Iron Loading and Disease Surveillance.Iron is an oxidant oxidant /ox·i·dant/ (ok´si-dant) the electron acceptor in an oxidation-reduction (redox) reaction. ox·i·dant n. See oxidizer. as well as a nutrient for invading microbial and neoplastic cells. Excessive iron in specific tissues and cells (iron loading) promotes development of infection, neoplasia, cardiomyopathy Cardiomyopathy Definition Cardiomyopathy is a chronic disease of the heart muscle (myocardium), in which the muscle is abnormally enlarged, thickened, and/or stiffened. , arthropathy arthropathy /ar·throp·a·thy/ (ahr-throp´ah-the) any joint disease.arthropath´ic Charcot's arthropathy neuropathic a. , and various endocrine and possibly neurodegenerative disorders. To contain and detoxify de·tox·i·fy v. 1. To counteract or destroy the toxic properties of a substance. 2. To remove the effects of poison from something, such as the blood. 3. the metal, hosts have evolved an iron withholding defense system, but the system can be compromised by numerous factors. An array of behavioral, medical, and immunologic methods are in place or in development to strengthen iron withholding. Routine screening for iron loading could provide valuable information in epidemiologic, diagnostic, prophylactic, and therapeutic studies of emerging infectious diseases. Excessive iron in specific tissues (iron loading) promotes infection, neoplasia, cardiomyopathy, arthropathy, and a profusion of endocrine and possibly neurodegenerative disorders (1-5). An array of behavioral, medical, and immuno methods are being developed to decrease iron loading or its detrimental effects. Routine screening for iron loading in populations exposed to certain diseases can provide valuable epidemiologic, diagnostic, prophylactic, and therapeutic information. Hazards of Iron Loading Iron can contribute to disease development in several ways. Excessive amounts [ILLEGIBLE TEXT] metal in specific tissues and cells can hinder the ability of proteins, such as [ILLEGIBLE TEXT] and 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. , to prevent accretion of free iron. Moreover, in infectious diseases, inflammatory diseases, and illnesses that involve ischemia and reperfusion re·per·fu·sion n. The restoration of blood flow to an organ or tissue that has had its blood supply cut off, as after a heart attack. , iron causes reactions that produce superoxide superoxide /su·per·ox·ide/ (-ok´sid) any compound containing the highly reactive and extremely toxic oxygen radical O2-, a common intermediate in numerous biological oxidations. su·per·ox·ide n. radicals (6). Nonprotein bound ferric ferric (fĕr`ĭk), iron in the +3 valence state. See ferrous. [ILLEGIBLE TEXT] are reduced by superoxide, and the ferrous product is reoxidized by peroxide to regenerate ferric ions and yield hydroxyl radicals, which attack all classes of [ILLEGIBLE TEXT] macromolecules Macromolecules A large molecule composed of thousands of atoms. Mentioned in: Gene Therapy macromolecules . Hydroxyl radicals can depolymerize polysaccharides, cause [ILLEGIBLE TEXT] strand breaks, inactivate in·ac·ti·vate v. 1. To render nonfunctional. 2. To make quiescent. in·ac  ti·va enzymes, and initiate lipid peroxidation (6).Iron can also increase disease risk by functioning as a readily available essential nutrient for invading microbial and neoplastic cells. To survive and replicate in [ILLEGIBLE TEXT] microbial pathogens must acquire host iron. Highly virulent strains possess exceptionally powerful mechanisms for obtaining host iron from healthy hosts (7 persons whose tissues and cells contain excessive iron, pathogens can much [ILLEGIBLE TEXT] readily procure iron from molecules of transferrin transferrin /trans·fer·rin/ (-fer´in) a glycoprotein mainly produced in the liver, binding and transporting iron, closely related to the apoferritin of the intestinal mucosa. trans·fer·rin n. that are elevated in iron [ILLEGIBLE TEXT] In such cases, even microbial strains that are not ordinarily dangerous can cause illness. Markedly invasive neoplastic cell strains can glean host iron more easily less malignant strains or normal host cells (3). Moreover, iron-loaded tissues are especially susceptible to growth of malignant cells (Table 1). Table 1. Iron loading in specific tissues increased risk for disease
Tissue type Disease
Alveolar Pulmonary neoplasi
macrophages and infection
Anterior Gonadal and growth
pituitary dysfunction
Aorta; carotid Atherosclerosis
and coronary
arteries
Colorectal Adenoma, carcino
mucosa
Heart Arrhythmia,
cardiomyopathy
Infant Botulism, salmonel
intestine sudden death
Joints Arthropathy
Liver Viral hepatitis, cirr
carcinoma
Macrophages Intracellular infecti
Pancreas Acinar and beta cell
necrosis, carcinom
Plasma and lymph Extracellular infecti
Skeletal system Osteoporosis
Skin Leprosy, melanoma
Soft tissue Sarcoma
Substantia nigra Parkinson's disease
How Microbes Acquire Iron: A Determinant of Host Range and of Tissue Localization Customizing software and documentation for a particular country. It includes the translation of menus and messages into the native spoken language as well as changes in the user interface to accommodate different alphabets and culture. See internationalization and l10n. The number of infectious disease agents whose virulence is enhanced by iron continues to increase (Table 2). To obtain host iron, successful pathogens use one or more of four strategies: binding of ferrated siderophilins with extraction of iron Iron is the second-most abundant metal in the Earth's crust after aluminium. It is one of the most commonly used metals in the modern world. Iron as a metal in elemental form is rarely used on its own. at the cell surface; erythrocyte erythrocyte (ĭrĭth`rəsīt'): see blood. erythrocyte or red blood cell or red blood corpuscle Blood cell that carries oxygen from the lungs to the body tissues. lysis, digestion of hemoglobin, and heme assimilation; use of siderophores Siderophores Low-molecular-mass molecules that have a high specificity for chelating or binding iron. Siderophores are produced by many microorganisms, including bacteria, yeast, and fungi, to obtain iron from the environment. that withdraw iron from transferrin; and procurement of host intracellular iron. Table 2. Microbial genera with strains whose growth in body fluids, cells, tissues, and intact vertebrate hosts is stimulated by excess iron (8)
Gram-positive
and
Fungi Protozoa acid-fast bacteria
Candida Entamoeba Bacillus
Cryptococcus Leishmania Clostridium
Histoplasma Naegleria Corynebacterium
Paracoccidioides Plasmodium Erysipelothrix
Pneumocystis Toxoplasma Listeria
Pythium Trypanosoma Mycobacterium
Rhizopus Staphylococcus
Trichosporon Streptococcus
Gram-negative bacteri
Acinetobacter Klebsiell
Aeromonas Legionell
Alcaligenes Moraxell
Campylobacter Neisseria
Capnocytophaga Pasteurel
Chlamydia Proteus
Ehrlichia Pseudom
Enterobacter Salmonel
Escherichia Shigella
Microbial strains that use siderophilin binding often have a very narrow host range (7). Bacterial receptors recognize siderophilins generally from a single or closely related host species. Strains of Haemophilus somnus, for example, form receptors for bovine but not for human transferrin; these bacteria are virulent for cattle but not for humans (9). The human pathogen, Neisseria meningitidis, can bind ferrated transferrins from humans and such hominids as chimpanzees, gorillas, and orangutans, but not from [ILLEGIBLE TEXT] nonprimate mammals (10,11). Actinobacillus pleuropneumoniae synthesizes a [ILLEGIBLE TEXT] specific transferrin receptor and causes pneumonia only in hogs (12). Each of the above three pathogens, as well as other organisms that use [ILLEGIBLE TEXT] binding, can often obtain iron from heme. Helicobacter pylori, for instance, first obtains iron from human ferrated lactoferrin lactoferrin (lak´tōfer´in), n an iron-binding protein found in the specific granules of neutrophils where it apparently exerts an antimicrobial activity by withholding iron from ingested bacteria and fungi. in the gastric lumen. Then, as it [ILLEGIBLE TEXT] into intercellular intercellular /in·ter·cel·lu·lar/ (-sel´u-lar) between or among cells. in·ter·cel·lu·lar adj. Located among or between cells. junctions of epithelial cells in the gastric wall, its sole source of is heme. This pathogen binds neither bovine ferrated lactoferrin nor human, boviequine ferrated transferrin (13). However, not every pathogen that uses siderophilin binding has a narrow host [ILLEGIBLE TEXT] For example, Staphylococcus aureus can be virulent for a variety of mammalian species. Strains of this organism can bind human, rat, and rabbit transferrins and, much less efficiently, bovine, porcine, and avian transferrins (14). Moreover, [ILLEGIBLE TEXT] of S. aureus also may produce siderophores (15,16). These small molecules can withdraw iron from transferrins synthesized by a variety of host species. The siderophore siderophore /sid·ero·phore/ (sid´er-o-for?) a macrophage containing hemosiderin. sid·er·o·phore n. A large, extravasated, mononuclear phagocyte containing a granule of hemosiderin. , staphyloferrin A, removes iron from both human and porcine [ILLEGIBLE TEXT] thus, the metal can be available to invading cells in humans and in hogs. Erythrolysis, digestion of hemoglobin, and heme assimilation are available to strains of aureus. Bacterial hemolysins generally are active against erythrocytes Erythrocytes Red blood cells. Mentioned in: Bartonellosis erythrocytes (ē·rithˑ·rō·sīts), n.pl red blood cells. from sever although not from all, potential host species. Virulent streptococci are examples of bacteria that neither bind siderophilins [ILLEGIBLE TEXT] produce siderophores yet proficiently invade and replicate in many tissues in [ILLEGIBLE TEXT] host species. The cellulytic activities of these pathogens enable them to access [ILLEGIBLE TEXT] intracellular sources of host iron as hemoglobin, myoglobin myoglobin (mī'əglō`bĭn), protein molecule isolated from the cells of vertebrate skeletal muscle that is both a structural and functional relative of hemoglobin, the oxygen-transport protein of the blood of higher animals. , catalase catalase /cat·a·lase/ (kat´ah-las) a hemoprotein enzyme that catalyzes the decomposition of hydrogen peroxide to water and oxygen, protecting cells. , and ferritin (17). The remarkable versatility for host species shown by Listeria monocytogenes illustrates the adeptness of this organism in procuring iron. Although mainly a saprophyte saprophyte (săp`rəfīt'), any plant that depends on dead plant or animal tissue for a source of nutrition and metabolic energy, e.g., most fungi (molds) and a few flowering plants, such as Indian pipe and some orchids. that lives in the plant-soil environment, L. monocytogenes can be [ILLEGIBLE TEXT] by humans and other mammals through ingestion of undercooked tissue of other mammals, birds, fish, and Crustacea, as well as from raw vegetables. Unable to [ILLEGIBLE TEXT] siderophilins or form siderophores, L. monocytogenes obtains iron by using [ILLEGIBLE TEXT] exogenous siderophores of other microorganisms or natural catechols, such as dopamine and norepinephrine norepinephrine (nôr'ĕpīnĕf`rən), a neurotransmitter in the catecholamine family that mediates chemical communication in the sympathetic nervous system, a branch of the autonomic nervous system. , in host tissues. The pathogen expresses a cell surf ferric reductase reductase /re·duc·tase/ (-tas) a term used in the names of some of the oxidoreductases, usually specifically those catalyzing reactions important solely for reduction of a metabolite. that recognizes the siderophoric chelated che·late adj. Zoology Having chelae or resembling a chela. n. Chemistry A chemical compound in the form of a heterocyclic ring, containing a metal ion attached by coordinate bonds to at least two nonmetal ions. iron site; the metal is [ILLEGIBLE TEXT] reduced and assimilated (18). Furthermore, in contrast to saprophytic saprophytic pertaining to saprophyte. strains, [ILLEGIBLE TEXT] pathogenic strains of L. monocytogenes are hemolytic he·mo·lyt·ic adj. Destructive to red blood cells; hematolytic. Hemolytic Referring to the destruction of the cell membranes of red blood cells, resulting in the release of hemoglobin from the damaged cell. . To grow within host cells, pathogens apparently are not required to synthesize siderophilin binding sites or form siderophores. For instance, unlike the wild [ILLEGIBLE TEXT] siderophore-minus mutants of Salmonella Typhimurium cannot grow in [ILLEGIBLE TEXT] compartments of the host. However, both the wild and mutant strains replicate [ILLEGIBLE TEXT] host cells (19). Possible sources of intracellular iron are heme, iron released from transferrin at pH 5.5-6, and ferritin. For at least two pathogens, Francisella tularensis and Legionella pneumophila, [ILLEGIBLE TEXT] host intracellular niche is obligatory. Like the mutant strain of S. Typhimurium, [ILLEGIBLE TEXT] organisms are unable to access iron in extracellular fluids and tissues. Culturing [ILLEGIBLE TEXT] bacteria in laboratory media requires markedly elevated concentrations of iron (20,21). In host intracellular niches, growth of microbial pathogens is stimulated by [ILLEGIBLE TEXT] and depressed by decrease of iron. Indeed, at least one bacterial pathogen, Ehrlic chaffeensis, induces elevation of iron in its host cells; intracellular inclusions of [ILLEGIBLE TEXT] organism cause the host cell to upregulate expression of the transferrin receptor mRNA (22). Iron Withholding Defense System Hosts use several mechanisms (Table 3) to withhold iron from invading [ILLEGIBLE TEXT] neoplastic cells: stationing of potent iron binding proteins at sites of impending im·pend intr.v. im·pend·ed, im·pend·ing, im·pends 1. To be about to occur: Her retirement is impending. 2. microbial invasion; lowering iron levels in body fluids, diseased tissues, and [ILLEGIBLE TEXT] cells during invasion; and synthesizing immunoglobulins to the iron acquisition antigens of microbes.
Table 3. The iron withholding defense system (1,8)
Constitutive components
Siderophilins
Transferrin in plasma, lymph, cerebrospinal fluid
Lactoferrin in secretions of lachrymal and mammary glands
and of respiratory, gastrointestinal, and genital tracts
Ferritin within host cells
Processes induced at time of invasion
Suppression of assimilation of 80% of dietary iron(a)
Suppression of iron efflux from macrophages that have digested
effete erythrocytes to result in 70% reduction in plasma iron(a)
Increased synthesis of ferritin to sequester withheld iron(a)
Release of neutrophils from bone marrow into circulation and then
into site of infection(a)
Release of apolactoferrin from neutrophil granules followed by
binding of iron in septic sites
Macrophage scavenging of ferrated lactoferrin in areas of sepsis
and of tumor cell clusters
Hepatic release of haptoglobin and hemopexin (to bind extravasated
hemoglobin and hemin, respectively)
Synthesis of nitric oxide (from L-arginine) by macrophages to
disrupt iron metabolism of invaders(b)
Suppression of growth of microbial cells within macrophages via
downshift of expression of transferrin receptors and enhanced
synthesis of Nrampl (23) by the host cells(b)
Induction in B lymphocytes of synthesis of immunoglobulins to
iron-repressible cell surface proteins that bine either heme,
ferrated siderophilins, or ferrated siderophores
(a) Activated by interleukin-1 or -6 or by tumor necrosis factor-[square]. (b) Activated by interferon-g. High concentrations of iron not only benefit invading cells, they may also [ILLEGIBLE TEXT] antimicrobial activities of defense cells. In in vitro studies, 150 [micro]M iron [ILLEGIBLE TEXT] macrophage killing of Brucella abortus (24) and, without altering phagocytosis phagocytosis: see endocytosis. Phagocytosis A mechanism by which single cells of the animal kingdom, such as smaller protozoa, engulf and carry particles into the cytoplasm. , [micro]M iron enhanced anti-Candida activity of microglia microglia /mi·crog·lia/ (mi-krog´le-ah) small nonneural cells forming part of the supporting structure of the central nervous system. They are migratory and act as phagocytes to waste products of nerve tissue. (25). In the latter system, [ILLEGIBLE TEXT] metal suppressed synthesis of nitric oxide but not of tumor necrosis factor tumor necrosis factor n. Abbr. TNF A protein that is produced in the presence of an endotoxin, especially by monocytes and macrophages, is able to attack and destroy tumor cells, and exacerbates chronic inflammatory diseases. A. By generating oxidant-sensitive mediators, iron may focus influx of neutrophils to [ILLEGIBLE TEXT] of infection (26). Iron loading of staphylococci increased their killing by [ILLEGIBLE TEXT] macrophages, and neutrophil-derived cytoplasts but not by neutrophils (27). [ILLEGIBLE TEXT] conditions can impair iron withholding (Table 4); numerous studies have present evidence that risk for infection or neoplasia is increased significantly in persons these conditions. Table 4. Conditions that can compromise iron withholding (1,3)
Excessive intake of iron through intestinal absorption
Behavioral and nutritional factors
Accidental ingestion of iron tablets
Adulteration of processed foods with inorganic
iron or blood
Excessive consumption of red meats
(heme iron)
Excessive intake of alcohol (HCl secretion
enhanced)
Folic acid deficiency
Ingestion of ascorbic acid with inorganic iron
Use of iron cookware
Genetic and physiological factors
African siderosis
Asplenia (mechanism unknown)
Pancreatic deficiency of bicarbonate ions
Porphyria cutanea tarda
Regulatory defect in mucosal cells in
hemochromatosis
Thalassemia, sicklemia, other
hemoglobinopathies
Parenteral iron
Intramuscular and intravenous iron saccharate
injections in excess
Multiple transfusions of whole blood or
erythrocytes in excess
Inhaled iron
Exposure to amosite, crocidolite, or tremolite
asbestos
Exposure to urban air particulates
Mining iron ore, welding, grinding steel
Painting with iron oxide powder
Tobacco smoking (1-2 [micro]g iron inhaled per
cigarette pack)
Release of body iron from compartments into plasma
Efflux of erythrocyte iron in hemolytic diseases
Efflux of hepatocyte iron in hepatitis
Deficit in iron withholding
Transferrin
Decreased synthesis
Congenital defect
Lack of dietary amino acids in kwashiorkor or
in jejunoileal bypass
Decreased activity in acidosis
Lactoferrin
Neutropenia
Substitution of bovine milk or milk formula for
human milk in nursing nutrition
Haptoglobin
Decreased synthesis in persons with haplotype
2-2 (28)
[ILLEGIBLE TEXT] apparently independent of inflammation, is significantly reduced in persons with levels of iron (5). Strengthening the Iron Withholding Defense A considerable array of behavioral, medical, and immunologic methods are in [ILLEGIBLE TEXT] or in development for strengthening iron withholding (Table 5) (3). Additional precautions are indicated for persons who are known to be (or have a tendency to become) iron loaded. For example, persons with elevated iron due to either 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. or alcoholism are cautioned to avoid eating raw oysters, which contain Vibrio vulnificus (30). Another pathogen that likewise causes severe [ILLEGIBLE TEXT] infection in hosts with elevated iron is Capnocytophaga canimorsis. Accordingly persons who have hemochromatosis, alcoholism, or asplenia are advised to [ILLEGIBLE TEXT] prompt antibiotic therapy if they are exposed to a dog bite (31). Table 5. Methods of strengthening the iron withholding defense system Reduction of excessive intake of ingested iron Decreased consumption of red meats (heme iron) Avoidance of processed foods that have been adulterated with inorganic iron or with blood Decreased consumption of alcohol and ascorbic acid Elimination of iron supplements unless an iron deficiency has been correctly diagnosed Reduction of excessive intake of parenteral iron Inject iron saccharates only if unequivocally justified Transfuse blood or erythrocytes only if unequivocally justified Substitute erythropoietin (+ minimal amount of iron) for whole blood transfusions when possible Reduction of excessive inhalation of iron Eliminate use of tobacco Use iron-free chrysotile in place of iron-loaded amosite, crocidolite, tremolite varieties of asbestos Use mask to avoid inhalation of urban air particulates Use mask and protective clothing when mining or cutting ferriferous substances Reduction of iron burden by regular depletion of whole blood or erythrocytes Avoidance of premature hysterectomy Routine ingestion of aspirin Regular donations of whole blood or erythrocytes Vigorous exercise Increased use of iron chelators Use human milk (high in lactoferrin, low in iron) rather than milk formula (lacking in lactoferrin, high in iron) in nursling nutrition Use tea (iron-binding tannins) and bran (iron-binding phytic acid) Continue research and development (R&D) of potential iron chelator drags (e.g., recombinant human lactoferrin; hydroxpyridones; pyridoxal isonicotinoyl hydrazones) Initiation of prompt therapy of chronic infections and neoplastic diseases to fores saturation of iron withholding defense system Continued R&D of cytokines such as interferon g that induce cellular iron withholding Continued R&D of passive and active methods of immunization against surface receptor proteins used by microbial and neoplastic cells to obtain iron De-ironing by 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. is effective in lowering risk for cardiovascular disease (32,33) and various neoplasms (34), as well as in therapy for hepatitis C (35). Interfering with iron metabolism by administering gallium can be useful in suppressing growth of lymphoma and bladder cancer cells (36). The antineoplast action of monoclonal antibodies against ferrated transferrin receptors has been examined (37). Combinations of the iron chelator chelator A chemical–eg, EDTA that binds metal ions from solutions. See Chelation therapy. , deferoxamine, with gallium or antibodies against ferrated transferrin receptors increase effectiveness against [ILLEGIBLE TEXT] cells. The natural iron scavenger, lactoferrin, has been shown to remove free iron from synovial fluid aspirated from joints of rheumatoid arthritic patients (38). [ILLEGIBLE TEXT] human lactoferrin, which is indistinguishable from native breast milk lactoferrin respect to its iron binding properties, is now available (39) and could become a [ILLEGIBLE TEXT] useful addition to our array of de-ironing pharmaceutical products. A recently discovered integral membrane phosphoglycoprotein, Nrampl, is [ILLEGIBLE TEXT] exclusively in macrophages and is localized to phagolysosomes. The protein suppresses replication of intramacrophage microbial invaders apparently by [ILLEGIBLE TEXT] iron availability (23). A second protein, Nramp2, is involved in enhancement of intestinal iron absorption (40). Future research might develop useful medical procedures for modulation of the actions of these proteins. Potential vaccines that incorporate iron acquisition antigens of pathogens in the families Neisseriaceae and Pasteurellaceae are being developed by several [ILLEGIBLE TEXT] groups. For example, in Moraxella catarrhalis, the recombinant transferrin [ILLEGIBLE TEXT] protein B (TbpB) has been shown to elicit bactericidal bactericidal /bac·te·ri·ci·dal/ (bak-ter?i-si´d'l) destructive to bacteria. Bactericidal An agent that destroys bacteria (e.g. antibodies (41) In N. meningitidis, antisera to TbpA and TbpB were bactericidal for both homologous heterologous heterologous /het·er·ol·o·gous/ (het?er-ol´ah-gus) 1. made up of tissue not normal to the part. 2. xenogeneic. het·er·ol·o·gous adj. 1. strains (42,43). Because the antigenic proteins function at the cell surfaces of the pathogens, the receptors are potentially ideal vaccine candidates. synthesis of the receptors, the organisms must be cultured in iron-restricted [ILLEGIBLE TEXT] Perspectives and Conclusions There is growing awareness that transmissible transmissible /trans·mis·si·ble/ (trans-mis´i-b'l) capable of being transmitted. trans·mis·si·ble adj. Capable of being conveyed from one person to another. agents are involved in diseases no earlier suspected of being infectious (44-46). A recent review contains a list of 3 degenerative, inflammatory, and neoplastic neoplastic /neo·plas·tic/ (ne?o-plas´tik) 1. pertaining to a neoplasm. 2. pertaining to neoplasia. neoplastic pertaining to neoplasia or a neoplasm. diseases associated in various ways specific infectious agents (44). Other chronic inflammatory diseases, such as sarcoidosis Sarcoidosis Definition Sarcoidosis is a disease which can affect many organs within the body. It causes the development of granulomas. Granulomas are masses resembling little tumors. They are made up of clumps of cells from the immune system. , inflammatory bowel disease inflammatory bowel disease n. Abbr. IBD Any of several incurable and debilitating diseases of the gastrointestinal tract characterized by inflammation and obstruction of parts of the intestine. , rheumatoid arthritis, systemic lupus erythematosus Systemic Lupus Erythematosus Definition Systemic lupus erythematosus (also called lupus or SLE) is a disease where a person's immune system attacks and injures the body's own organs and tissues. Almost every system of the body can be affected by SLE. , Wegener granulomatosis, diabetes mellitus, primary biliary [ILLEGIBLE TEXT] tropical spree, and Kawasaki disease may also have infectious etiologies (45). Excessive iron is correlated with synovial synovial /sy·no·vi·al/ (-al) 1. pertaining to a synovial membrane. 2. pertaining to or secreting synovia. synovial of, pertaining to, or secreting synovia. damage in rheumatoid arthritis (47) an with impaired glucose metabolism in diabetes (48). The association of Chlamydi pneumoniae (49) and excessive iron (5) with cardiovascular disease is well established. Growth of this pathogen is strongly suppressed by iron restriction (5 Proving the role of infection in chronic inflammatory diseases and cancer present challenges (46). The means by which pathogens suppress, subvert, or evade host defenses to establish chronic or latent infection have received little attention. However, the association and causal role of infectious agents in chronic [ILLEGIBLE TEXT] diseases and cancer have major implications for public health, treatment, and prevention (44-46). Iron loading is a risk factor in these illnesses, as well as in classic infectious [ILLEGIBLE TEXT] Because the prevalence of iron loading in various populations can be remarkably high, routine screening of iron values in host populations could provide valuable information in epidemiologic, diagnostic, prophylactic, and therapeutic studies [ILLEGIBLE TEXT] emerging infectious diseases. Acknowledgment Dedicated to Jerome L. Sullivan, pioneer and leader in our awareness of the role of iron in cardiovascular disease. Support for this review was provided by the Office of Research and the University Graduate School, Indiana University, Bloomington, IN, USA. References (1.) Kontoghiorghes GJ, Weinberg ED. Iron: mammalian defense systems, mechanisms of disease, and chelation therapy approaches. Blood Rev 1995;9:33-45. (2.) Weinberg ED, Weinberg GA. The role of iron in infection. Current [ILLEGIBLE TEXT] Infectious Diseases 1995;8:164-9. (3.) Weinberg ED. The role of iron in cancer. Eur J Cancer Prev 1996;5:19-36. (4.) Connor JR, Beard JL. Dietary iron supplements in the elderly: to use or not use? Nutrition Today 1997;32:102-9. (5.) Tuomainen T-P, Punnonen K, Nyyssonen K, Salonen JT. Association between body iron stores and the risk of acute myocardial infarction acute myocardial infarction (  ·kyōōtˑ mī·ō·karˑ·dē· in men. [ILLEGIBLE TEXT] 1998;97:1461-6.(6.) McCord JM. Effects of positive iron status at a cellular level. Nutr Rev 1996;54:85-8. (7.) Weinberg ED. Patho-ecological implications of microbial acquisition of [ILLEGIBLE TEXT] iron. Reviews in Medical Microbiology 1998;9:171-8. (8.) Weinberg ED. Acquisition of iron and other nutrients in vivo. In: Roth JA, Bolin CA, Brogdon KA, Wannemuehler MJ, editors. Virulence mechanis bacterial pathogens. Washington: American Society for Microbiology The American Society for Microbiology (ASM) is a scientific organization, based in the United States although with over 43,000 members throughout the world. It is the largest single life science professional organization and its members include those whose interests encompass basic ; 199 79-94. (9.) Ogunnariwo JA, Cheng C, Ford J, Schryvers AB. Response of Haemophil somnus to iron limitation: expression and identification of a [ILLEGIBLE TEXT] transferrin receptor. Microbial Pathogenesis 1990;9:397-406. (10.) Arko RJ. Animal models for Neisseria species. Clin Microbiol Rev 1989;2 9. (11.) Gray-Owen SD, Schryvers AB. The interaction of primate transferrins with receptors on bacteria pathogenic to humans. Microbial Pathogenesis 1993;14:389-98. (12.) Gonzalez GC, Casmano OL, Schryvers AB. Identification and characterization of a porcine-specific transferrin receptor in Actinobacillus pleuropneumoni Mol Microbiol 1990;4:1173-9. (13.) Worst DJ. Iron acquisition by Helicobacter pylori. Ph.D. thesis. Amsterdam Vrije Universiteit; 1997; p. 109-16. (14.) Modun B, Evans R.W., Joannou CL, Williams P. Receptor-mediated recognition and uptake of iron from human transferrin by Staphylococcus aureus and Staphylococcus epidermidis. Infect Immun 1998;65:1944-8. (15.) Lindsay JA, Riley TV. Staphylococcal iron requirements, siderophore production, and iron-regulated protein expression. Infect Immun 1994;62: 14. (16.) Courcol RJ, Trivier D, Bissinger M-C, Martin OR, Brown MRW (Mount Rainier ReWritable) See Mount Rainier. . Siderophore production by Staphylococcus aureus and identification of iron-regulated proteins. Infect Immun 1997;65:1944-8. (17.) Eichenbaum Z, Muller E, Morse SA, Scott JR. Acquisition of iron from [ILLEGIBLE TEXT] proteins by the group A streptococcus group A streptococcus n. A common but virulent streptococcus that kills the tissue it infects and produces toxins that trigger a form of shock that affects the vital organs. . Infect Immun 1996;64:5428-9. (18.) Coulanges V, Andre P, Vidon DJ-M. Effect of siderophores, catecholamin and catechol catechol /cat·e·chol/ (kat´ah-kol) 1. catechin. 2. pyrocatechol. cat·e·chol n. See pyrocatechol. compounds on Listeria spp. growth in iron-complexed medium Biochem Biophys Res Commun 1998;24:526-30. (19.) Tsolis RM, Baumler AJ, Heffron F, Stojikovic I. Contributions of TonB- a feo-mediated iron uptake to growth of Salmonella typhimurium in the [ILLEGIBLE TEXT] Infect Immun 1996;64:4549-56. (20.) Fortier AH, Leiby DA, Narayanan RB, Asafoadjei E, Crawford RM, Nacy et al. Growth of Francisella tularensis LVS LVS Linux Virtual Server LVS Live Vaccine Strain LVS Las Vegas, New Mexico (Airport Code) LVS Low Voltage Switchgear LVS Logistical Vehicle System LVS Laser Vibration Sensor LVS Logistics Vehicle System in macrophages: the acidic intracellular compartment provides essential iron required for growth. [ILLEGIBLE TEXT] Immun 1995;63:1478-83. (21.) Byrd TF. Cytokines and legionellosis. Biotherapy 1994;7:179-86. (22.) 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[ILLUSTRATION OMITTED] Home | Top of Page | Current Issue | Expedited | Upcoming Issue | Past Issue | EID EID Emerging Infectious Diseases (journal) EID Electronic Identification EID Endpoint Identifier EID Employee Identification EID Ecological Interface Design EID Earned Income Disregard EID Education and Information Division Search | Contact Us CDC See Control Data, century date change and Back Orifice. CDC - Control Data Corporation Home | Search | Health Topics A-Z This page last reviewed July 1, 1999 Emerging Infectious Diseases Journal National Center for Infectious Diseases Centers for Disease Control and Prevention Centers for Disease Control and Prevention (CDC), agency of the U.S. Public Health Service since 1973, with headquarters in Atlanta; it was established in 1946 as the Communicable Disease Center. URL URL in full Uniform Resource Locator Address of a resource on the Internet. The resource can be any type of file stored on a server, such as a Web page, a text file, a graphics file, or an application program. : http://www.cdc.gov/ncidod/eid/vol5no3/weinberg.htm Dr. Weinberg is professor emeritus of microbiology in both the College of Arts and Sciences the School of Medicine at Indiana University, Bloomington, IN. His studies on iron were initiate 1952. Since retiring from teaching in 1992, he has devoted full time to research. Address for correspondence: E.D. Weinberg, Jordan Hall 142, Indiana University, Blooming IN 47405, USA; fax: 812-855-6705; e-mail: eweinber@indiana.edu. |
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