Interaction Between Genotypes for HFE and TFR2 Genes Mutations and Iron Status in Brazilian Blood Donors

Blood ◽  
2008 ◽  
Vol 112 (11) ◽  
pp. 5382-5382
Author(s):  
Rodolfo D Cancado ◽  
Paulo CJL Santos ◽  
Samuel Rostelato ◽  
Cristiane T Terada ◽  
Iris Gonzales ◽  
...  
Keyword(s):  
Serum Ferritin ◽  
Serum Iron ◽  
Blood Donors ◽  
Binding Capacity ◽  
Iron Status ◽  
Hereditary Hemochromatosis ◽  
Transferrin Saturation ◽  
The Body ◽  
Hfe Gene ◽  
Automation System

Abstract Hereditary hemochromatosis (HH) is a disorder characterized by increased intestinal iron absorption, which leads to a progressive accumulation of iron in the body. This iron overload has been associated with mutations in HFE gene (C282Y, H63D and S65C) and other genes. The objectives of this study were to assess the frequencies of functional mutations in HFE and TFR2 genes and to investigate their relationship with the iron status in a sample of blood donors. Blood donors (n=542) were recruited at the Hemocenter of the Santa Casa Hospital, Sao Paulo, Brazil. The genotypes for HFE (C282Y, H63D and S65C) TFR2 (Y250X and Q690P) gene mutations were evaluated by PCR-RFLP. The concentrations of serum iron and total iron-binding capacity (TIBC) were measured by automation system Advia®(Bayer Diagnostics) and serum ferritin by Axsym System®(Abbott Laboratories). The frequencies of HFE 282Y, HFE 63D and HFE 65C alleles were 2.1, 13.6 and 0.6%, respectively. The frequency C282Y allele (2.1%) in Brazilian blood donors is lower than that observed in blood donors from Northern Europe (5.1 to 8.2%, P<0.05). The TFR2 250X and TFR2 690P alleles were not found in these subjects. The iron status was similar between HFE genotypes in women. However, men carrying HFE 282CY genotype had higher serum ferritin and lower TIBC concentrations when compared to the HFE 282CC genotype carriers. HFE 282CY genotype was also associated with higher transferrin saturation in men who donated blood at the first time. Moreover, male donors with HFE 63DD plus 63HD genotypes had higher serum iron and transferrin saturation when compared to those with HFE 63HH genotype. A relationship between HFE CY/HH/SS haplotype and lower TIBC concentrations was also found in men. The HFE 282Y and HFE 65C alleles were rare while the HFE 63D was frequent in blood donors. The mutations in TFR2 gene were not found in this study. The HFE 282Y and HFE 63D alleles were associated with alterations on iron status only in male blood donors.

scholarly journals IRON STATUS IN PREECLAMPSIA

2008 ◽  
Vol 15 (01) ◽  
pp. 74-80
Author(s):  
TASNEEM ZAFAR ◽  
ZAFAR IQBAL
Keyword(s):  
Serum Ferritin ◽  
Serum Iron ◽  
Binding Capacity ◽  
Iron Status ◽  
Transferrin Saturation ◽  
Correlation Study ◽  
Total Iron ◽  
Control Group ◽  
Iron Binding ◽  
Iron Binding Capacity

Objective: To evaluate iron status in pregnancy induced hypertension and role of iron in the etiologyand pathogenesis of pre-eclampsia. Design: Coefficient correlation study. Place and Duration. At Department ofBiochemistry, Frontier Medical College, Abbottabad with collaboration of Department of Obstetrics and Gynecology,Ayub Medical Complex, Abbottabad from March 2006-March 2007. Material and Methods: Study was performed onhundred pregnant women of age ranging between 15-35 years and having gestational age between28 to 34 weeks.Fifty obstetric patients were identified as having pre-eclampsia. Fifty healthy pregnant subjects were taken as controls,having uncomplicated pregnancies and were normotensive throughout gestation and without proteinuria. Results:Results depicts that mean age of pre-eclamptic group was significantly low (P<0.001) as compared to control. Bothparameters, Hemoglobin and Haematocrit were significantly higher (P<0.05) in pre-eclamptic as compared to controls.Serum iron, serum ferritin and transferrin saturation were significantly higher (P<0.001) in pre-eclamptic in comparisonwith control group. Total iron binding capacity and unsaturated iron binding capacity were significantly lower (P<0.001)in pre-eclamptic group when compared to control group. Correlation coefficient between serum iron, total iron bindingcapacity (TIBC), serum ferritin, unsaturated iron binding capacity (UIBC) and systolic and diastolic blood pressure inpre-eclamptic group showed no significant positive correlation in any parameter. Conclusion: It is concluded thathemoglobin, haematocrit, serum iron, serum ferritin and transferrin saturation are significantly increased in pregnantwomen that later develops pre-eclampsia. Excess iron is postulated as casual factor in the oxidative stress ie; in itsradical form, which may be involved in the pathogenesis of pre-eclampsia. Therefore, iron status of pregnant womenshould be assessed before giving iron supplements as these may cause more harm than benefit.

Serum iron and total iron-binding capacity compared with serum ferritin in assessment of iron deficiency.

1981 ◽  
Vol 27 (2) ◽  
pp. 276-279 ◽  
Author(s):  
F Peter ◽  
S Wang
Keyword(s):  
Iron Deficiency ◽  
Serum Ferritin ◽  
Serum Iron ◽  
Binding Capacity ◽  
Transferrin Saturation ◽  
Total Iron ◽  
Iron Binding ◽  
Total Iron Binding Capacity ◽  
Iron Deficient ◽  
Iron Binding Capacity

Abstract Ferritin values for 250 selected sera were compared with values for iron, total iron-binding capacity (TIBC), and transferrin saturation, to assess the potential of the ferritin assay for the detection of latent iron deficiency. The specimens were grouped (50 in each group) according to their values for iron and TIBC. In Group 1 (low iron, high TIBC) the saturation and ferritin values both indicated iron deficiency in all but one. In the 100 specimens of Groups 2 (normal iron, high TIBC) and 4 (normal iron, high normal TIBC), the saturation values revealed 16 iron-deficient cases, the ferritin test 55. For Groups 3 (low iron, normal TIBC) and 5 (low iron, low TIBC), the ferritin test revealed fewer cases of iron deficiency than did the saturation values (37 cases vs 51 cases, in the 100 specimens). Evidently the ferritin test detects iron deficiency in many cases for whom the serum iron and TIBC tests are not positively indicative. The correlation of serum ferritin with iron, TIBC, and transferrin saturation in the five groups was good only in the case of specimens for which the TIBC was normal; if it was abnormal the correlation was very poor.

Iron Overload in C282Y Heterozygotes: Identification of New Rare HFE Gene Mutants and a Step Strategy for Diagnosis.

Blood ◽  
2008 ◽  
Vol 112 (11) ◽  
pp. 1859-1859
Author(s):  
Patricia Aguilar-Martinez ◽  
Severine Cunat ◽  
Fabienne Becker ◽  
Francois Blanc ◽  
Marlene Nourrit ◽  
...  
Keyword(s):  
Iron Overload ◽  
Iron Status ◽  
Hereditary Hemochromatosis ◽  
Genetic Defect ◽  
Transferrin Saturation ◽  
Hfe Gene ◽  
Compound Heterozygous ◽  
Exon 2 ◽  
High Iron ◽  
Iron Parameters

Abstract Introduction: Homozygozity for the p.Cys282Tyr (C282Y) mutation of the HFE gene is the main genotype associated with the common form of adult hereditary hemochromatosis. C282Y carriers do not usually develop iron overload, unless they have additional risk factors such as liver diseases, a dysmetabolic syndrome or an associated genetic defect. The commonest is the compound heterozygous state for C282Y and the widespread p.His63Asp (H63D) variant allele. However, a few rare HFE mutations can be found on the 6th chromosome in trans, some of which are of clinical interest to fully understand the disorder. Patients and Methods: We recently investigated four C282Y carrier patients with unusually high iron parameters, including increased levels of serum ferritin (SF), high transferrin saturation (TS) and high iron liver content measured by MRI. They were males, aged 37, 40, 42, 47 at diagnosis. Two brothers (aged 40 and 42) were referred separately. The HFE genotype, including the determination of the C282Y, H63D and S65C mutations was performed using PCR-RFLP. HFE sequencing was undertaken using the previously described SCA method (1). Sequencing of other genes (namely, HAMP, HJV/HFE2, SLC40A1, TFR2) was possibly performed in a last step using the same method. Results: We identified three rare HFE mutant alleles, two of which are undescribed, in the four studied patients. One patient bore a 13 nucleotide-deletion in exon 6 (c.[1022_1034del13], p.His341_Ala345&gt;LeufsX119), which is predicted to lead to an abnormal, elongated protein. The two brothers had a substitution of the last nucleotide of exon 2 (c.[340G&gt;A], p.Glu114Lys) that may modify the splicing of the 2d intron. The third patient, who bore an insertion of a A in exon 4 (c.[794dupA],p.[trp267LeufsX80]), has already been reported (1). Discussion: A vast majority of C282Y carriers will not develop iron overload and can be reassured. However, a careful step by step strategy at the clinical and genetic levels may allow to correctly identify those patients deserving further investigation. First, clinical examination and the assessment of iron parameters (SF and TS) allow identifying C282Y heterozygotes with an abnormal iron status. Once extrinsic factors such as heavy alcohol intake, virus or a dysmetabolic syndrome have been excluded, MRI is very useful to authenticate a high liver iron content. Second, HFE genotype must first exclude the presence of the H63D mutation. Compound heterozygozity for C282Y and H63D, a very widespread condition in our area, is usually associated with mild iron overload. Third, HFE sequencing can be undertaken and may identify new HFE variants as described here. The two novel mutations, a frameshift modifying the composition and the length of the C terminal end of the HFE protein and a substitution located at the last base of an exon, are likely to lead to an impaired function of HFE in association with the C282Y mutant. However, it is noteworthy that three of the four patients were diagnosed relatively late, after the 4th decade, as it is the case for C282Y homozygotes. Three further unrelated patients are currently under investigation in our laboratory for a similar clinical presentation. Finally, it can be noted that in those patients who will not have a HFE gene mutant identified, analysis of other genes implicated in iron overload must be performed to search for digenism or multigenism. None of our investigated patients had an additional gene abnormality.

High Prevalence of Iron Deficiency In Anemic and Non Anemic Patients with Various Types of Cancer

Blood ◽  
2010 ◽  
Vol 116 (21) ◽  
pp. 5145-5145
Author(s):  
Heinz Ludwig ◽  
Georg Endler ◽  
Brigitte Klement ◽  
Wolfgang Hüubl ◽  
Tim Cushway
Keyword(s):  
Iron Deficiency ◽  
Serum Ferritin ◽  
Multiple Testing ◽  
Serum Iron ◽  
Iron Supplementation ◽  
Complete Blood Count ◽  
Clinical Symptoms ◽  
Iron Status ◽  
Transferrin Saturation ◽  
Patients With Cancer

Abstract Abstract 5145 Introduction and aims: Iron deficiency as a major component in the pathogenesis of anemia in cancer is not acknowledged by most oncologists, possibly except when arising from GI blood loss. Iron deficiency is associated with clinical symptoms such as cognitive impairment, fatigue, and reduced exercise performance. New iron formulations are available that allow rapid iron supplementation with single infusions. This treatment could ameliorate symptoms of iron deficiency and correct anemia. Here, we studied iron parameters and their correlation with erythropoiesis and inflammatory markers in a large unselected cohort of patients with cancer. In addition, we investigated the suitability of serum ferritin and transferrin saturation (TSAT) as parameter for assessment of the iron status. Patients and methods: Data from 1627 patients (median age: 66.4 years, range: 20–97 years) presenting sequentially at the Center for Oncology and Hematology, Wilhelminenspital, Vienna between October 01, 2009 and January 26, 2010, have retrospectively been analyzed. Patients were at different stages of their disease or may not have had an established diagnosis at the time of testing. In patients with multiple testing during this period only the first sample taken was included. TSAT (n=1516), serum ferritin (n=887), serum iron, CRP, and complete blood count, were determined by using standard techniques. Commonly used definitions for absolute iron deficiency (AID), [TSAT <20% and serum ferritin <30ng/ml, in case serum ferritin was not available TSAT <10%] and for functional iron deficiency (FID), [TSAT <20% and serum ferritin ≥30ng/ml, in case serum ferritin was not available TSAT between 10 and 20%] have been applied. Fisher's exact test was used for comparison of frequencies and Pearson's product moment correlation coefficient for evaluation of correlation. Results: Table 1 shows the distribution of TSAT and serum ferritin categories in 1627 patients with cancer. AID was found in 116 patients (7.7%) of the 1516 patients for whom TSAT was available. Eighty-three (72%) of the AID patients presented with anemia (defined by hemoglobin <12g/dl). AID was most common in patients with colorectal and pancreatic cancer (12% and 11%, respectively), and not present in patients with testicular and prostate cancer (p=0.013). FID was diagnosed in 530 patients (35%) and 222 (42%) of them were found to be also anemic. Multivariate analysis revealed a statistically significant correlation between TSAT and serum ferritin (R=0.286, p<0.001), serum iron (R=0.874, p<0.001), hemoglobin (R=0.201, p<0.001) and CRP (R=-0.205, p<0.001) (figure 1). Serum ferritin, in contrast, did not correlate with serum iron (R=0.051, p=0.132), but correlated with hemoglobin (R=-0.259, p<0.001), TSAT (R=0.286, p<0.001), and CRP (R=0.396, p<0.001). Conclusion: AID (7.7%) and even more so FID (35%) are frequent co-morbidities in patients with various types of cancer. Seventy-two percent of patients with AID and 42% with FID presented with overt anemia. TSAT correlated closely with serum iron and hemoglobin levels and seems to be the preferred parameter for assessment of iron status in patients with chronic diseases often complicated by increased inflammation. Serum ferritin was found to be an inadequate parameter for assessment and monitoring of iron status. As iron deficiency has been linked with various symptoms, the question arises whether iron supplementation would benefit patients with FID without overt anemia. Future studies should evaluate the role of novel intravenous iron preparations in ameliorating the symptoms of iron deficiency with or without anemia. Disclosures: Klement: Vifor Pharma Ltd: Employment. Cushway:Vifor Pharma Ltd.: Employment.

scholarly journals Iron Age or New Age: Ironing out the Diagnosis of Anaemia of Inflammation from Iron Deficiency Anaemia

Blood ◽  
2015 ◽  
Vol 126 (23) ◽  
pp. 3354-3354
Author(s):  
Nicola J Svenson ◽  
Russell Patmore ◽  
Heidi J Cox ◽  
James R Bailey ◽  
Stephen Holding
Keyword(s):  
Iron Deficiency ◽  
Serum Ferritin ◽  
Serum Iron ◽  
Iron Status ◽  
Diagnostic Testing ◽  
Transferrin Saturation ◽  
Oral Iron ◽  
Gastrointestinal Disorders ◽  
Serum Hepcidin ◽  
Iron Parameters

Abstract Introduction Iron deficiency anaemia (IDA) and anaemia of chronic inflammation (AI) are the most prevalent causes of iron related anaemia in subjects with gastrointestinal disorders contributing significantly to morbidity and mortality. Diagnosis of IDA and AI is not always straight forward and currently a combination of several serum parameters (ferritin, transferrin, transferrin saturation, iron and C-reactive protein) is required. Subjects with a mixed aetiology can be difficult to interpret using traditional serum parameters, particularly in the presence of an inflammatory process. Hepcidin (a 25 amino-acid peptide hormone) in conjunction with reticulocyte haemoglobin equivalent (RetHe) has the potential to differentiate IDA from AI and in cases of mixed aetiology replacing the traditional laboratory parameters (serum iron, CRP, transferrin saturation and ferritin). Aim The aim of the study was to evaluate the performance of a commercially available ELISA assay and investigate whether hepcidin and RetHe can differentiate AI from mixed aetiology. Method The study investigated 77 patients with gastrointestinal disorders associated with anaemia in a secondary care setting using a traditional pathway of 6 tests (figure 1): Complete Blood Count (CBC), Reticulocytes, serum ferritin, CRP, transferrin, serum Iron. Hepcidin concentration was measured using a commercially available ELISA method (DRG Diagnostic GmbH, Marburg, Germany), CBC and RetHe using a Sysmex XE-2100 CBC analyser, iron parameters and CRP using Beckman Coulter platforms. Results Hepcidin correlated well with ferritin R2 = 0.79, p<0.0001. The results were compared to traditional parameters with Receiver Operator Curves (ROC) used to determine diagnostic cut off concentrations (table 1). Table 1. Sensitivity and specificity of serum ferritin and serum hepcidin used to determine diagnostic cut off values. Selected cut off values IDA AI Serum ferritin 30.0µg/L Sensitivity 83% Specificity 64% Sensitivity 55% Specificity 75% Serum hepcidin 8ng/mL Sensitivity 73% Specificity 72% Sensitivity 70% Specificity 67% Serum hepcidin 40ng/mL Sensitivity 98% Specificity 32% Sensitivity 25% Specificity 91% Ferritin was unable to distinguish IDA from AI in mixed aetiology situations. This gives rise to a new proposed 2 step pathway (figure 2) using 3 tests: CBC, RetHe and hepcidin differentiating IDA from AI in mixed aetiology cases indicating the cause of the anaemia. The RetHe value can then be used to predict the response to oral iron. Conclusion Serum hepcidin may not yet replace serum ferritin as the preferred iron status marker, but in conjunction with RetHe it may distinguish mixed aetiology subjects. This offers the potential development of a clearer clinical pathway for investigation of difficult subjects, including reduction in the number of tests required during anaemia investigations and shorter diagnosis times. The advantage of hepcidin together with RetHe over traditional iron parameters is both as a real time marker of iron status and an indication of likelihood of response to iron therapy. The patient would benefit from a shorter recovery time, unnecessary testing, reduction in ineffective treatment and overall reduction in costs. Figure 1. Current diagnostic testing pathway using 6 independent tests with serum ferritin used as the primary indicator of iron stores. Figure 1. Current diagnostic testing pathway using 6 independent tests with serum ferritin used as the primary indicator of iron stores. Figure 2. Suggestion of a new 2 step diagnostic testing pathway with serum hepcidin as the primary indicator and reticulocyte haemoglobin equivalent as the predictor of iron deficiency and response to oral iron. Figure 2. Suggestion of a new 2 step diagnostic testing pathway with serum hepcidin as the primary indicator and reticulocyte haemoglobin equivalent as the predictor of iron deficiency and response to oral iron. Disclosures Patmore: Janssen: Honoraria; Gilead: Honoraria.

scholarly journals Correlation between vivax malaria infection and iron deficiency in children

2015 ◽  
Vol 55 (1) ◽  
pp. 44
Author(s):  
Desmansyah Desmansyah ◽  
Rini Purnamasari ◽  
Theodorus Theodorus ◽  
Sulaiman Waiman
Keyword(s):  
Iron Deficiency ◽  
Serum Ferritin ◽  
Vivax Malaria ◽  
Malaria Infection ◽  
Serum Iron ◽  
Iron Status ◽  
Transferrin Saturation ◽  
Hemoglobin Level ◽  
Ferritin Concentration ◽  
Iron Deficient

Background Iron deficiency is considered to be a major public health problem around the world due to its high prevalence as well as its effect on growth, development, and infection-resistance in children. In malaria-endemic areas, malaria infection is thought to contribute to the occurrence of iron deficiency, by means of hepcidin and hemolysis mechanisms. Objective To assess the prevalence of asymptomatic vivax malaria, compare hemoglobin levels and iron status parameters between vivax malaria-infected and uninfected children, assess the prevalence of iron deficiency, and evaluate a possible correlation between vivax malaria infection and iron deficiency. Methods This cross-sectional study was conducted from February to April 2013 at Sanana City of Sula Islands District, North Maluku. Six parameters were evaluated in 5-11-year-old children: malaria parasite infection, hemoglobin level, serum iron concentration, total iron-binding capacity (TIBC), serum transferrin saturation, and serum ferritin concentration. Results Among 296 children aged 5-11 years, 75 (25.3%) were infected with Plasmodium vivax. In infected children, hemoglobin, serum iron, transferrin saturation, TIBC and serum ferritin were significantly lower than in non-infected children (P<0.01). Using a serum ferritin cut-off of <15 μg/dL, 142 (48.0%) of the children were found to be iron deficient. There was a strong correlation between vivax malaria infection and iron deficiency (OR 3.573; 95%CI 2.03-6.29). ConclusionThe prevalence of asymptomatic vivax malaria infection was 25.3%. The hemoglobin level and iron status parameters in vivax malaria-infected subjects were significantly lower than in uninfected children. The prevalence of iron deficiency was 48.0% for all study subjects. Malaria vivax infection was correlated with iron deficiency in 5-11-year-old children at Sanana City.

Siltuximab Treatment Increases Hemoglobin (Hb) Levels: Preliminary Results From a Prospective Phase 1 Study In Refractory Solid Tumors

Blood ◽  
2010 ◽  
Vol 116 (21) ◽  
pp. 5150-5150
Author(s):  
R. Kurzrock ◽  
E. Angévin ◽  
S. Cohen ◽  
J. Van Laethem ◽  
B. Rijnbeek ◽  
...  
Keyword(s):  
Solid Tumors ◽  
Research Funding ◽  
Serum Iron ◽  
Binding Capacity ◽  
Iron Status ◽  
Phase 1 ◽  
Transferrin Saturation ◽  
Maximum Increase ◽  
Baseline Serum ◽  
Clinically Significant

Abstract Abstract 5150 Introduction: Siltuximab is a chimeric monoclonal antibody with high affinity for the inflammatory cytokine, IL-6, which is currently being studied in hematologic, solid malignancies and multicentric Castleman's disease (MCD). In addition to representing a therapeutic target, IL-6 is reported to play a key role in the etiology and symptoms of anemia of cancer. A possible mechanism is through up-regulation of hepatic production of hepcidin, the central iron-regulatory hormone. Siltuximab treatment has previously been shown to be associated with clinically significant Hb increases in MCD (a disorder caused by deregulated IL-6 production) and renal cell carcinoma. We have prospectively studied the Hb response in the context of a phase I study with siltuximab in patients with advanced solid tumors. Patients and Methods Siltuximab was administered intravenously to patients with any advanced solid tumor at increasing dose levels (2.8 or 5.5 mg/kg every 2 weeks, 11 or 15 mg/kg every 3 weeks). Hepcidin (C-ELISA), Hb, CRP (marker for inflammation) and iron status (serum iron, ferritin, transferrin saturation, total iron binding capacity) were measured at baseline and serially during treatment. IL-6 was not measured since interference of the drug with assay performance prevents accurate measurement of bioactive IL-6. The relationships between these biomarkers and Hb response (defined as a maximum Hb increase of ≥1 g/dL during treatment) were evaluated. Results: Forty-four pts (18 colorectal, 12 ovarian, 5 pancreatic, 9 other) received a median of 3 siltuximab cycles (range 1 – 25). Eight patients were excluded from analysis because they received blood transfusions or ESAs. There were no objective tumor responses (CR or PR). Baseline Hb ranged from 9.4–15.3 g/dL (median 12.2). All 36 evaluable patients had an increase in Hb (median 1.35 g/dL; range 0.1–3.2). Eleven (31%) patients had a maximum increase of ≥2 g/dL. Maximum Hb levels did not exceed the upper limit of normal. Baseline hepcidin (median 118.6 ng/mL; range 9.5–493.3) was positively correlated with baseline CRP (median 13.6 mg/L; range 0.42–152.0) (p<0.05) and ferritin (median 346 pmol/L; range 74.2–8543.1) (p<0.05) but not with baseline Hb or Hb response. For subjects with a Hb response of more than 2 g/dL an association was found with Day 8 hepcidin (p = 0.03) when controlled for baseline serum iron. Early hepcidin percentage change was not correlated with Hb response. Conclusion: Siltuximab treatment was associated with clinically meaningful Hb response in this moderately anemic refractory cancer population. The exact mechanism of action remains uncertain, however correlation with additional markers (e.g., soluble transferrin receptor, inflammatory markers such as IL-6) might also be important to identify patients most likely to respond to treatment and should be evaluated further in randomized trials. Disclosures: Kurzrock: Johnson & Johnson: Research Funding. Angévin:Johnson & Johnson: Research Funding. Cohen:Johnson & Johnson: Research Funding. Van Laethem:Johnson & Johnson: Research Funding. Rijnbeek:Johnson & Johnson: Employment. Vermeulen:Johnson & Johnson: Employment. Tromp:Johnson & Johnson: Employment. Li:Johnson & Johnson: Employment. Reddy:Johnson & Johnson: Employment. Cornfeld:Johnson & Johnson: Employment. Tabernero:Johnson & Johnson: Research Funding.

Expression of hepcidin in hereditary hemochromatosis: evidence for a regulation in response to the serum transferrin saturation and to non-transferrin-bound iron

Blood ◽  
2003 ◽  
Vol 102 (1) ◽  
pp. 371-376 ◽  
Author(s):  
Sven G. Gehrke ◽  
Hasan Kulaksiz ◽  
Thomas Herrmann ◽  
Hans-Dieter Riedel ◽  
Karin Bents ◽  
...  
Keyword(s):  
Iron Overload ◽  
Serum Ferritin ◽  
Iron Homeostasis ◽  
Iron Status ◽  
Hereditary Hemochromatosis ◽  
Transferrin Saturation ◽  
Serum Transferrin ◽  
Transcript Levels ◽  
Hepcidin Expression

Abstract Experimental data suggest the antimicrobial peptide hepcidin as a central regulator in iron homeostasis. In this study, we characterized the expression of human hepcidin in experimental and clinical iron overload conditions, including hereditary hemochromatosis. Using quantitative reverse transcriptase-polymerase chain reaction (RT-PCR), we determined expression of hepcidin and the most relevant iron-related genes in liver biopsies from patients with hemochromatosis and iron-stain-negative control subjects. Regulation of hepcidin mRNA expression in response to transferrin-bound iron, non-transferrin-bound iron, and deferoxamine was analyzed in HepG2 cells. Hepcidin expression correlated significantly with serum ferritin levels in controls, whereas no significant up-regulation was observed in patients with hemochromatosis despite iron-overload conditions and high serum ferritin levels. However, patients with hemochromatosis showed an inverse correlation between hepcidin transcript levels and the serum transferrin saturation. Moreover, we found a significant correlation between hepatic transcript levels of hepcidin and transferrin receptor-2 irrespective of the iron status. In vitro data indicated that hepcidin expression is down-regulated in response to non-transferrin-bound iron. In conclusion, the presented data suggest a close relationship between the transferrin saturation and hepatic hepcidin expression in hereditary hemochromatosis. Although the causality is not yet clear, this interaction might result from a down-regulation of hepcidin expression in response to significant levels of non-transferrin-bound iron. (Blood. 2003;102:371-376)

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