Role of nonsense-mediated decay and nonsense-associated altered splicing in the mRNA pattern of two new α-thalassemia mutants.

α-thalassemia is a common disease characterized mainly by deletion mutants. We identified two new α-thalassemia pointform mutants: α1cod22 GGC>GGT Gly>Gly creating a 5' splicing sequence and α1cod23 GAG>TAG Glu>stop. We performed qualitative and semi-quantitative analysis of the mRNA molecules, from carriers' blood, to define the molecular mechanisms giving rise to the thalassemia phenotype. In vitro analysis using α-globin constructs and cycloheximide was performed to evaluate if the mutants are substrates of nonsense-mediated mRNA decay (NMD). In the α1cod22 GGC>GGT the new 5' splicing site in exon 1 completely substitutes the normal one. We demonstrated the presence of mRNA decay as the abnormally spliced mRNA was consistent in the nucleus, partially degraded in the cytoplasm of cultured cells, but only 2.8% in the reticulocytes. The analysis of the αcod23 transcript showed an escape from the NMD as for the human ß-globin transcript with nonsense mutations in the first exon: the anomalous mRNA was reduced in the nucleus, followed by only a slight lowering from 32% to 27% of the normal α1 mRNA in the reticulocytes. In both the mutants we showed a moderate sensitivity to the NMD assay and we speculate the activation of other RNA surveillance mechanisms for the αcod22 mutant. No activation of cryptic splice sites was detected and no role could be assigned to the nonsense-associated altered splicing. Studies on transcripts from patient cells represent a very useful approach providing considerable information about the processes occuring in vivo.

α-Thalassemia associated with hb instability: a tale of two features. the case of Hb Rogliano or α1 Cod 108(G15)Thr→Asn and Hb Policoro or α2 Cod 124(H7)Ser→Pro.

We identified two new variants in the third exon of the α-globin gene in families from southern Italy: the Hb Rogliano, α1 cod108 ACC>AAC or α1[α108(G15)Thr→Asn] and the Hb Policoro, α2 cod124 TCC>CCC or α2[α124(H7)Ser→Pro]. The carriers showed mild α-thalassemia phenotype and abnormal hemoglobin stability features. These mutations occurred in the G and H helices of the α-globin both involved in the specific recognition of AHSP and ß1 chain. Molecular characterization of mRNA, globin chain analyses and molecular modelling studies were carried out to highlight the mechanisms causing the α-thalassemia phenotype. The results demonstrated that the α-thalassemia defect associated with the two Hb variants originated by different defects. Hb Rogliano showed an intrinsic instability of the tetramer due to anomalous intra- and inter-chain interactions suggesting that the variant chain is normally synthesized and complexed with AHSP but rapidly degraded because it is unable to form the α1ß1 dimers. On the contrary in the case of Hb Policoro two different molecular mechanisms were shown: the reduction of the variant mRNA level by an unclear mechanism and the protein instability due to impairment of AHSP interaction. These data highlighted that multiple approaches, including mRNA quantification, are needed to properly identify the mechanisms leading to the α-thalassemia defect. Elucidation of the specific mechanism leads to the definition of a given phenotype providing important guidance for the diagnosis of unstable variants.

Lack of association between estrogen receptor 1 gene polymorphisms and multiple sclerosis in southern Italy in humans.

Estrogen receptor 1 gene polymorphisms (ESR1) have been found to be associated with multiple sclerosis (MS) in both Japanese and Finnish populations. We investigated the association between ESR1 polymorphisms (PvuII and XbaI) and MS in a study of 132 MS patients and 129 controls from the same geographic background (southern Italy). Allelic and genotypic frequencies were not different between MS patients and population controls for either the PvuII or XbaI polymorphism. This result suggests that the association between a given disease and a genomic characteristic must be confirmed by separate investigations in different populations.