Chronic hepatitis B in children carried out of the hemochromatosis gene HFE

Purpose: to establish the frequency and clinical significance of mutant variations of the HFE gene polymorphism in chronic hepatitis B (CHB) in children with iron overload syndrome (IOS).Materials and methods: 60 children with chronic hepatitis B with iron overload syndrome (IOS) were examined. When distributing children into groups, we took into account the criteria we developed for assessing the degree of life expectancy in children with CHB: CST>0.5 – mild degree of life expectancy (43,3% of children), CST˃0.5 – mild degree of life expectancy (43,3% of children), CST˂0,5 – moderate severity of life expectancy (31,7% of children) and CST˂0,2 – severe degree of SPL (25,0%). Virological verification of HBV was performed by ELISA and PCR. Using PCR Real Time and molecular genetic analysis, HFE gene C282Y, H63D, S65C mutations were detected from amplified DNA using the PRONTO Hemochromatosis reagent kit (Israel). The transferrin saturation coefficient (CST) was calculated using the formula CST = sTfR / log10.Ft. Results:Results: The study of the hemochromatosis gene HFE showed that the overwhelming majority (84,0%) of children with CHB with IOS were carriers of heterozygous, phenotypically different, mutant types. And only 16,0% of sick children were homozites of the wild (normal) HFE gene. Analysis of the phenotypic polymorphism of the hemochromatosis gene HFE revealed the presence of three point heterozygous mutations: H63D, S65C and combined variations in H63D / S65C, the latter of which is associated with severe forms of CHB and severe IOS.Conclusion. Children with CHB with IOS are characterized by a high incidence of heterozygous mutations in the HFE gene, the phenotypic manifestations of which were S65C, H63D, H63D / S65C. The comparability of the heterozygous combined mutation H63D / S65C with severe forms of CHB and a severe degree of IOS gives grounds to consider this phenotype of the HFE gene as a factor in the progression of the disease.

Frequency of hereditary hemochromatosis gene mutations and their effects on iron overload among beta thalassemia patients of Chennai residents

<abstract> <p>Hereditary Hemochromatosis (HH) is an autosomal recessive disorder of iron metabolism associated with <italic>HFE</italic> gene mutations, characterized by increased iron absorption and accumulation leading to multi-organ damage caused by iron overload toxicity. Beta thalassemia is caused by a mutation in the human beta globin gene. Imbalanced production of globin chain results in beta thalassemia, where the unpaired alpha chains precipitates in red cell precursors leading to ineffective erythropoiesis and reduced RBC survival. Both HH and beta thalassemia condition results in rapid accumulation of iron lead to iron overload in tissues and organs. The study aims to analyze the frequency of <italic>HFE</italic> variants among beta thalassemia cases and their effect on iron overload. The frequency of three <italic>HFE</italic> variants C282Y, H63D, S65C was analyzed by PCR RFLP method among Beta Thalassemia Trait (BTT) (n = 203), Beta Thalassemia Major (BTM) (n = 19) and age and sex-matched control samples (n = 200). The present study furnished allele frequency of H63D variant in BTT, BTM and controls 8.13, 15.8 and 6% respectively. Ten out of 33 heterozygous H63D variants exhibited iron overload with higher ferritin levels indicating <italic>HFE</italic> variant might aggravate the absorption of iron. The C282Y variant was present in heterozygous state in 1 case among beta thalassemia carriers. The C282Y variant was absent among BTM and control cases. S65C <italic>HFE</italic> variant was absent in the present study. Iron overload was completely absent in the control cases among all three <italic>HFE</italic> genotypes. Hence it is inferred from the present investigation, analysis of <italic>HFE</italic> genes and iron status will remarkably help to reason out the probable reason behind the iron status and support in proper management of beta thalassemia cases.</p> </abstract>

Cytokine and Gene Expression Profiling in Patients with HFE-Associated Hereditary Hemochromatosis according to Genetic Profile

Background: Hemochromatosis gene (HFE)-associated hereditary hemochromatosis (HH) is characterized by downregulation of hepcidin synthesis, leading to increased intestinal iron absorption. Objectives: The objectives were to characterize and elucidate a possible association between gene expression profile, hepcidin levels, disease severity, and markers of inflammation in HFE-associated HH patients. Methods: Thirty-nine HFE-associated HH patients were recruited and assigned to 2 groups according to genetic profile: C282Y homozygotes in 1 group and patients with H63D, as homozygote or in combination with C282Y, in the other group. Eleven healthy first-time blood donors were recruited as controls. Gene expression was characterized from peripheral blood cells, and inflammatory cytokines and hepcidin-25 isoform were quantified in serum. Biochemical disease characteristics were recorded. Results: Elevated levels of interleukin 8 were observed in a significant higher proportion of patients than controls. In addition, compared to controls, gene expression of ζ-globin was significantly increased among C282Y homozygote patients, while gene expression of matrix metalloproteinase 8, and other neutrophil-secreted proteins, was significantly upregulated in patients with H63D. Conclusion: Different disease signatures may characterize HH patients according to their HFE genetic profile. Studies on larger populations, including analyses at protein level, are necessary to confirm these findings.

Failure to detect synergy between variants in transferrin and hemochromatosis and Alzheimer’s disease in large cohort

Alzheimer’s disease (AD) is the most common cause of dementia and, despite decades of effort, there is no effective treatment. In the last decade, many association studies have identified genetic markers that are associated with AD status. Two of these studies suggest that an epistatic interaction between variants rs1049296 in the Transferrin (TF) gene and rs1800562 in the Homeostatic Iron Regulator (HFE) gene, commonly known as “the hemochromatosis gene”, is in genetic association with AD. TF and HFE are involved in the transport and regulation of iron in the brain, and disrupting these processes exacerbates AD pathology through increased neurodegeneration and oxidative stress. However, by using a significantly larger dataset from the Alzheimer’s Disease Genetics Consortium (ADGC), we fail to detect an association between TF rs1049296 or HFE rs1800562 with AD risk (TF rs1049296 p=0.38 and HFE rs1800562 p=0.40). In addition, logistic regression with an interaction term and a Synergy Factor Analysis (SFA) both failed to detect epistasis between TF rs1049296 and HFE rs1800562 (SF=0.94; p=0.48) in AD cases. Each of these analyses had sufficient statistical power (Power>0.99), suggesting that previously-reported associations may be the result of more complex epistatic interactions, genetic heterogeneity, or were false-positive associations due to limited sample sizes.

THE CONTRIBUTION OF CURRENT LABORATORY METHODS IN CONDUCTING BIOLOGICAL MONITORING OF LEAD EXPOSURE TO THE WORKERS OF A LEAD RECYCLING PLANT

To assess the informative value of the expansion of the laboratory tests complex in conducting biological monitoring of lead exposure to the organism, in workers of a lead recycling plant there were determined iron and ferritin levels for the analysis of the association of iron metabolism disorders with chronic exposure to lead, polymorphisms of the hemochromatosis gene as a risk factor for increased lead absorption, erythrocytes and reticulocytes parameters for the detection of early signs of toxic effects of lead on erythropoiesis. There was determined an importance of an estimation of an iron metabolism in workers exposed to lead for detecting risk groups of conditions connected with an iron overload. To assess the early signs of the toxic effect of lead on erythropoiesis, it is informative not only to determine the amount of reticulocytes, but also to estimate the ratio of reticulocyte fractions. The determination of the polymorphism of the hemochromatosis gene can be used to assess the individual risk of developing lead poisoning.

Porphyria Cutanea Tarda Presenting with Scleroderma, Ichthyosis, Alopecia, and Vitiligo

Porphyria cutanea tarda (PCT) is a cutaneous porphyria that presents later in life with cutaneous findings in sun-exposed sites. We report a complex case of PCT in a 67-year-old woman with an unusual constellation of cutaneous findings: scleroderma, acquired ichthyosis, and nonscarring alopecia. Possible triggers for her PCT include tamoxifen treatment for breast cancer and carrier status of the hemochromatosis gene. High-dose chloroquine was used to successfully achieve clinical remission and normalize her uroporphyrins. While on chloroquine she developed extensive classic vitiligo. It is not clear if this is another feature of her complex and unusual PCT, or a consequence of her antimalarial therapy.