Role of HFE gene mutations in liver diseases other than hereditary hemochromatosis

A corn oil-based diet protects against combined ethanol and iron-induced liver injury in a mouse model of hemochromatosis

BACKGROUND

Combined iron overload and alcohol may promote synergistic chronic liver injury and toxicity. The role of specific dietary fats in influencing the development of co-toxic alcoholic liver disease needs further evaluation and is investigated in this study.

METHODS

Wild-type (WT) and the iron-loaded Hfe-null (Hfe(-/-) ) mice were fed chow (CC), a AIN-93G standard control (SC), or a corn oil-modified, AIN-93G-based (CO) diet with or without the addition of 20% ethanol (EtOH) in the drinking water for 8 weeks and assessed for liver injury.

RESULTS

WT mice on CC, SC, and CO diets had no liver injury, although mild steatosis developed in the SC and CO groups. The addition of EtOH resulted in mild steatohepatitis in WT mice fed SC but not those on a CO diet. EtOH administration in Hfe(-/-) animals on the CC and SC diets caused marked oxidative stress, inflammatory activity, and subsinusoidal and portal-portal tract linkage fibrosis with significant up-regulation of genes involved in cellular stress signaling and fibrogenic pathways. These effects were abrogated in the CO-fed mice, despite elevated serum EtOH levels and hepatic iron concentrations, reduced hepatic glutathione and mitochondrial superoxide dismutase activities. Feeding with the CO diet led to increased hepatic glutathione peroxidase and catalase activities and attenuated alcohol-induced hepatic steatosis in the Hfe(-/-) animals. Iron and EtOH feeding markedly reduced p-STAT3 and p-AMPK protein levels, but this effect was significantly attenuated when a CO diet was consumed.

CONCLUSIONS

A CO-based diet is protective against combined EtOH- and iron-induced liver toxicity, likely via attenuation of hepatic steatosis and oxidative stress and may have a role in the prevention of fibrosis development in chronic liver disease.

Effects of a single dose of oral iron on hepcidin concentrations in human urine and serum analyzed by a robust LC-MS/MS method

BACKGROUND

The measurement of serum hepcidin, a peptide hormone that regulates iron metabolism, is clinically important to the understanding of iron homeostasis in health and disease. To date, the quantification of serum hepcidin levels by conventional immunological detection methods has proven problematic due to challenges in obtaining high quality antibodies which demonstrate good reproducibility. Matrix-assisted laser desorption/ionization time-of-flight mass spectrometry (MALDI-TOF) has been employed recently for more sensitive quantification of hepcidin; however, this method has high background levels and therefore less than optimal specificity.

METHODS

In order to increase the specificity of the mass spectrometry based assay, we developed a robust, ultra-performance liquid-chromatography-tandem mass spectrometry (UPLC-MS/MS) protocol using multiple selected reaction monitoring (mSRM) for quantification of hepcidin levels in urine and serum of human subjects. With this assay, we assessed levels of hepcidin before and for up to 8 h after oral ingestion of ferrous sulfate in ten adult human subjects without known disease.

RESULTS

The linear response of hepcidin quantitation on each instrument was measured, and the correlation coefficients of these calibrations were r(2)=0.9512±0.0202 (n=5) for urine and r(2)=0.9709±0.0291 (n=5) for serum [r(2)=mean±SD]. Compared to baseline, the levels of urinary hepcidin between 2-4 h and 4-8 h of both women and men showed significant increases with p<0.05 and p<0.001, respectively. The levels of serum hepcidin between 4 h and 8 h in both women and men showed significant increases, compared with baseline values, with both p<0.01. Interestingly, we also observed some degree of oscillation of levels, occurring at later time points.

CONCLUSIONS

We have developed and validated a new method for measuring hepcidin concentrations in human serum and urine and used it to demonstrate early increases with iron supplement in both urinary and serum levels of hepcidin, which return to baseline levels, except in urine samples from men.

Effects of hemochromatosis and transferrin gene mutations on iron dyshomeostasis, liver dysfunction and on the risk of Alzheimer's disease

It is now accepted that transition metals, such as iron and copper, are involved in the pathogenesis of the Alzheimer's disease (AD) through their participation in toxic oxidative phenomena. In this context, hemochromatosis (Hfe) and transferrin (Tf) genes are of particular importance, since they play a key role in iron homeostasis. Also, signs of liver distress which accompany metal dysmetabolisms have been shown to be linked to AD. In order to investigate whether and how all these factors are interconnected, in this study we have explored the relationship of the gene variants of Hfe H63D and C282Y and of Tf C2 with serum markers of iron status (iron, ferritin, TF, TF-saturation, ceruloplasmin -CP-, CP and TF serum concentrations (CP/TF) ratio), and of liver function (albumin, transaminases, prothrombin time-prothrombin time (PT)) in a sample of 160 AD patients and 79 healthy elderly controls. Albumin resulted in lower, PT longer and AST/ALT higher ratios in AD patients than in controls, indicating a distress of the liver. Also TF was lower and ferritin higher in AD. Multiple logistic regression backward analyses, performed to evaluate the effects of our biochemical variables upon the probability of developing AD, revealed that a one-unit TF serum-decrease increases the probability of AD by 80%, a one-unit albumin serum-decrease reduces this probability by 20%, and a one-unit increase of AST/ALT ratio generates a 4-fold probability increase. Patients who were carriers of the H63D mutation showed higher levels of iron, lower levels of TF and CP and higher CP/TF ratios, a panel resembling hemochromatosis. This picture was found neither in H63D non-carrier patients, nor in healthy controls. Our results suggest the existence of a link between Hfe mutations and iron abnormalities that increases the probability of developing AD when accompanied by a distress of the liver.

HFE gene mutations and Wilson's disease in Sardinia

BACKGROUND

Hypocaeruloplasminaemia can lead to tissue iron storage in Wilson's disease and the possibility of iron overload in long-term overtreated patients should be considered. The HFE gene encodes a protein that is intimately involved in intestinal iron absorption.

AIMS

The aim of this study was to determine the prevalence of the HFE gene mutation, its role in iron metabolism of Wilson's disease patients and the interplay of therapy in copper and iron homeostasis.

METHODS

The records of 32 patients with Wilson's disease were reviewed for iron and copper indices, HFE gene mutations and liver biopsy.

RESULTS

Twenty-six patients were negative for HFE gene mutations and did not present significant alterations of iron metabolism. The HFE mutation was significantly associated with increased hepatic iron content (P<0.02) and transferrin saturation index (P<0.03). After treatment period, iron indices were significantly decreased only in HFE gene wild-type.

CONCLUSIONS

The HFE gene mutations may be an addictional factor in iron overload in Wilson's disease. Our results showed that an adjustment of dosage of drugs could prevent further iron overload induced by overtreatment only in patients HFE wild-type.

Differential regulation of human ALAS1 mRNA and protein levels by heme and cobalt protoporphyrin

5-Aminolevulinic acid synthase 1 (ALAS1) is the first and rate-controlling enzyme of heme biosynthesis. This study was to determine the effects of heme and selected nonheme metalloporphyrins on human ALAS1 gene expression in hepatocytes. We found that, upon heme and cobalt protoporphyrin (CoPP) treatments, ALAS1 mRNA levels were down-regulated significantly by ca. 50% or more. Measurement of mRNA in the presence of actinomycin D showed that these down-regulations were due to the decreases in mRNA half-lives. Furthermore, the levels of mitochondrial mature ALAS1 protein were down-regulated by 60-70%, but those of the cytosolic precursor protein were up-regulated by 2-5-fold. Measurement of protein in the presence of cycloheximide (CHX) suggests that elevation of the precursor form is due to the increase in protein half-lives. These results provide novel insights into the mechanisms of heme repressional effects on ALAS1 and provide a rationale for further investigation of CoPP as a therapeutic agent for acute porphyric syndromes.

[Significance of metal ion metabolism and oxidative stress in male patients with porphyria cutanea tarda]

In the last decades, the role of oxidative stress and trace elements was proven to play an important role in the pathogenesis of more and more diseases. This is why a great importance is attributed lately to the antioxidant therapy, and lots of studies are dealing with this issue. In porphyria cutanea tarda (PCT) the biosynthesis of hem is damaged, because of the reduced activity of uroporphyrinogen-decarboxylase enzyme. The hem precursors are accumulating in blood, liver and skin. The hem precursors and porphyrin are eliminated with urine and stool. The enzyme defect is autosomal dominant. The skin symptoms are intensified by sun exposure. This is because the accumulation of uroporphyrins and heptacarboxylporphyrin in the skin causes photosensitivity, and the accumulated iron has a lipid-peroxidation effect. Besides the genetical origin, the alcohol consumption, the hepatotoxic drugs, estrogen and viral infections can also determine the development of the disease. The applied treatment is phlebotomy. In the case of PCT that appears in the field of liver damage, the accumulation of iron is responsible for the development of oxidative stress. The patient's redox homeostasis is changed, and the level of antioxidants is decreased. The redox state of liver and the effects of additional antioxidant treatment in phlebotomized PCT patients were determined by biochemical and trace element analytical methods. According to the clinical data, phlebotomy proved to be an effective treatment in PCT patients. Phlebotomy improved the phototoxic skin symptoms, but it did not improve the ratios of trace elements to each other in the blood of the patients.

Prevalence of HFE C282Y and H63D in Jewish populations and clinical implications of H63D homozygosity

The frequencies of C282Y and H63D mutations of the HFE gene vary between different populations. A previous study showed an unexpectedly high H63D frequency in Chuetas (a population of Jewish descent). The present study addressed the question of the distribution of these mutations in Jewish populations from different origins and studied the possible causes of the high H63D frequency in Chuetas. Moreover, to improve the understanding of the controversial relationship between H63D homozygosity and iron overload, a group of patients with altered iron metabolism were studied. The high frequency of H63D mutation in Chuetas is not due to a high prevalence of this mutation in Sephardic Jews. Jewish populations have low C282Y and moderate H63D frequencies, suggesting slight gene flow from their surrounding populations. In accordance with historical and demographic data, genetic drift is the most probable cause for the singular H63D frequency in Chuetas. Clinically, this study of H63D homozygotes supports the conclusion that this genotype must be taken into account, because it confers an increased risk of iron overload and therefore genetic susceptibility to developing hereditary hemochromatosis or to aggravating other diseases.

Prevalence and clinical implications of HFE gene mutations (C282Y and H63D) in patients with chronic hepatitis B and C in Taiwan

BACKGROUND/AIMS

The implication of hemochromatosis (HFE) gene mutations in chronic viral hepatitis remains controversial. We therefore studied the prevalence of HFE mutations and their impact on the progression of chronic viral hepatitis in Taiwan.

PATIENTS & METHODS

H63D and C282Y mutations were screened by using polymerase chain reaction followed by restriction fragment length polymorphism in 152 chronic hepatitis B patients with various stages of liver disease, 87 chronic hepatitis C patients with various stages of liver disease, and 49 healthy controls. The distribution of each allele frequency was then compared among different groups of patients and in various stages of liver disease.

RESULTS

All three groups of patients were C282Y wild type and the majority of H63D mutations were heterozygotes. Although statistically not significant, allele frequencies of H63D mutation in hepatitis B-related liver cirrhosis (6%) and hepatitis C-related liver cirrhosis (9.1%) were higher than those in healthy control (2%). After adjustment for age and sex, hepatitis B patients with H63D heterozygosity had a higher likelihood of cirrhosis than those with H63D wild type (odds ratios (OR): 3.2, confidence interval (CI): 0.49-20.5, P = 0.22). Similarly, hepatitis C patients with H63D homozygosity had a higher likelihood of cirrhosis compared with those with H63D wild type (OR: 2.35, CI : 0.19-28.5, P = 0.52).

CONCLUSIONS

Almost all Taiwanese are C282Y wild type. H63D heterozygote and homozygote, occurring in less than 5% of the subjects, tended to be associated with the development of liver cirrhosis, irrespective of viral etiology. Screening for H63D mutation might be considered in patients with chronic viral hepatitis in Taiwan.

Iron as a co-morbid factor in nonhemochromatotic liver disease

Heavy iron overload, in both primary and secondary hemochromatosis, may cause fibrosis of parenchymal organs, especially the liver. The toxicity of iron is believed to involve increased oxidative stress, with iron-catalyzed production of reactive oxygen species causing oxidative damage to lipids, proteins, and nucleic acids. Lesser degrees of hepatic iron deposition are also associated with, and seem to be risk factors for, certain nonhemochromatotic liver diseases. Porphyria cutanea tarda is associated with hepatic iron overload and responds to iron-reduction therapy. Results of recent studies have demonstrated high prevalences (about 60%-80%) of HFE gene mutations in patients with porphyria cutanea tarda. Chronic hepatitis C is another risk factor for porphyria cutanea tarda. Other recent evidence indicates that the prevalence of HFE gene mutations is increased in chronic viral hepatitis and that patients with chronic hepatitis C harboring especially the C282Y mutation are more likely to suffer from advanced hepatic fibrosis or cirrhosis and to do so at younger ages. A role for modest iron overload in increasing severity of alcohol-induced liver disease has been well established from results of experimental studies. However, it is currently unresolved whether mild-to-moderate hepatic iron deposition or heterozygosity for the C282Y mutation plays a role in human alcoholic liver disease or in nonalcoholic fatty liver disease or nonalcoholic steatohepatitis. There is persuasive evidence that iron reduction decreases insulin resistance, and it likely also decreases oxidative stress, two key pathogenic features of nonalcoholic fatty liver disease/nonalcoholic steatohepatitis. Iron loading has also been described after portosystemic shunts and in end-stage liver disease.

HFE mutations and chronic hepatitis C: H63D and C282Y heterozygosity are independent risk factors for liver fibrosis and cirrhosis

BACKGROUND/AIMS

The impact of heterozygous HFE mutations on the course of chronic hepatitis C and iron indices was studied.

METHODS

Ferritin, transferrin saturation (TS), serum iron, C282Y and H63D mutations were determined in 401 patients with chronic hepatitis C virus (HCV) infection and 295 healthy controls. Liver histologies were available in 217 and HCV genotypes in 339 patients.

RESULTS

Allele frequencies of the C282Y and H63D mutation did not differ between HCV patients and healthy controls (6.95 vs. 6.2%; 14.75 vs. 16.4%; n.s.). HFE heterozygous HCV patients had higher ferritin (349+/-37 vs. 193+/-15 microg/l; P<0.0005), TS (38+/-2 vs. 32+/-1%; P<0.0005), serum iron (144+/-6 vs. 121+/-3 microg/dl; P<0.0005), semiquantitative liver iron staining (0.26+/-0.07 vs. 0.09+/-0.03; P<0.006) and fibrosis scores (1.9+/-0.2 vs. 1.4+/-0.1; P<0.003) compared to HFE wildtypes. By multivariate regression analysis odds ratios for liver cirrhosis were 5.9 (confidence interval (CI) 1.6-22.6; P<0.009) for C282Y heterozygotes and 2.9 (CI 1.0-8.4; P<0.05) for H63D heterozygotes compared to HFE wildtypes. Considering all HFE heterozygous HCV patients, odds ratios of 3.6 (CI 1.4-9.3; P<0.009) for cirrhosis and 3.1 (CI 1.3-7.3; P<0.009) for fibrosis were calculated.

CONCLUSIONS

C282Y or H63D heterozygosity is an independent risk factor for liver fibrosis and cirrhosis in HCV infected individuals. Screening for HFE mutations should be considered in HCV infection.

Concurrence of histologic features of steatohepatitis with other forms of chronic liver disease

Steatohepatitis, of either alcoholic or nonalcoholic etiologies, is ultimately diagnosed by clinical-pathologic correlation and is characterized histologically by lesions that differ from the portal-based chronic inflammation and fibrosis of most other forms of chronic liver disease. With the increasing prevalence of steatohepatitis in our society, it is likely that some patients will have coexistent clinical and/or histopathologic findings of steatohepatitis concurrently with another form of liver disease. The aim of this study was to document clinical and histologic findings in biopsies in an academic referral center. Ninety-three non-allograft liver biopsies with lesions of both steatohepatitis and another liver disease were retrospectively identified in 85 patients. The finding of coexisting disease represented 5.5% of all hepatitis C biopsies and 4.0% of other forms of chronic liver disease in the 34 month time period. Clinical chart review of patients with concurrent disease showed the following: Group 1, patients with hepatitis C (n = 54); Group 2, patients with hepatitis C and prior or current history of more than 80 g/d alcohol consumption (n = 20); Group 3, patients with other forms of chronic liver disease (n = 11). Groups 1 and 3 had <10 g/d alcohol use. Obesity (body mass index >30) was noted in 75%, 60%, and 33% respectively, while 94%, 87% and 100% of patients were considered overweight (body mass index > or = 25). Diabetes was reported in 35%, 25%, and 9%. The concurrence of clinical and histologic features of steatohepatitis with another chronic liver disease may be a reflection of the frequency of steatohepatitis in the population at large.

Iron and HFE or TfR1 mutations as comorbid factors for development and progression of chronic hepatitis C

BACKGROUND/AIMS

Recent evidence implicates iron as a comorbid factor for development of non-hemochromatotic liver diseases. Mutations or polymorphisms in the HFE gene or the TfR1 gene may influence the accumulation of iron in the liver or other tissues or may influence chronic viral hepatitis apart from effects on iron homeostasis. The aim of this study was to assess the role of hepatic iron, HFE and TfR1 variations on development and progression of chronic hepatitis C infection.

METHODS

We studied 119 consecutive patients with chronic hepatitis C, correlating clinical, laboratory, histopathological, and genetic data. Frequencies of genetic variations were compared with local and national controls.

RESULTS

HFE mutations were more common in patients than controls (48% vs. 38%, P=0.04), and advanced degrees of fibrosis developed at younger ages in subjects with the C282Y mutation (38.6 vs. 46.5 years, P=0.03). Patients carrying C282Y had higher mean hepatic iron concentrations (P=0.02), hepatic iron indices (P<=0.0001), and hepatic fibrosis scores (P=0.01). Hepatic fibrosis was correlated with hepatic iron concentration (P=0.03). TfR1 polymorphisms bore no detectable relation to disease severity or response to therapy.

CONCLUSIONS

Hepatic iron and HFE mutations are comorbid factors that increase development and progression of chronic hepatitis C.

Accelerated hepatic fibrosis in patients with combined hereditary hemochromatosis and chronic hepatitis C infection

BACKGROUND/AIMS

Hereditary hemochromatosis (HH) and chronic hepatitis C virus (HCV) infection can both result in hepatic fibrosis and cirrhosis. It has been proposed that iron overload and HCV may have potentiating effects on hepatic fibrogenesis. This study determined if HH patients with HCV would present with hepatic fibrosis/cirrhosis at a younger age and at a lower hepatic iron concentration compared to patients with HH or HCV alone.

METHODS

Ten patients with combined HCV and HH were compared to 13 patients who had HH alone and 24 patients who had HCV alone. All patients had advanced fibrosis/cirrhosis on liver biopsy. All HH patients were homozygous for the C282Y mutation.

RESULTS

At presentation with advanced fibrosis/cirrhosis, the mean age of the HH/HCV group was significantly lower than that of the HH group and the HCV group. The mean hepatic iron concentration was lower in the combined HH/HCV group compared to that of the HH group.

CONCLUSIONS

HH patients with HCV present with advanced fibrosis/cirrhosis at a younger age and at a lower hepatic iron concentration compared to HH patients without HCV. These findings support the concept that the combination of HH-induced iron overload and HCV has a potentiating effect on hepatic fibrogenesis.

Intestinal expression of genes involved in iron absorption in humans

Hereditary hemochromatosis (HHC) is one of the most frequent genetic disorders in humans. In healthy individuals, absorption of iron in the intestine is tightly regulated by cells with the highest iron demand, in particular erythroid precursors. Cloning of intestinal iron transporter proteins provided new insight into mechanisms and regulation of intestinal iron absorption. The aim of this study was to assess whether, in humans, the two transporters are regulated in an iron-dependent manner and whether this regulation is disturbed in HHC. Using quantitative PCR, we measured mRNA expression of divalent cation transporter 1 (DCT1), iron-regulated gene 1 (IREG1), and hephaestin in duodenal biopsy samples of individuals with normal iron levels, iron-deficiency anemia, or iron overload. In controls, we found inverse relationships between the DCT1 splice form containing an iron-responsive element (IRE) and blood hemoglobin, serum transferrin saturation, or ferritin. Subjects with iron-deficiency anemia showed a significant increase in expression of the spliced form, DCT1(IRE) mRNA. Similarly, in subjects homozygous for the C282Y HFE mutation, DCT1(IRE) expression levels remained high despite high serum iron saturation. Furthermore, a significantly increased IREG1 expression was observed. Hephaestin did not exhibit a similar iron-dependent regulation. Our data show that expression levels of human DCT1 mRNA, and to a lesser extent IREG1 mRNA, are regulated in an iron-dependent manner, whereas mRNA of hephaestin is not affected. The lack of appropriate downregulation of apical and basolateral iron transporters in duodenum likely leads to excessive iron absorption in persons with HHC.

Hemochromatosis: diagnosis and management

HH should be distinguished from the other syndromes of iron overload. Many patients with HH have abnormal serum iron values before the development of any significant symptoms or clinical findings, and liver biopsy is less important in these patients. HFE mutation analysis has strengthened our ability to diagnose HH accurately and is useful in family studies. HFE mutations may play a contributory role in some patients with PCT, NASH, or chronic HCV. Generalized population screening for HH may someday become a reality and lead to the identification and treatment of more patients before they have tissue damage or increased morbidity. With the identification of the HFE gene, we are beginning to unravel many of the mysteries of both normal iron absorption and the disorder of iron metabolism found in patients with HH.

Ubiquitin as a marker of cell injury in nonalcoholic steatohepatitis

Ubiquitin (UB), an intracellular protein that binds to other proteins to target them for proteolysis, is associated with Mallory hyalin (MH), which supports a biopsy diagnosis of nonalcoholic steatohepatitis (NASH). We analyzed 54 liver biopsy specimens from 49 patients with a clinical diagnosis of NASH for immunoreactive UB and multiple features of necroinflammation, fibrosis, and Prussian blue-positive iron to determine whether the presence of immunoreactive UB increases detection of MH or correlates with other features of cell injury or mutations of the HFE gene. MH and UB were graded. Analysis for HFE gene mutations was performed in 48 patients. Biopsy diagnoses were distributed as follows: NASH, 42; steatosis, 10; and nonspecific changes, 2. UB was present in 20 specimens and MH in 23. Of 31 specimens with 0 MH, 6 had UB; of 14 with 1 + (questionable) MH, 7 had 1+ or 2+ UB. UB correlated positively and significantly with the diagnosis and grade of NASH, presence of MH, cell swelling, lobular inflammation, and fibrosis. Immunostaining for UB may enhance detection of MH in questionable cases, support the diagnosis of NASH, and indicate which patients may be at risk for progression of disease.

Iron-induced liver injury

Iron, either in the form of heme or non-heme compounds, is essential to life, but it can also pose serious health risks. The liver is a principal target for iron toxicity because it is chiefly responsible for taking up and storing excessive amounts of iron. The major hepatic toxicities of iron overload include damage to multiple cell types (hepatocytes, Kupffer cells, hepatic stellate cells) and to multiple subcellular organelles (mitochondria, lysosomes, and smooth endoplasmic reticulum). Heavy iron overload, as occurs in primary (hereditary) or secondary forms of hemochromatosis, may cause cirrhosis, liver failure, and hepatocellular carcinoma. In addition, iron has been shown to be a contributory factor in the development or progression of alcoholic liver disease, nonalcoholic liver steatohepatitis, chronic viral hepatitis, prophyria cutanea tarda, and, perhaps, in alpha 1-antitrypsin deficiency and end-stage liver disease, regardless of cause.