Most adults affected with HFE hereditary hemochromatosis (HH type 1, MIMmusical sharp 235200) are homozygous for the p.Cys282Tyr mutation in HFE (NC_000006.10, region 26195427 to 26205038). The aim of this study was to investigate the molecular basis of iron overload in a patient presenting with severe clinical HH with one c.845G>A (p.Cys282Tyr) allele only. Molecular and pedigree studies demonstrated the presence of the c.845G>A (p.Cys282Tyr) mutation in one allele whereas the other carried the c.187C>G (p.His63Asp) mutation plus a new c.128G>A (p.Gly43Asp) substitution in cis. A molecular modeling study of the p.[Gly43Asp;His63Asp] and p.His63Asp variants versus the wild type was carried out using molecular dynamics (MD) simulation in presence of implicit solvent. We found that the c.187C>G (p.His63Asp) mutation does not introduce any major change in the 1- domains of HFE whereas the c.128G>A (p.Gly43Asp) substitution is responsible for a modification of the dynamics and the structure of the Gln40-Ser45 loop, a critical region for HFE-TfR1 interaction thus impairing HFE-TfR1 normal contact. We conclude that the occurrence of complex alleles may be an alternative explanation for the variability of the phenotype in individuals who are compound heterozygous for c.[187C>G]+[845G>A] (p.[His63Asp]+[Cys282Tyr]).
We report the first identification of a point mutation located within the promoter region of the beta-globin gene at position -83 (G>A) and associated with the common heterozygous deletional alpha-thalassemia (alpha-thal) (-alpha(3.7)/alphaalpha). The patient was an adult male from Gabon belonging to the Obamba sub ethnic group, who was referred to our clinics for a mild microcytic anemia with a Hb A(2) level at the upper limit of the normal value (3.5%). This observation is a new example of alpha- and beta-thal co-inheritance with a normal Hb A(2) level, and illustrates a potential source of pitfall in screening for alpha- and beta-thal carriers.
We have identified and characterized a novel beta-thalassemic mutation in a North African adult. The molecular defect consists of a two nucleotide (nt) deletion in the beta-globin gene at codon 76 [beta76 (-GC), c.229-230delGC]. This frameshift mutation generates a TGA stop codon at position 89. The carrier presented with mild microcytic anemia (Hb 12.8 g/dL, MCV 60 fL), no detectable Hb F, an elevated Hb A2 level (5.5%) with no other mutation in the beta-globin gene and none of the more common known deletions in the alpha-globin cluster. No abnormal hemoglobin (Hb) was present in routine electrophoresis or in high performance liquid chromatography (HPLC) analyses. Pathologic inclusions were absent in both mature red cells and in reticulocytes. This observation reinforces the hypothesis that nonsense and frameshift mutations that result in a premature stop codon in exon 1 or exon 2 inherited in the heterozygous state do not generate dominant beta-thalassemia (thal). This is the first example of a premature stop codon at position 89.
A large body of data suggests that the linker histones family (H1) affects gene expression. Investigation of the linker histones role is then of a major interest in cell cycle studies with implications in gene therapy. Indeed, it has been shown that in most tissues a switch of histone subtypes occurs when the cells cease to divide. To investigate linker histone role in gene or transgene expression, an antibody against subtypes of H1 would be useful for immunoprecipitation experiments and further assays measuring H1subtypes-DNA interactions in living cells. In order to produce an antibody against the H1e subtype of linker histones, two synthetic peptides derived from two regions of the H1e mouse histone protein were examined for their potential, [as keyhole limpet hemocyanin (KLH) conjugates] to elicit polyclonal anti-H1e antibodies in New Zealand white rabbits. Selection of the peptide sequences was based on amino acid differences within the different classes of histones and between mice and rabbit histones as well. The evaluation of their potential immunogenic properties was based on examination of peptide hydropathy using predicting algorithms. Immunoglobulins (IgG) obtained from immunized and nonimmunized rabbits were tested using enzyme-linked immunosorbent assay (ELISA) procedures, Western immunoblot, and immunofluorescence experiments. Results showed that the selected synthetic peptides gave rise to a high-titer polyclonal antibody able to recognize the H1e histone under various conditions. This polyclonal antibody did not cross-react with other histones. To our knowledge, this is the first antibody produced against the mouse H1e linker histone.
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