Association of the polymorphism 12109g>A from the REN gene as a risk factor for preterm birth.

INTRODUCTION: Preterm birth is the most important cause of neonatal mortality and morbidity. It is a multifactorial disease with different etiologies, including genetic factors. Genetic variability is represented by single nucleotide polymorphisms (SNPs) in genes of proteins involved in the contractile activity. We determine the association between SNP 12109G> A in REN associated with preterm birth and premature rupture of membrane. MATERIALS AND METHODS: A study of cases ( N=112, 22-36 weeks of gestation; mean: 31, 95% confidence interval 30.7-32.2) and controls ( N=66; 38-40 weeks of gestation from the last menstrual period; mean: 39.8, 95% confidence interval 38.9-39.4) was performed. Genomic DNA was isolated in all patients from peripheral blood. The SNP 12109G> A ( Mbo I) in REN was typified by PCR-restriction fragment length polymorphism. RESULTS: A significant difference in the case group for the SNP 12109G>A was observed. The A allele was increased in women with preterm birth (81% cases vs. 15% control, p<0.0000004). There was also a significant difference between genotypes, mainly an excess of G/A heterozygotes in women with preterm birth (60% cases vs. 23% controls). The phenotype 12109G> A has odds ratio 6.62 (95% confidence interval 3.14-14.15), which means a high risk of preterm birth/premature rupture of membrane in presence of allele A, both in homozygotes and in heterozygotes. CONCLUSION: Allelic frequency of A of SNP 12109G>A was higher in women with preterm birth than in women with normal vaginal delivery and could be considered a risk factor.

[True hermaphroditism and sequences. Diagnostic implications regarding two cases]. / Hermafroditismo verdadero y secuencias del cromosoma Y. Implicaciones a propósito de dos casos.

True hermaphroditism is a disorder of sexual differentiation characterized by the presence of ovarian and testicular tissue in a person and it determines an increased risk for developing gonad cancer. Diagnostic and medical-surgical procedures with opportunity and successful in true hermaphroditism, facilitate the prevention of gonadoblastoma, besides contributing to solving social problem for assignation of sex. In this paper we present two cases with true hermaphroditism that had cytogenetic analysis and search for sequences of chromosome Y. Both patients, had a karyotype 46,XX and showed positive polymorphic regions in chromosome Y. The molecular detection of the Y chromosome is a non-invasive and fast procedure that allows explore cell lines by cytogenetic analysis. We conclude that this procedure is useful as it streamlines the management of disorders of sexual differentiation to identify individuals with higher risk to gonad cancer.

Linkage disequilibrium between IDUA kpnI-VNTR Haplotype in mexican patients with MPS-I

Background. The MPS-I is an autosomal recessive disorder caused by mutations in the IDUA gene that induce to a deficiency of glycosidase Ó-L-iduronidase that is required for degradation of heparan and dermatan sulfate. This disorder expresses a wide range of clinical symptoms. Methods. Kpnl (k) and VNTR (V) intragenic polymorphisms at the IDUA gene were studied in mestizo and Huichol Indian Mexican populations as well in 13 MPS-I patients. Data from Australian normal and MPS-I (2-4) individuals were also studied. Results. Genotypes for IDUA K and V sites in Mexicans were in agreement with hardy-Weinberg expectations, except for stie K in Huichols, Individually, allele frequency distributions were different (p< 0.05) in the two normal groups for the V site. K-V haplotype frequency distributions (HFDs) in these two normal groups were also different as compared with normal Australians. In Mexican MPS-I patients, HFD was different (p <0.05) with or MPS-I Australians. This can be taken as evidence of linkage disequilibrium between K-V polymorphism and MPS-I gene mutation(s) at the IDUA region. A similar finding was reported. However, disequilibrium in Mexicans was determined by haplotypes different from those in Australia. In Mexican MPS-I patients, haplotype K2-V1 is increased and K1-V3 decreades with respect to the Mexican mestizo (p < 0.05), while in Australians, MPS-I patients had an increase of haplotypes K2-V2 and K1-V2 with respect to expected frequency. Conclusions. The similar HFD between Mexican and australian MPS-I patients suggests a common genetic origin, that MPS-I mutations were introduced to Mexico by Spaniards, and that such mutations predate the dispersion between Mexican and Australian Caucasian ancestors. The differences in disequilibrium are explained rather by genetic drift