Phlebotomy Increases Cadmium Uptake in Hemochromatosis.The intestinal absorption of the nephrotoxic nephrotoxic /neph·ro·tox·ic/ (nef´ro-tok?sik) destructive to kidney cells. Nephrotoxic Toxic, or damaging, to the kidney. environmental pollutant cadmium increases markedly when iron stores are depleted de·plete tr.v. de·plet·ed, de·plet·ing, de·pletes To decrease the fullness of; use up or empty out. [Latin d . This may be mediated by an up regulation of the recently identified mucosal transporter DMT See DSL. 1 (Nramp2 or DCT (Discrete Cosine Transform) An algorithm that is widely used for data compression. Similar to Fast Fourier Transform, DCT converts data (pixels, waveforms, etc.) into sets of frequencies. The first frequencies in the set are the most meaningful; the latter, the least. 1) for divalent divalent /di·va·lent/ (di-va´lent) bivalent; carrying a valence of two. di·va·lent adj. Bivalent. di·va cations. We tested whether the highly increased iron absorption in hereditary hemochromatosis Hemochromatosis Definition Hemochromatosis is an inherited blood disorder that causes the body to retain excessive amounts of iron. This iron overload can lead to serious health consequences, most notably cirrhosis of the liver. (HH) was accompanied by an enhanced absorption of cadmium and lead. Cadmium and lead in blood and iron status markers were determined in 21 nonsmoking non·smok·ing adj. 1. Not engaging in the smoking of tobacco: nonsmoking passengers. 2. Designated or reserved for nonsmokers: the nonsmoking section of a restaurant. subjects with HH genetically tested for the HFE HFE Hemochromatosis HFE Human Factors Engineering HFE Human Factors in Electronics HFE Hydrofluoroether (cleaning solvent) HFE Hope For Europe HFE Horizontal Fiscal Equalisation HFE Heat Flow Experiment HFE Forward Current Gain mutations and in 21 nonsmoking controls matched for age and sex. In subjects with HH on maintenance phlebotomy Phlebotomy Definition Phlebotomy is the act of drawing or removing blood from the circulatory system through a cut (incision) or puncture in order to obtain a sample for analysis and diagnosis. treatment, blood concentrations of cadmium, but not lead, were significantly higher than in paired controls. There was a strong age-independent positive association between blood cadmium and the number of years of phlebotomy treatment. Blood lead showed a similar but less pronounced consequence of treatment. All HH subjects with lower blood cadmium than the corresponding controls had either no mutation in the HFE gene, were not phlebotomized, or were phlebotomized for only a limited time. Our findings indicate that the treatment rather than the disease increased the cadmium uptake in homozygous ho·mo·zy·gous adj. Having the same alleles at one or more gene loci on homologous chromosome segments. Homozygous Identical genes controlling a specified inherited trait. HH. Further studies are needed to confirm whether the disease decreased cadmium absorption and whether the absorption was dependent on the genotype. Key words: absorption, cadmium, DCT1, DMT1, hemochromatosis, HFE, human, iron, lead, Nramp2. Environ Health Perspect 108:289-291 (2000). [Online 15 February 2000] http://ehpnet1.niehs.nih.gov/docs/2000/108p289-291akesson/abstract.html Cadmium, a widespread environmental pollutant, remains a threat to human health because there is little or no margin between existing exposure levels and the level that causes the first signs of tubular damage in the general population (1). Recent work shows a possible role for cadmium in the development of osteoporosis (2). The intestinal absorption of cadmium increases when iron stores are depleted but the mechanism of cadmium uptake is not known (3,4). Both the size of the iron stores and the rate of erythropoiesis erythropoiesis /eryth·ro·poi·e·sis/ (-poi-e´sis) the formation of erythrocytes.erythropoiet´ic e·ryth·ro·poi·e·sis n. The formation or production of red blood cells. determine the intestinal iron absorption (5). The mechanisms behind this regulation, as well as those behind the inappropriately increased mucosal iron transfer in the iron-loading disorder hereditary hemochromatosis (HH), have largely remained unknown. During the last 3 years, however, two important discoveries, a transmembrane transmembrane /trans·mem·brane/ (trans-mem´bran) extending across a membrane, usually referring to a protein subunit that is exposed on both sides of a cell membrane. trans·mem·brane adj. iron transporter (DMT1) (6,7) and the gene responsible for HH, known as HFE (8), have led to significant progress. Nevertheless, the complexity of iron homeostasis homeostasis Any self-regulating process by which a biological or mechanical system maintains stability while adjusting to changing conditions. Systems in dynamic equilibrium reach a balance in which internal change continuously compensates for external change in a feedback leaves much of the intestinal iron absorption in both health and disease obscure. DMT1 (9), previously called Nramp2 (6,10-13) or DCT1 (7), is a duodenal duodenal /du·o·de·nal/ (doo?o-de´n'l) (doo-od´ah-n'l) of or pertaining to the duodenum. Duodenal Refers to the duodenum, or the first part of the small intestine. metal transporter with affinity for several divalent cations. It is present in the brush border brush border n. An epithelial cell surface consisting of microvilli, as on the cells of the proximal tubule of the kidney. brush border membrane at the site where most of the iron is absorbed (7). DMT1 is up regulated by iron deficiency iron deficiency A relative or absolute deficiency of iron which may be due to chelation in the GI tract, loss due to acute or chronic hemorrhage or dietary insufficiency Sources Meat, poultry, eggs, vegetables, cereals, especially if fortified with iron; per the (7,11,14) and may be responsible for the increased absorption of iron and cadmium observed at depleted iron stores. The HFE protein is involved in the down regulation of iron absorption that normally occurs with increasing iron status (9,11,15-22). The HFE gene has a mutation with cysteine cysteine (sĭs`tēn), organic compound, one of the 20 amino acids commonly found in animal proteins. Only the l-stereoisomer participates in the biosynthesis of mammalian protein. substituted by tyrosine tyrosine (tī`rəsēn), organic compound, one of the 20 amino acids commonly found in animal proteins. Only the l-stereoisomer appears in mammalian protein. at amino acid amino acid (əmē`nō), any one of a class of simple organic compounds containing carbon, hydrogen, oxygen, nitrogen, and in certain cases sulfur. These compounds are the building blocks of proteins. position 282 (C282Y) in approximately 85% of the about 0.5% Caucasians affected by HH (9,23). The loss of normal HFE function may impair transferrin-receptor-mediated uptake of transferrin-bound serum iron in the intestinal crypt cells, leading to iron-deficient cells and increased expression of DMT1 in mature villus villus /vil·lus/ (vil´us) pl. vil´li [L.] a small vascular process or protrusion, especially from the free surface of a membrane. arachnoid villi 1. enterocytes (14,24). If this is the case, increased cadmium absorption could be expected in HH, as was previously shown for lead (25), and we tested this hypothesis. Materials and Methods We determined cadmium and lead in blood and iron status markers in 21 nonsmoking subjects with HH (18 men and 3 women) and conducted blood sampling in parallel with phlebotomies. We compared the results to those for 21 nonsmoking healthy controls matched for age ([+ or -] 8 years) and sex. HH diagnosis was based on family history, increased serum ferritin ferritin /fer·ri·tin/ (-i-tin) the iron-apoferritin complex, one of the chief forms in which iron is stored in the body. fer·ri·tin n. and transferrin saturation, and liver histology. We conducted genetic testing Genetic Testing Definition A genetic test examines the genetic information contained inside a person's cells, called DNA, to determine if that person has or will develop a certain disease or could pass a disease to his or her offspring. for the HFE mutations; 17 of 21 subjects were homozygous for the C282Y mutation, and 1 was homozygous for the H63D mutation (histidine histidine (hĭs`tĭdēn), organic compound, one of the 22 α-amino acids commonly found in animal proteins. Only the l-stereoisomer appears in mammalian protein. changed to aspartate aspartate /as·par·tate/ (ah-spahr´tat) a salt of aspartic acid, or aspartic acid in dissociated form. a·spar·tate n. 1. A salt of aspartic acid. 2. at amino acid position 63) (26). None of the patients had any history of previous blood transfusion blood transfusion, transfer of blood from one person to another, or from one animal to another of the same species. Transfusions are performed to replace a substantial loss of blood and as supportive treatment in certain diseases and blood disorders. , alcohol overconsumption ([is greater than] 30 g ethanol/day), or dietary iron supplementation. Serologic tests for hepatitis B Hepatitis B Definition Hepatitis B is a potentially serious form of liver inflammation due to infection by the hepatitis B virus (HBV). It occurs in both rapidly developing (acute) and long-lasting (chronic) forms, and is one of the most common chronic and C infection were negative in all of the patients. Of the 21 subjects, 3 were recently diagnosed cases in whom intensive phlebotomy treatment had not yet started or had just begun, and the remaining 18 patients were under maintenance treatment with two to six phlebotomies per year. The aim of the treatment was to maintain serum ferritin at 30-60 [micro]g/L. Phlebotomy treatment totaled 0-10 years (mean 6 years), the total number of phlebotomies was 0-75 (mean 38), and 0-34 L blood was removed (mean 17 L). Cadmium and lead in blood were used as measures of absorbed dose ab·sorbed dose n. The quantity of radiation energy, expressed in rads, that is administered or absorbed per unit mass of target. absorbed dose (27,28). They were determined by graphite furnace atomic absorption Graphite furnace atomic absorption spectrometry (GFAAS) (also known as Electrothermal Atomic Absorption Spectrometry (ETAAS)) is a type of spectrometry that uses a graphite-coated furnace to vaporize the sample. spectrometry with appropriate quality control (29). We used the Wilcoxon signed-ranks test for paired differences, and cadmium and lead concentrations were logarithmically log·a·rithm n. Mathematics The power to which a base, such as 10, must be raised to produce a given number. If nx = a, the logarithm of a, with n as the base, is x; symbolically, logn a = x. transformed in the linear regression Linear regression A statistical technique for fitting a straight line to a set of data points. analysis (SPSS A statistical package from SPSS, Inc., Chicago (www.spss.com) that runs on PCs, most mainframes and minis and is used extensively in marketing research. It provides over 50 statistical processes, including regression analysis, correlation and analysis of variance. version 9; SPSS Inc., Chicago, IL). We obtained protocol approval from the ethical committee at Huddinge University Hospital (Huddinge, Sweden). Results The significantly higher hemoglobin and transferrin saturation in subjects with HH as compared to controls agrees with the laboratory manifestations of the disease (Table 1). Serum ferritin was lower in the phlebotomized group because of the treatment. The phlebotomized subjects were not considered to have depleted iron stores or iron deficiency anemia Iron Deficiency Anemia Definition Anemia can be caused by iron deficiency, folate deficiency, vitamin B12 deficiency, and other causes. The term iron deficiency anemia means anemia that is due to iron deficiency. at the time of blood sampling. Although two subjects on a maintenance phlebotomy treatment had serum ferritin [is less than] 20 [micro]g/L (14 and 16 [micro]g/L), they had hemoglobin within the reference interval. The blood concentrations of cadmium and lead in the healthy controls were similar to those of middle-aged Swedes (Table 1) (30). Blood cadmium concentration, but not lead, was significantly higher in the subjects with HH on maintenance phlebotomy treatment than in the paired controls (Table 1). In the three nonphlebotomized subjects both cadmium and lead concentrations were lower than in paired controls, but we did not perform statistical testing for differences because of the small number of samples. Table 1. Age, iron status markers, and cadmium and lead in blood in nonsmoking subjects with hereditary hemochromatosis and in nonsmoking healthy controls matched for age and sex.
Hemochromatosis
Subject(a) Median (range)
Age All 58 (31-80)
Hemoglobin (g/L) All 155 (131-167)
Phlebotomized 156 (131-167)
Nonphlebotomized 142 (141-144)
Serum ferritin All 54 (14-1,314)
([micro]g/L) Phlebotomized 44 (14-168)
Nonphlebotomized 1,030 (780-1,314)
Transferrin All 78 (36-98)
saturation (%) Phlebotomized 78 (36-98)
Nonphlebotomized 89 (51-95)
Blood cadmium All 0.31 (0.06-1.2)
([micro]g/L) Phlebotomized 0.34 (0.06-1.2)
Nonphlebotomized 0.15 (0.12-0.19)
Blood lead All 25 (8-125)
([micro]g/L) Phlebotomized 26 (8-125)
Nonphlebotomized 13 (11-19)
Controls
median (range) p-Value
Age 53 (28-77) NS
Hemoglobin (g/L) 147 (131-160) 0.006
149 (134-160) 0.021
138 (131-140) -
Serum ferritin 129 (30-361) 0.039
([micro]g/L) 104 (30-218) NS
262 (162-301) -
Transferrin 29 (6-43) < 0.001
saturation (%) 29 (6-43) < 0.001
22 (18-32) -
Blood cadmium 0.26 (0.05-0.92) NS
([micro]g/L) 0.25 (0.05-0.92) 0.020
0.26 (0.21-0.27) -
Blood lead 26 (13-65) NS
([micro]g/L) 26 (13-65) NS
31 (14-34) -
NS, not significant. (a) All subjects (n = 21), phlebotomized subjects (n = 18), and nonphlebotomized subjects (n = 3). No statistical testing was performed on the nonphlebotomized group because of the small number of samples. Concentrations of cadmium, but not lead, increased with increasing age in both controls and in phlebotomized HH subjects, although the increase was more pronounced in the latter group. To control for this increase and for sex, the ratio between HH subjects and controls was expressed in relation to phlebotomy and to HFE mutations (Figure 1). On average, blood cadmium concentrations were 2 times higher in phlebotomized subjects than blood cadmium concentrations in the controls, whereas nonphlebotomized subjects had concentrations that were 60% of that in the controls. The phlebotomized subjects with substantially lower blood cadmium concentrations than the corresponding age- and sex-matched control (cadmium ratio [is less than] 0.5 in Figure 1; n = 3) had either no mutation in the HFE gene (n = 1), or were phlebotomized for short periods of time ([is less than] 1.7 years; n = 2). No such pattern was seen for blood lead. [Figure 1 ILLUSTRATION OMITTED] In HH subjects, blood cadmium was highly related to the number of years of treatment by phlebotomy (Figure 2), the total amount of blood removed by phlebotomy, and the total number of phlebotomies. When we controlled for covariance Covariance A measure of the degree to which returns on two risky assets move in tandem. A positive covariance means that asset returns move together. A negative covariance means returns vary inversely. through a stepwise stepwise incremental; additional information is added at each step. stepwise multiple regression used when a large number of possible explanatory variables are available and there is difficulty interpreting the partial regression multiple regression Multiple regression The estimated relationship between a dependent variable and more than one explanatory variable. analysis, only years of treatment (adjusted [r.sup.2] = 0.48) and age, but not the amount of blood loss or the number of phlebotomies, were significantly correlated to blood cadmium. The number of years of phlebotomy and age together explained [is greater than] 70% of the variation in cadmium concentrations (adjusted [r.sup.2] = 0.71; p [is less than] 0.001). In addition, lead in the blood was significantly correlated to the total number of years of treatment (adjusted [r.sup.2] = 0.35; p = 0.03), but not to the total amount of blood loss or to the number of phlebotomies. Adjustment of cadmium and lead to differences in hemoglobin concentration did not alter the results. [Figure 2 ILLUSTRATION OMITTED] Discussion To our knowledge, this is the first study of cadmium in subjects with pathologically increased iron absorption. Our main finding was the marked increase in blood cadmium concentrations with the increasing number of years of treatment by phlebotomy in subjects with HH. This increase occurred independently of age and despite the approximately 5-10% reduction of the amount of cadmium in blood with each phlebotomy treatment. Thus, the treatment rather than the disease caused the increase in blood cadmium in these subjects as compared to controls. Blood lead showed a similar but less pronounced consequence of treatment, but was not higher in HH subjects than in controls. This finding was in contrast with previously reported higher lead concentrations in HH patients than in healthy controls (25). Barton et al. (25) found no difference in blood lead between phlebotomized and nonphlebotomized subjects, and no correlation between blood lead and the number of phlebotomies. However, they did not investigate an association between blood lead and the number of years of treatment, which was the only association with lead in the present study. The absorption of iron increases after hemorrhage. The present results indicate that the repeated withdrawal of blood also led to enhanced absorption of cadmium and, to some extent, also lead. Depleted iron stores increase the cadmium absorption of both a single dose of cadmium and of dietary, cadmium (3,4), whereas similar studies on lead are inconsistent (31). In the present study, where no subjects with HH were considered clinically iron deficient, it seems likely that the prolonged elevated erythropoiesis, perhaps in combination with temporarily reduced iron stores immediately after the phlebotomy, caused an elevated intestinal absorption of cadmium and lead. The increased absorption of cadmium and lead may be mediated by up regulation of the duodenal metal-transporter DMT1. We found that the effect of phlebotomy was more pronounced for cadmium than for lead, which is in accordance with an indicated higher affinity of cadmium than of lead for the DMT1 protein (7). In the phlebotomized group, one subject had none of the mutations in the HFE gene and showed no signs of increased absorption due to the phlebotomies (Figure 1). Whether this reflects a different absorption in subjects lacking a homozygote homozygote (hō'mōzī`gōt): see genetics. mutation as compared to the homozygous mutations needs to be proven. Unfortunately, few nonphlebotomized HH subjects were available in this study. Still, the concentrations of cadmium and lead in these three subjects were consistently lower and close to one-half that of their respective controls. These findings further support the conclusion that the treatment rather than the disease caused increased cadmium uptake. Because of the limited number of nonphlebotomized subjects, it is not possible to evaluate whether the disease decreased cadmium uptake. If this were the case, it does not seem to be mediated by a down regulation of DMT1. Recent studies showed increased expression of DMT1 mRNA in both phlebotomized and nonphlebotomized HH subjects and in HFE knockout mice (14,32). Thus, other mechanisms may explain our results. The approximately 1,000 times higher iron concentration than cadmium and lead concentrations in the intestine (3,29) speak against a competition between the toxic metals and iron at the binding site of the transporter. However, although both cadmium and lead exist in the divalent form, which is the form that binds to DMT1, Fe(III) is the most abundant form of environmental iron and requires reduction to Fe(II) for binding (33,34). If there is not enough ferrous iron available, it is possible for cadmium and lead to bind to to contract; as, to bind one's self to a wife s>. See also: Bind the transporter. Interestingly, there is an increased reduction of ferric ferric (fĕr`ĭk), iron in the +3 valence state. See ferrous. to ferrous iron in the mucosal surface of both phlebotomized and nonphlebotomized HH subjects as compared to controls (34). Thus, it is possible that both the iron reduction (34) and the DMT1 expression are increased during the untreated stage of the disease (14,32), whereas the phlebotomy treatment increases the DMT1 expression without any further increase in the reduction of ferric iron. 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Blood lead concentrations in hereditary hemochromatosis. J Lab Clin Med 124:193-198 (1994). (26.) Cardoso EMP EMP abbr. electromagnetic pulse , Stal P, Hagen K, Cabeda JM, Esin S, Desousa M, Hultcrantz R. HFE mutations in patients with hereditary haemochromatosis in Sweden. J Intern Med 243:203-208 (1998). (27.) WHO. Inorganic Lead. Environmental Health Criteria 165. Geneva Geneva, canton and city, Switzerland Geneva (jənē`və), Fr. Genève, canton (1990 pop. 373,019), 109 sq mi (282 sq km), SW Switzerland, surrounding the southwest tip of the Lake of Geneva. :International Programme on Chemical Safety The International Programme on Chemical Safety (IPCS) is a collaboration between three United Nations bodies—the World Health Organization, the International Labour Organization and the United Nations Environment Programme. , World Health Organization, 1995. (28.) WHO. Cadmium. Environmental Health Criteria 134. Geneva:International Programme on Chemical Safety, World Health Organization, 1992. (29.) Vahter M, Berglund M, Lind B, Jorhem L, Slorach S, Friberg L. Personal monitoring of lead and cadmium exposure--a Swedish study with special reference to methodological aspects. Scand J Work Environ Health 17:65-74 (1991). (30.) Baecklund M, Pedersen NL, Bjorkman L, Vahter M. Variation in blood concentrations of cadmium and lead in the elderly. Environ Res 80:222-230 (1999). (31.) Goyer RA. Toxic and essential metal interactions. Ann Rev Nutr 17:37-50 (1997). (32.) Zoller H, Pietrangelo A, Vogel W, Weiss G. Doudenal metal-transporter (DMT1, NRAMP-2) expression in patients with hereditary haemochromatosis. Lancet 353:2120-2123 (1999). (33.) Andrews NC, Levy JE. Iron is hot: an update on the pathology of hemochromatosis. Blood 92:1845-1851 (1998). (34.) Raja KB, Poutney D, Bomford A, Sherman D, Simpson RJ, Williams R, Peters TJ. A duodenal mucosal abnormality in the reduction of Fe(III) in patients with genetic haemochromatosis. Gut 38:765-769 (1996). Address correspondence to A. Akesson, Institute of Environmental Medicine, Division of Metals and Health, Karolinska Institutet, Box 210, 171 77 Stockholm, Sweden. Telephone: 46 8 728 75 42. Fax: 46 8 33 70 39. E-mail: Agneta.Akesson@imm.ki.se We thank A. Hagberg and C. Jarlemark for blood sampling and B. Lind and B. Palm for metal analyses. This study was supported by a grant from the Swedish Society of Medicine. Received 30 August 1999; accepted 13 October 1999. Agneta Akesson,(1) Per Stal,(2) and Marie Vahter(1) (1) Institute of Environmental Medicine, Division of Metals and Health, Karolinska Institutet, Stockholm, Sweden (2) Department of Gastroenterology and Hepatology, Huddinge University Hospital, Karolinska Institutet, Huddinge, Sweden |
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