Haemochromatosis screening in 120 patients complaining with persistant fatigue

AIM: Chronic fatigue is the more frequent symptom identified in the course of hereditary haemochromatosis. A screening for this disorder was carried out in 120 primary care patients consulting for unexplained chronic fatigue. SUBJECTS AND METHODS: Transferrin saturation and serum ferritin were determined in all patients. If transferrin saturation was >or= 45% and serum ferritin >or= 300 microg/l, HFE1 genotyping for mutations C282Y and H63D was completed. RESULTS: One hundred and twenty patients were recruited, 19-86 years old, including 62 males and 58 females. 45 patients (38%) presented with serum ferritin >or= 300 microg/l. Thirty two patients (27%) presented with transferrin saturation >or= 45%. Twenty two patients (18%) presented with these two pathological values. Four C282Y/H63D compound heterozygous, one H63D/H63D homozygous, and eight simplex heterozygous (6 H63D and 2 C282Y) genotypes were found. Patients with serum ferritin >or= 300 microg/l were predominantly male (89%), older (57 year) and plethoric (BMI: 26.4) corresponding mainly to dysmetabolic hyperferritinemia. CONCLUSION: None of these 120 patients consulting for unexplained chronic fatigue was found with hereditary haemochromatosis. Therefore observed prevalence is 0, with upper limit of 95% confidence interval at 2.5%. But the high prevalence (38%) of serum ferritin >or= 300 microg/l must be emphasized, corresponding usually to dysmetabolic hyperferritinemia.     

Could iron deposits in hepatocytes serve as a prognostic marker of HFE gene mutations?

BACKGROUND/AIMS: The diagnosis of hereditary hemochromatosis (HH) is based on qualitative measurement of tissue iron concentration and genetic tests. The aim of this study was to evaluate the correlation between the presence of iron deposits in the liver and the HFE gene mutations in patients with chronic liver diseases (CLD). METHODOLOGY: The 182 patients, age range 18-71 years, were hospitalized in Gdansk because of CLD. The C282Y, H63D and S65C HFE mutations were screened by PCR-RFLP analysis. Liver function tests, serological examinations for viral hepatitis, serum iron and ferritin concentration and semiquantitative assessment of liver iron were done in all subjects. Patients were divided into Group A without iron deposits in the liver, and Group B with deposits. The most frequent etiology of CLD was chronic hepatitis C. RESULTS: Biochemical parameters indicating iron storage and ALT activity were significantly higher in Group B. Either typical for diagnosis HH homozygotes C282Y/C282Y and combined heterozygotes C282Y/H63D or carriers of other HFE gene mutations were found significantly more frequently in Group B. CONCLUSIONS: The finding of iron deposits in routinely obtained liver specimen correlates with occurrence of the different HFE gene mutations.     

Nonalcoholic steatohepatitis in Asian Indians is neither associated with iron overload nor with HFE gene mutations

AIM: The pathogenesis of occurrence of liver inflammation and fibrosis in patients with nonalcoholic steatohepatitis (NASH) is not completely understood. Other than insulin resistance, iron abnormalities have been thought to be one of the triggering factors. Therefore, our aim was to study the role of iron abnormalities and HFE gene mutations in patients with NASH. METHODS: Thirty-one patients of NASH diagnosed on the basis of clinical examination biochemistry, ultrasonography and liver biopsy (n = 14) were included in the study. Serum iron parameters (n = 23) (iron, ferritin, total iron-binding capacity and transferrin saturation), Perls' iron staining on liver biopsies (n = 14) and HFE gene mutations (C282Y and H63D) (n = 16) were studied in these patients. The association between iron staining, necroinflammatory activity and fibrosis stage on liver biopsies was also determined. RESULTS: Elevated serum iron, ferritin and transferrin saturation above 55% were observed in 4.3% of patients. On histology, 71% of the patients had negative iron staining, 21.4% had 1+ staining, 7.2% had 2+ staining and none had 3+ or 4+ staining. There was no association between the degree of iron staining and necroinflammatory activity (P=0.55) and fibrosis stage (P= 0.09) on histology. None of the patients had C282Y HFE gene mutation and four patients (25%) were found to be heterozygotes for H63D gene mutation. CONCLUSION: Our study does not favor iron overload and HFE gene mutations as major factors in the pathogenesis of NASH in Asian Indians.     

Liver diseases in the hemochromatosis and iron overload screening study.

BACKGROUND AND AIMS: The Hemochromatosis and Iron Overload Screening (HEIRS) Study screened 101,168 primary care participants for iron overload with serum transferrin saturation (TS), ferritin, and C282Y and H63D mutations of the HFE gene. METHODS: All C282Y homozygotes and participants with an increased TS (>45% women, >50% men) and serum ferritin level (> 200 microg/L women, >300 microg/L men) were recalled for a clinical history and physical examination, and blood tests including alanine transaminase (ALT) and aspartate transaminase levels. Hepatitis B surface antigen and anti-hepatitis C virus were measured if the ALT level was increased (>31 IU/L in women, >40 IU/L in men). RESULTS: In the group of participants selected to return for clinical examination because of increased TS and ferritin levels, ALT increases and anti-hepatitis C virus were found in 95 of 284 (33%) African Americans, 50 of 466 (11%) Asian and Pacific Islanders, 21 of 120 (18%) Hispanics, and 40 of 477 (8.4%) Caucasians. ALT increases and hepatitis B surface antigen were detected in 24 of 466 (5%) Asian and Pacific Islanders, 10 of 284 (3.5%) African Americans, 3 of 120 (2.5%) Hispanics, and 2 of 477 (.42%) Caucasians. Of 86 liver biopsy specimens obtained for clinical purposes, 53 were reviewed by a single study pathologist. Liver fibrosis (stage 3 or 4) was present in 2 of 11 (18.2%) C282Y homozygotes that underwent central review and 2 of 302 (.66%) C282Y homozygotes attending the clinical examination. CONCLUSIONS: Screening for iron overload with ferritin and TS detects persons with viral hepatitis and other types of liver disease. A minimum of .66% C282Y homozygotes have liver fibrosis.     

Increased incidence of HFE C282Y mutations in patients with iron overload and hepatocellular carcinoma developed in non-cirrhotic liver

BACKGROUND/AIMS: Histological and biochemical iron overload has been reported in non-tumoral liver of most patients presenting an hepatocellular carcinoma (HCC) developed in non-cirrhotic liver (NCL). The aim of our study was to investigate HFE mutations in patients with HCC in NCL. METHODS: Thirty-five patients with HCC in NCL were included either retrospectively or prospectively. Clinical data, iron and viral status, and HFE gene mutations were compared between groups with (I+, n = 19) or without histological iron overload (I-, n = 16). RESULTS: Twenty per cent of patients were HBV or HCV positive. Fifty-four per cent had hepatocytic iron overload at histology. Mean hepatic iron concentration was 100.2 +/- 14.6 micromol/g in I+ versus 23.2 +/- 2.1 micromol/g in I- (p<0.001). Among the 19 I+ patients, eight mutations were found: two C282Y/C282Y, three C282Y/WT, two C282Y/H63D and one H63D/H63D. None of these mutations was found in the I- group. There was no significant difference concerning the H63D heterozygous mutation between I+ or I- patients. CONCLUSIONS: In patients with HCC in NCL, HBV and HCV markers are rare (20%), and mild iron overload is frequent (54%). In patients with HCC in NCL and iron overload, C282Y mutations are frequent (36.8% of cases) and significantly increased (p<0.009) compared to HCC in NCL without iron overload; these mutations are mostly heterozygous. H63D heterozygosity is not associated with liver iron overload. Because of the small size of the series, HFE C282Y mutation should be investigated on a larger scale in patients with HCC in NCL with iron overload in order to confirm this association.     

Hereditary haemochromatosis: diagnosis and management in the gene era

Hereditary haemochromatosis is a common inherited disorder of iron metabolism in Caucasian populations. Two mutations in the HFE gene are strongly associated with hereditary haemochromatosis. One of these mutations (Cys282-->Tyr; C282Y) is found homozygous in 90-95% of subjects with typical hereditary haemochromatosis. A second mutation (His63-->Asp; H63D) has also been identified but is not associated with the same degree of iron overload as with the C282Y mutation. About 20% of subjects who are heterozygous for both mutations (C282Y, H63D-compound heterozygotes) can express typical hereditary haemochromatosis. A large number of patients with early disease are asymptomatic, and prompt diagnosis and treatment can result in normal life expectancy. The diagnosis can readily be confirmed by serum iron studies and genetic testing. For C282Y homozygotes or compound heterozygotes diagnosed under the age of 40 years and with no biochemical or clinical evidence of liver disease, phlebotomy therapy can be initiated without the need for liver biopsy. Liver biopsy should still be considered in all other patients with iron overload. Screening of first degree relatives should now be based on genotype assessment and measurement of serum iron parameters in order to determine phenotypic expression of the disease.     

HFE genotype in patients with hemochromatosis and other liver diseases.

BACKGROUND: Hereditary hemochromatosis is a common inherited disorder of iron metabolism. The gene HFE, which contains two missense mutations (C282Y and H63D), was recently identified. OBJECTIVE: To determine how HFE genotyping for the C282Y and H63D mutations contributes to the diagnosis of hemochromatosis and to determine the prevalence of HFE mutations in a group of patients with liver disease. DESIGN: Cross-sectional study. SETTING: Academic medical center. PATIENTS: 66 patients with hereditary hemochromatosis and 132 referred patients with other liver diseases. MEASUREMENTS: At initial diagnosis, fasting transferrin saturation, ferritin level, routine chemistry panel, and complete blood count were determined. Percutaneous liver biopsy was done on all patients for histologic analysis and measurement of hepatic iron concentration and hepatic iron index. HFE genotyping for the C282Y and H63D mutations was done on all patients by using genomic DNA samples. RESULTS: Of the 66 patients with hemochromatosis diagnosed on the basis of serum iron studies and liver biopsy findings, 60 (91%) were C282Y homozygotes, 2 (3%) were compound heterozygotes, 1 (1.5%) was a C282Y heterozygote, 2 (3%) were H63D heterozygotes, and 1 (1.5%) was negative for both mutations. Of the 132 patients with liver disease, 6 (5%) were C282Y homozygotes, 8 (6%) were compound heterozygotes, 6 (5%) were C282Y heterozygotes, 5 (4%) were H63D homozygotes, 20 (15%) were H63D heterozygotes, and 87 (66%) were negative for both mutations. All 66 C282Y homozygotes had an elevated hepatic iron concentration, and 65 of the 66 patients (98%) had a transferrin saturation of at least 45%. Ten of the 66 patients (15% [95% CI, 7.5% to 26%]) had a hepatic iron index less than 1.9 mmol/kg per year; hemochromatosis was not suspected in 6 of the 10 patients before genotyping. Cirrhosis or substantial hepatic fibrosis was not seen in any (0% [CI, 0% to 18%]) of the 19 patients younger than 40 years of age who were homozygous for the C282Y mutation. CONCLUSIONS: All 66 patients homozygous for the C282Y mutation of HFE had an elevated hepatic iron concentration, but approximately 15% of these patients did not meet a previous diagnostic criterion for hemochromatosis (hepatic iron index > 1.9 mmol/kg per year). Determination of HFE genotype is clinically useful in patients with liver disease and suspected iron overload and may lead to identification of otherwise unsuspected C282Y homozygotes.     

C282Y and H63D mutations in the HFE gene have no effect on iron overload disorders in Japan

OBJECTIVE: The gene responsible for hereditary hemochromatosis close to the human leukocyte antigen A locus was previously identified and designated as HFE. This study was performed to evaluate the clinical significance of two mutations, C282Y and H63D of HFE, in Japanese patients with hepatic iron overload. PATIENTS AND METHODS: We examined C282Y and H63D in 11 patients with primary hemochromatosis, 94 patients with chronic hepatitis C, 54 patients with miscellaneous liver diseases, and 151 healthy volunteers. The HFE gene region of DNA samples extracted from peripheral leukocytes was amplified by polymerase chain reaction. Restriction enzyme analysis was performed using SnaBI for C282Y and BclI for H63D. Direct sequence analysis was then performed when products suggested the presence of a mutation. RESULTS: All the subjects studied were free from C282Y. None of the patients with hemochromatosis had H63D. One patient with chronic hepatitis C was homozygous, and 4 patients were heterozygous for H63D. Two patients with alcoholic liver disease were heterozygous for H63D. The prevalence of chromosomes with H63D was 6/188 (3.2%) in patients with chronic hepatitis C, 2/108 (1.9%) in patients with miscellaneous liver diseases, and 8/302 (2.6%) in healthy volunteers. These differences were not significant. CONCLUSION: Our results suggested that neither C282Y nor H63D in HFE affect Japanese patients with hemochromatosis or chronic hepatitis C.     

Significance of H63D homozygosity in a Basque population with hemochromatosis

Background: The significance of H63D homozygosity remains uncertain, although it is associated with a tendency for patients to develop iron overload. Aims: To study the prevalence of homozygotic H63D mutation in patients with phenotypic hemochromatosis (PH) and to compare the results with those of the general population and with patients with porphyria cutanea tarda (PCT) in the Basque Country, Spain. A secondary aim was to evaluate the differences in phenotypic expression and liver injury according to different genotypes in the PH cohort. Methods: Mutations of the HFE gene were obtained by polymerase chain reaction (PCR). Forty consecutive patients diagnosed with PH, 116 controls and 54 patients with PCT were included in the study. We performed liver biopsies, measured liver iron concentration (LIC), by atomic spectrophotometry, serum ferritin and transferrin saturation, and compared the histology according to the genotype. Results: The H63D homozygote mutation was identified in 7.76% of the control group, in 7.50% of the PH group, and in 11.11% of patients with PCT (P > 0.05). The C282Y/C282Y mutation was present in 50% of patients with PH, and LIC was identified in 15/20. The LIC in C282Y/C282Y patients was higher than in H63D/H63D patients (P = 0.26), while H63D homozygosis caused greater iron overload in PH patients than other genotypes. All the C282Y/C282Y genotype patients had elevated serum ferritin and transferrin saturation. The H63D homozygotes had high ferritin, but two out of three had normal transferrin saturation. Six of the eight patients with high‐grade fibrosis and genetic study results were found to be C282Y/C282Y. Conclusions: The prevalence of H63D mutation in patients with PH in our region does not differ from that of the general Basque population.     

Testing for haemochromatosis in a liver clinic population: relationship between ethnic origin, HFE gene mutations, liver histology and serum iron markers

OBJECTIVE : To identify the most appropriate testing strategy for genetic haemochromatosis in a liver clinic population by determining the ethnic distribution of the HFE mutations and the relationship between serum iron markers, hepatic siderosis and HFE genotype. DESIGN AND SETTING : Observational study of 427 patients being investigated for abnormal liver function tests between 1997 and 2000 attending a liver clinic at a teaching district general hospital in south London, UK. METHODS : All patients were tested for H63D and C282Y gene mutations, and the ethnic origin was determined. Data were available for most patients for non-fasting serum iron, ferritin and transferrin saturation on presentation and fibrosis and siderosis scores from liver biopsy. RESULTS : The C282Y mutation was not detected in any patients of Asian or Afro-Caribbean origin but was found almost exclusively in northern Europeans, especially those classified as Celtic, one in seven of whom were heterozygous for this mutation. Three per cent of all the patients tested were C282Y homozygotes. The H63D mutation was distributed more widely. An elevated serum transferrin saturation was both a more sensitive and a more specific test for genetic haemochromatosis than either serum ferritin or iron. Significantly raised mean siderosis scores were found on liver biopsy in C282Y homozygote and C282Y/H63D compound heterozygote groups but not in wild-type, simple heterozygote, or H63D homozygote groups. Forty-five per cent of the C282Y homozygotes detected already had cirrhosis. CONCLUSIONS : In a multiracial liver clinic population, previously undiagnosed C282Y homozygosity was found to be common (3% in our study) but restricted to those of northern European heritage, particularly those with Celtic ancestry. A serum transferrin saturation proved a better initial test to select patients for genotyping than serum iron or ferritin. Laboratory costs can be minimized with no loss of diagnostic sensitivity by selecting patients for genotyping based on northern European ethnic origin and raised serum transferrin saturation.     

The effect of the metabolic syndrome, hepatic steatosis and steatohepatitis on liver fibrosis in hereditary hemochromatosis.

OBJECTIVES: The variability in phenotypic expression of hereditary hemochromatosis (HH) is not fully understood. We sought to examine whether the metabolic syndrome, hepatic steatosis or steatohepatitis influenced hepatic fibrosis among patients with HH and iron overload. METHODS: We identified 86 patients with C282Y/C282Y or C282Y/H63D HH and iron overload (hepatic iron concentration (HIC) >2,200 microg/g for males, >1,600 microg/g for females). Features of the metabolic syndrome were assessed at the time of liver biopsy. Biopsies were scored by a blinded pathologist. Significant fibrosis was defined as peri-portal fibrosis or greater. RESULTS: The mean (+/-SD) age of the study population was 53+/-12 years and 68 (79%) were male. The median (range) values of ferritin and HIC were 1,125 (253-9,530) microg/l and 9963 (1926-50 887) microg/g, respectively. The metabolic syndrome was present in 23 (27%), hepatic steatosis in 43 (50%), steatohepatitis in 18 (21%) and significant fibrosis in 38 (44%). Overall, neither the metabolic syndrome nor any of its components were associated with significant fibrosis or a higher mean fibrosis stage. Hepatic steatosis but not steatohepatitis was associated with a lower fibrosis stage. C282Y/H63D compound heterozygous individuals who had glucose intolerance had more severe fibrosis compared with those without glucose intolerance (1.0+/-1.0 vs. 0.1+/-0.3, P=0.01). CONCLUSIONS: Overall, the metabolic syndrome and fatty liver were not associated with hepatic fibrosis among individuals with HH and iron overload. However, glucose intolerance may be important risk factor for the development of hepatic fibrosis in subjects with the C282Y/H63D HFE genotype.     

Frequency of primary iron overload and HFE gene mutations （C282Y, H63D and S65C） in chronic liver disease patients in north India

AIM:To identify the frequency of iron overload and study the three mutations in the HFE gene (C282Y,H63D,and S65C) in patients with chronic liver disorders (CLD) and controls. METHODS:To identify patients with iron overload (transferrin saturation > 45% in females and > 50% in males and serum ferritin > 1000 ng/mL) we evaluated 236 patients with CLD,including 59 with non-alcoholic steatohepatitis (NASH),22 with alcoholic liver disease (ALD),19 of cirrhosis due to viruses (HBV,HCV),and 136 with cryptogenic cirrhosis. Mutations of the HFE gene were analyzed by PCR-RE. hundred controls were screened for iron status and the mutations. RESULTS:Seventeen patients with CLD showed evidence of iron overload. Fifteen cases of iron overload had cryptogenic cirrhosis and two had ALD. None of the controls showed iron overload. We did not find any individual with 282Y or 65C either in the cases or in the controls. The prevalence of H63D heterozygosity was 12% in normal individuals,14.8% in 236 patients (16.9% in NASH,13.6% in ALD,26.3% in viral and 12.5% in cryptogenic cirrhosis) and the overall prevalence was 13.98%. Only two of the 17 patients with primary iron overload were heterozygous for H63D. One patient with NASH and one normal individual who were homozygous for H63D showed no iron overload.CONCLUSION:Primary iron overload in Indians is nonHFE type,which is different from that in Europeans and further molecular studies are required to determine the defect in various iron regulatory genes.     

Frequency of HFE gene mutations in Iranian beta-thalassaemia minor patients

OBJECTIVES: Beta-thalassaemia minor (BTM) alone does not lead to iron overload, however, some gene modifiers and acquired causes are reported. When it is inherited together with a mutation in the HFE (HLA-H) gene associated with hereditary haemochromatosis, iron overload may ensue. To analyse the relationship between iron status and HFE mutations in Iranian BTM patients, we compared the frequency of the C282Y and H63D HFE mutations and ferritin level in a group of BTM patients from the National Thalassaemia Transfusion and Care Centre with that of healthy individuals. PATIENTS AND METHODS: Ninety-three (56 females) documented BTM cases and 104 (54 females) controls were enrolled in the study. Serum ferritin level was measured in all subjects by immuno-radiometric assay and HFE genotypes were determined using restriction fragment length polymorphism analysis of PCR-amplified HFE gene fragment. RESULTS: Eighteen (19.4%) BTM patients vs. 12 (11.5%) controls were H63D heterozygotes, while there were three (3.2%) cases and three (2.9%) controls with H63D homozygosity. All three C282Y mutations were found in BMT patients with one of them being a compound heterozygote. A significant difference was observed in the total number of HFE mutations in favour of BTM patients over the controls (P < 0.05, OR = 2.064). The H63D and C282Y allele frequencies were 12.9 and 1.61 in patients and 8.65 and 0 in controls, respectively. The mean ferritin level in cases with HFE mutations showed no significant difference from that of the patients without mutations (P > 0.05). CONCLUSIONS: Our results suggest that HFE mutations C282Y and H63D are more frequent in Iranian BTM patients than in the normal population, causing no significant changes in serum ferritin level.     

Hepatic iron overload in alcoholic end-stage liver disease is associated with iron deposition in other organs in the absence of HFE-1 hemochromatosis.

BACKGROUND: End-stage cirrhosis in the absence of hereditary hemochromatosis (HHC) can be associated with moderate to marked hepatic iron overload, especially in liver disease as a result of alcohol and/or hepatitis C. However, no published studies have addressed extrahepatic iron deposition in this setting. METHOD: A retrospective case series from three autopsied patients who died from end-stage cirrhosis associated with significant hepatic iron overload. Histology of vital organs was performed to detect extrahepatic iron deposition. HFE genotyping for the C282Y and H63D mutations was determined from archival tissue. Hepatic iron index and hepatic iron concentration (HIC) were quantified from formalin-fixed, paraffin-embedded tissue. Medical records were reviewed for possible causes of iron overload. RESULTS: Two patients were H63D heterozygous (H63D +/-) and one was wild type (C282Y -/-, H63D -/-). Histology revealed evidence of stainable iron in the heart and pancreas of all three subjects. Additionally, stainable iron was seen in the stomach in one subject and in the thyroid, pituitary, choroid plexus and testes in another subject. HIC ranged from 4354 to 6834 microg/g dry weight and HII from 1.8 to 2.2 (micromol/g/years). CONCLUSION: Iron overload secondary to end-stage liver disease can be associated with iron deposition in other organs in the absence of HFE-1 HHC.     

Frequency of the HFE C282Y and H63D mutations in Danish patients with clinical haemochromatosis initially diagnosed by phenotypic methods

AIM: To assess the frequency of the C282Y and H63D mutations on the HFE gene in Danish patients with clinical hereditary haemochromatosis initially diagnosed by phenotypic methods. METHODS: In the period 1950-1985, an epidemiological survey in Denmark identified 179 patients with clinical idiopathic haemochromatosis diagnosed by phenotypic methods (serum transferrin saturation, serum ferritin, liver biopsy and mobilisable body iron stores). In 32 unrelated patients, frozen blood samples were available for genetic analysis. In a subsequent series of 26 unrelated Danish patients, a phenotypic diagnosis of clinical idiopathic haemochromatosis was made before blood samples were taken for HFE genotyping. The total series consisted of 58 patients (40 men and 18 women) with a median age of 60 yrs (range 18-74). HFE genotyping was performed by the polymerase chain reaction (PCR) technique. RESULTS: Among the patients, 55 of 58 (94.8%) were C282Y/C282Y homozygous. One 63-year-old woman (1.7%) was compound C282Y/H63D heterozygous. Two women (3.4%), aged 42 and 43 yrs were negative for both the C282Y and the H63D mutation. CONCLUSION: In the Danish population, homozygosity for the C282Y mutation appears to be the prevailing cause of clinically overt genetic haemochromatosis. This finding has implications both for the evaluation of patients with iron overload disorders and for the strategy in future population screening surveys.     

Mild iron overload in patients carrying the HFE S65C gene mutation: a retrospective study in patients with suspected iron overload and healthy controls

BACKGROUND AND AIMS: The role of the HFE S65C mutation in the development of hepatic iron overload is unknown. The aim of the present study was: (A) to determine the HFE S65C frequency in a Northern European population; and (B) to evaluate whether the presence of the HFE S65C mutation would result in a significant hepatic iron overload. PATIENTS AND METHODS: Biochemical iron parameters and HFE mutation analysis (for the C282Y, H63D, and S65C mutations) were analysed in 250 healthy control subjects and collected retrospectively in 296 patients with suspected iron overload (elevated serum ferritin and/or transferrin saturation). The frequency of patients having at least mild iron overload, and mean serum ferritin and transferrin saturation values were calculated for each HFE genotype. For patients carrying the S65C mutation, clinical data, liver biopsy results, and amount of blood removed at phlebotomy were determined. RESULTS: The HFE S65C mutation was found in 14 patients and eight controls. In controls, the S65C allele frequency was 1.6%. The S65C allele frequency was enriched in non-C282Y non-H63D chromosomes from patients (4.9%) compared with controls (1.9%) (p<0.05). Serum ferritin was significantly increased in controls carrying the S65C mutation compared with those without HFE mutations. Fifty per cent of controls and relatives having the S65C mutation had elevated serum ferritin levels or transferrin saturation. The number of iron overloaded patients was significantly higher among those having HFE S65C compared with those without any HFE mutation. Half of patients carrying the S65C mutation (7/14) had evidence of mild or moderate hepatic iron overload but no signs of extensive fibrosis in liver biopsies. Screening of relatives revealed one S65C homozygote who had no signs of iron overload. Compound heterozygosity with S65C and C282Y or H63D did not significantly increase the risk of iron overload compared with S65C heterozygosity alone. CONCLUSIONS: The HFE S65C mutation may lead to mild to moderate hepatic iron overload but neither clinically manifest haemochromatosis nor iron associated extensive liver fibrosis was encountered in any of the patients carrying this mutation.     

A Chinese patient with non-HFE-linked iron overload.

The gene for hemochromatosis (HFE) was recently identified and contains two missense mutations: C282Y and H63D. The C282Y mutation is found homozygous in approximately 85% to 90% of patients of Northern European ancestry with hereditary hemochromatosis. There are no previous reports with results of genetic testing in Chinese patients with regard to iron overload. In this case report, we describe a Chinese woman with marked hepatic iron overload that was nonfamilial, with unusual biopsy findings, in whom neither the C282Y nor the H63D mutations in HFE were found.     

Hepatic iron loading in patients with compound heterozygous HFE mutations.

AIM: To assess the severity of hepatic iron loading in patients with a compound heterozygous C282Y/H63D HFE genotype. METHODS: A total of 246 patients were referred to the Hepatology Clinic at a tertiary hospital for HFE genotyping and further assessment of elevated serum transferrin saturation and/or ferritin results, either with or without abnormal liver function tests. Subjects of the study were 19 patients compound heterozygous for HFE who had liver biopsy, quantitative liver iron estimation and liver histopathology. RESULTS: Mild iron overload [hepatic iron concentration between 30 and 100 micromol/g dry weight], was present in 16/19 compound heterozygous patients, three patients had values within the reference range. As well as the compound heterozygous HFE genotype, 18/19 patients were found to have had at least one additional risk factor for developing either iron loading or liver disease. CONCLUSION: Compound heterozygous patients show no more than mild liver iron loading. The decision whether or not to recommend liver biopsy in C282Y/H63D patients with abnormal serum iron indices and/or liver function tests should be based on the need to evaluate liver damage rather than solely to assess liver iron loading.     

Mutations of the HFE gene and the risk of hepatocellular carcinoma

The discovery of the C282Y and H63D point mutations in the hereditary hemochromatosis-associated HFE gene allows us to study the molecular basis of congenital and acquired iron overload disorders. In hereditary hemochromatosis an increased frequency of the C282Y and, to a lesser extent, of the H63D mutations has been established, but their role in other conditions associated with iron overload and their prevalence in the normal population are still under investigation. We sought to determine the presence of such mutations, and their possible involvement in the multi-step neoplastic transformation of the hepatocytes, in patients diagnosed with hepatocellular carcinoma, a frequent complication of iron-induced liver cirrhosis occurring in untreated hereditary hemochromatosis subjects. The frequency of the C282Y and H63D mutations was determined in DNA from 12 patients with hepatocellular carcinoma and with no clinical signs of hereditary hemochromatosis. The frequency of the mutations was also determined in 130 normal subjects. A germline C282Y mutation was found in none of the hepatocellular carcinoma patients; the frequency of the H63D mutation was not increased, compared to the 130 controls. The allele frequencies of the C282Y and H63D mutations in the normal population were 0.042 and 0.185, respectively. In conclusion, we suggest that the hereditary hemochromatosis-related mutations of the HFE gene do not play a significant role in the pathogenesis of hepatocellular carcinoma.