Mutations in the HBB gene are responsible for several serious hemoglobinopathies, such as sickle cell anemia and β-thalassemia. Sickle cell anemia is one of the most common monogenic diseases worldwide. Due to its prevalence, diverse strategies have been developed for a better understanding of its molecular mechanisms. In silico analysis has been increasingly used to investigate the genotype-phenotype relationship of many diseases, and the sequences of healthy individuals deposited in the 1,000 Genomes database appear to be an excellent tool for such analysis. The objective of this study is to analyze the variations in the HBB gene in the 1,000 Genomes database, to describe the mutation frequencies in the different population groups, and to investigate the pattern of pathogenicity. The computational tool SNPEFF was used to align the data from 2,504 samples of the 1,000 Genomes database with the HG19 genome reference. The pathogenicity of each amino acid change was investigated using the databases CLINVAR, dbSNP and HbVar and five different predictors. Twenty different mutations were found in 209 healthy individuals. The African group had the highest number of individuals with mutations, and the European group had the lowest number. Thus, it is concluded that approximately 8.3% of phenotypically healthy individuals from the 1,000 Genomes database have some mutation in the HBB gene. The frequency of mutated genes was estimated at 0.042, so that the expected frequency of being homozygous or compound heterozygous for these variants in the next generation is approximately 0.002. In total, 193 subjects had a non-synonymous mutation, which 186 (7.4%) have a deleterious mutation. Considering that the 1,000 Genomes database is representative of the world’s population, it can be estimated that fourteen out of every 10,000 individuals in the world will have a hemoglobinopathy in the next generation.
The most common hemoglobinopathies, viz, hemoglobins S and C, and α- and β-thalassemias, were investigated through the molecular screening of 116 subjects from the community of Saracura, comprising fugitive African slaves from farms of the municipality of Santarém, in the west of Pará State, Brazilian Amazon. The observed frequency of the HBB*S gene (0.9%) was significantly lower than that encountered in other Afro-derived communities in the region. Concomitantly, the absence of the HBB*C allele has been reported for most of the Afro-Amazonian communities thus far studied. As remnant populations of quilombos are generally small, the heterogeneous distribution of HBB * S and HBB * C alleles among them is probably due to genetic drift and/or founder effect. The observed frequency of 3.7 kb deletion in Saracura (8.5%) was consistent with the African origin of the population, with a certain degree of local differentiation and admixture with individuals of Caucasian ancestry, placed in evidence by the occurrence of - -(MED) deletion (1.2%), a common mutation in Mediterranean regions. As regards β-thalassemia, among the seven different mutations found in Saracura, three β o and two β + mutations were of Mediterranean origin, and two β + of African. Thus, only 28% of the local β-thalassemia mutations found in Saracura were of African origin.
To assess alpha+-thalassemia deletion alleles, beta-thalassemia mutations and haplotypes linked to the HBB*S cluster in a sample of 130 unrelated sickle cell anemia (SCA) patients (55% female) from Belém, Pará State, for their possible effects on the patients' survival. -alpha(3.7), -alpha(42), -alpha(20.5), and -(MED) alpha+-thalassemia deletion alleles were investigated using multiplex gap-PCR method. Characterization of beta-thalassemia mutations was made by direct genomic sequencing of the beta-globin gene amplified through polymerase chain reaction (PCR). Haplotypes were determined by analysis of six polymorphic restriction sites [(1) XmnI-5'gammaG, (2) HindIII-gammaG, (3) HindIII-gammaA, (4) HincII-psibeta, (5) HincII-3'psibeta, and (6) HinfI-5'beta] followed by restriction digestion and agarose gel electrophoresis. Twenty-one patients (16%) presented -alpha3.7 thalassemia. Sixteen of those (76%) were heterozygous (-alpha3.7/alphaalpha) and 5 (24%) were homozygous (-alpha3.7/-alpha3.7). -Alpha(4.2), -alpha(20.5) and -(MED) deletions were not found. Nine cases of sickle cell-beta thalassemia were found and four different beta-thal mutations were identified: beta(+) -88 (C>T), 3.8%; beta(+) codon 24 (T > A), 1.5%; beta(+) IVSI-110 (G > A), 0.7% and beta (IVSI-1 (G > A), 0.7%. No differences according to age were observed in -alpha(3.7) deletion, beta-thalassemia and HHB*S haplotypes distribution. Our results suggest that although alpha- and beta-thalassemia and betaS haplotypes may have modulating effect on clinical expression and hematological parameters of SCA, these genetic variables probably have little influence on the subjects' survival.
The distribution of genetic polymorphisms of chemokine receptors CCR5-D32, CCR2-64I and chemokine (SDF1-3'A) mutations were studied in 110 Human Immunodeficiency Virus type 1 (HIV-1) seropositive individuals (seropositive group) and 139 seronegative individuals (seronegative group) from the population of the northern Brazilian city of Belém which is the capital of the state of Pará in the Brazilian Amazon. The CCR5-D32 mutation was found in the two groups at similar frequencies, i.e. 2.2% for the seronegative group and 2.7% for the seropositive group. The frequencies of the SDF1-3'A mutation were 21.0% for the seronegative group and 15.4% for the seropositive group, and the CCR2-64I allele was found at frequencies of 12.5% for the seronegative group and 5.4% for the seropositive group. Genotype distributions were consistent with Hardy-Weinberg expectations in both groups, suggesting that none of the three mutations has a detectable selective effect. Difference in the allelic and genotypic frequencies was statistically significant for the CCR2 locus, the frequency in the seronegative group being twice that found in the seropositive group. This finding may indicate a protective effect of the CCR2-64I mutation in relation to HIV transmission. However, considering that the CCR2-64I mutation has been more strongly associated with a decreased risk for progression for AIDS than to the resistance to the HIV infection, this could reflect an aspect of population structure or a Type I error.
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