effect of uracil, deriving either from misincorporation during DNA synthesis (T----U) or cytosine deamination (C----U), on the binding of sequence/specific regulatory proteins. The results show that the T----U conversion in both strands of the CRE palindromic sequence reduces its affinity for the CRE binding factor(s), suggesting the crucial role of the methyl group contributed by T for the correct recognition of the sequence. On the other hand, deamination of C in the CpG central dinucleotide (CpG----UpG) causes an increase of binding affinity which is further enhanced by the contemporary deamination in both strands. Then, both uracil misincorporation and cytosine deamination alter the binding to CRE sequence in vitro, suggesting that uracil, if not removed by uracil DNA-glycosylase, could be dangerous for cellular functions.
The purpose of this study was to investigate the mechanism of acquired cellular resistance to AZT, a mechanism that has been described as a potential source of drug resistance in addition to viral mutations. To study this phenomenon the kinetics parameters of thymidine kinase (TK) activity have been defined in CEMazt, a cell line previously selected for resistance to AZT, in comparison with the parental AZT-sensitive CEM cells. The results revealed that the value of the maximum velocity (Vmax) of TK activity for deoxythymidine (dThd) phosphorylation is decreased in CEMazt as compared to the wild-type cell line (Vmax: CEM = 105.3 +/- 17.6 nmol/hr/mg of protein; CEMazt = 0.3 +/- 0.02 nmol/hr/mg of protein; p < 0.001). Furthermore, the enzyme affinity versus dThd is lower in CEMazt as compared to CEM (Km: CEM = 0.9 +/- 0.2 microM; CEMazt = 1.6 +/- 0.2 microM; p < 0.01). Consequently phosphorylation efficiency, expressed as the ratio between Vmax and Km, is also reduced in CEMazt (p < 0.001). To evaluate whether such a phenomenon may also occur in patients, ex vivo experiments were carried out by using PBMCs from HIV-infected patients, treated or not treated with AZT. The results (mean values from 10 patients for each group) indicate that a prolonged treatment (> 6 months) with AZT may modify the enzymatic kinetics of TK, leading to a significant reduction in the phosphorylation efficiency of the enzyme (4.07 +/- 1.7 in treated patients versus 13.5 +/- 1.7 in untreated patients; p < 0.001). These results indicate that AZT treatment can also induce a defect in TK activity in patients.
This paper reports the measurement of both objective and subjective quality of life in samples of people either with intellectual disability or from the general adult population, drawn from Australia and Italy. Measures were made using the Comprehensive Quality of Life Scale. Generally, it was found that the scores for all groups were comparable. This finding is consistent with the provision of generally decent objective living conditions in both countries and subjective well-being homeostasis, wherein subjective quality of life is held within a predictable range. These results are discussed in the context of measurement difficulties imposed by the need for simple Likert scales and subjective data which are strongly negatively skewed.
We have recently demonstrated that mammalian uracil-DNA glycosylase activity is undetectable in adult neurons. On the basis of this finding we hypothesized that uracil, derived either from oxidative deamination of cytosine or misincorporation of dUMP in place of dTMP during DNA repair by the unique nuclear DNA polymerase present in adult neurons, DNA polymerase beta, might accumulate in neuronal DNA. Uracil residues could also arise in the herpes simplex 1 (HSV1) genome during latency in nerve cells. We therefore suggest a role for the virus encoded uracil-DNA glycosylase in HSV1 reactivation and in the first steps of DNA replication. We show here 1) that the viral DNA polymerase incorporates dUTP in place of dTTP with a comparable efficiency in vitro; 2) that virus specific DNA/protein interactions between the virus encoded origin binding protein and its target DNA sequence is altered by the presence of uracil residues in its central region TCGCA. Thus uracil, present in viral OriS or other key sequences could hamper the process leading to viral reactivation. Hence, HSV1 uracil-DNA glycosylase, dispensable in viral proliferation in tissue culture, could be essential in neurons for the "cleansing" of the viral genome of uracil residues before the start of replication.
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