A woman of 60yr presented with exhaustion and breathlessness (Hb 89g/L, MCV 102fL, MCH 36.9pg), a palpable spleen (15cm), dyserythropoiesis, sideroblastic change in her bone marrow and a normal karyotype. She had been investigated elsewhere at 27yr for persistent red cell macrocytosis (Hb 126g/L, MCV 97fL) with occasional hypochromic cells, disordered erythropoiesis and obvious ring sideroblasts. The only clinical history of note was the diagnosis and treatment for thyrotoxicosis (Hb 101g/L) at 57yr. Her anaemia was refractory to 3 months 100mg/tds pyridoxine and her erythroid-specific, ALA Synthase (ALAS2) gene was investigated by sequence analysis. The small population of microcytic, hypochromic red cells persisted and erythrocyte protoporphyrin levels were normal. She was found to be a compound heterozygote for the previously-described −206G in the promoter and a novel 3bp deletion (c.1603_1605 del) in exon 11, predicting Lys535del, not present in 200 control alleles from South Wales. Both daughter and son inherited −206G but not the 3bp deletion and their FBCs revealed normal mean red cell indices, normal RDW%, no detectable hypochromic red cells and normal erythrocyte protoporphyrin content. X-chromosome inactivation (HUMARA) was skewed in the proband but fairly balanced in the daughter (XCI 0.90 and 0.38 respectively). We hypothesised that most of the proband’s erythropoiesis was ineffective due to predominant expression within the bone marrow of the Lys535del allele. To test this, peripheral-blood non-adherent MNC BFU-E were cultured in serum-free medium containing 2Units/ml rhuEpo, 1.9ng/ml rhuIL-3 and 5ng/ml rhuSCF with or without prior expansion for 3d in the absence of rhuEpo. cDNA was prepared from peripheral blood buffy coat and from 10d and 14d erythroid bursts, amplified and subsequently sequenced using ALAS2-specific primers straddling the 3bp deletion. Peripheral blood reticulocytes expressed overwhelmingly the wild type sequence. At 10d BFUE culture, none of the colonies was haemoglobinising; non-myeloid colonies(165/4ml) were harvested and these cells expressed mainly the sequence containing the 3bp deletion with only a trace of wild-type sequence. On day 14 two types of erythroid bursts were observed: a small percentage of haemoglobinised bursts with normal morphology (N=20; 9%) and a majority of poorly haemoglobinised bursts showing signs of degeneration (N=199). The two types of bursts were harvested separately for examination of ALAS2 expression. The haemoglobinised bursts expressed only the wild-type sequence and the poorly-haemoglobinised bursts only the sequence containing the 3bp deletion. This observation was confirmed 3 days later on BFU-E from the liquid expansion culture. Tissue culture thus confirmed both the X-linked nature of the proband’s anaemia and the hypothesis that the ALAS2 allele containing the novel Lys535del was the most active and linked directly to poor haemoglobinisation in culture and ineffective erythropoiesis ‘in vivo’. The normal red cell indices of the son led us to investigate the −206G prevalence amongst 100 South Wales alleles demonstrating a gene frequency of 0.05. The role this common polymorphism plays in the proband’s anaemia remains uncertain.
No abstract
Objective: To describe the analysis of over 5300 patient samples for the HFE genotype. Methods: Blood samples received from hospitals in England, Wales and Ireland were analysed with a single, multiplex PCR using heteroduplex generators for the C282Y, H63D and S65C variants of the HFE gene. PCR products labelled with fluorescent dyes were analysed by capillary electrophoresis. Genotype frequencies were analysed according to the reasons given for testing. Results: Analysis of 400 samples sent in duplicate revealed one error that was associated with reporting rather than the methodology. Of 5327 samples received, 1122 were for family testing, 2470 for diagnostic testing and in 1735 cases no reason was given. Overall, homozygosity for C282Y was found in 14% of samples received for family testing and in 16% of the remaining samples. Clinical indications such as ''liver disease'' were of little predictive value for homozygosity for C282Y, but this increased if a raised serum ferritin concentration or transferrin saturation was indicated. When the diagnosis was iron overload, 39% of subjects tested were homozygous for C282Y. Compound heterozygosity (C282Y/H63D) was more frequent than in the general population but the frequency was not further increased in subjects for whom there was a diagnosis of iron overload. The frequencies of heterozygosity for H63D or S65C and homozygosity for H63D were not significantly increased in any group compared with the general population frequency.Conclusion: These results demonstrate the reliability of the methodology and confirm the difficulty of identifying genetic haemochromatosis purely on the basis of clinical suspicion that haemochromatosis may be responsible for liver disease, diabetes or arthritis. 2 Once diagnosed, HH is readily treatable by the means of venesection and, provided complications have not arisen, life expectancy is not reduced.3-5 The allele frequency of HFE C282Y in people of northern European origin in the UK is about 8% with about one in seven people being heterozygous, and one in 150 being homozygous for the C282Y allele. 6 The frequency, availability of a genetic test and an effective treatment have led to pressure to implement population screening 7 although there were always concerns about the clinical penetrance of HFE mutations. 8 These concerns were justified as it is now clear that although most men, and about 50% of women, who are homozygous for C282Y will show evidence of iron accumulation (a raised transferrin saturation) the clinical penetrance of homozygosity for C282Y is low.9-11
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