SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2131323454> ?p ?o ?g. }

Showing items 1 to 100 of ±302 with 100 items per page.

W2131323454 endingPage "517" @default.
W2131323454 startingPage "497" @default.
W2131323454 abstract "ABSTRACT Iron is an essential transition metal for mammalian cellular and tissue viability. It is critical to supplying oxygen through heme, the mitochondrial respiratory chain, and enzymes such as ribonucleotide reductase. Mammalian organisms have evolved with the means of regulating the metabolism of iron, because if left unregulated, the resulting excess amounts of iron may induce chronic toxicities affecting multiple organ systems. Several homeostatic mechanisms exist to control the amount of intestinal dietary iron uptake, cellular iron uptake, distribution, and export. Within these processes, numerous molecular participants have been identified because of advancements in basic cell biology and efforts in disease-based research of iron storage abnormalities. For example, dietary iron uptake across the intestinal duodenal mucosa is mediated by an intramembrane divalent metal transporter 1 (DMT1), and cellular iron efflux involves ferroportin, the only known iron exporter. In addition to duodenal enterocytes, ferroportin is present in other cell types, and exports iron into plasma. Ferroportin was recently discovered to be regulated by the expression of the circulating hormone hepcidin, a small peptide synthesized in hepatocytes. These recent studies on the role of hepcidin in the regulation of dietary, cellular, and extracellular iron have led to a better understanding of the pathways by which iron balance in humans is influenced, especially its involvement in human genetic diseases of iron overload. Other important molecular pathways include iron binding to transferrin in the bloodstream for cellular delivery through the plasma membrane transferrin receptor (TfR1). In the cytosol, iron regulatory proteins 1 and 2 (IRP1 and IRP2) play a prominent role in sensing the presence of iron in order to posttranscriptionally regulate the expression of TfR1 and ferritin, two important participants in iron metabolism. From a toxicological standpoint, posttranscriptional regulation of these genes aids in the sequestration, control, and hence prevention of cytotoxic effects from free-floating nontransferrin-bound iron. Given the importance of dietary iron in normal physiology, its potential to induce chronic toxicity, and recent discoveries in the regulation of human iron metabolism by hepcidin, this review will address the regulatory mechanisms of normal iron metabolism in mammals with emphasis on dietary exposure. It is the goal of this review that this information may provide in a concise format our current understanding of major pathways and mechanisms involved in mammalian iron metabolism, which is a basis for control of iron toxicity. Such a discussion is intended to facilitate the identification of deficiencies so that future metabolic or toxicological studies may be appropriately focused. A better knowledge of iron metabolism from normal to pathophysiological conditions will ultimately broaden the spectrum of the usefulness of this information in biomedical and toxicological sciences for improving and protecting human health." @default.
W2131323454 created "2016-06-24" @default.
W2131323454 creator A5075760054 @default.
W2131323454 date "2007-01-01" @default.
W2131323454 modified "2023-09-27" @default.
W2131323454 title "Mammalian Iron Metabolism" @default.
W2131323454 cites W130498243 @default.
W2131323454 cites W138004826 @default.
W2131323454 cites W1493731365 @default.
W2131323454 cites W1496473441 @default.
W2131323454 cites W1507286155 @default.
W2131323454 cites W1511974550 @default.
W2131323454 cites W1513520920 @default.
W2131323454 cites W1513969019 @default.
W2131323454 cites W1530657831 @default.
W2131323454 cites W153290133 @default.
W2131323454 cites W1536305347 @default.
W2131323454 cites W1551862901 @default.
W2131323454 cites W1560777399 @default.
W2131323454 cites W1564144670 @default.
W2131323454 cites W1568628619 @default.
W2131323454 cites W1568912715 @default.
W2131323454 cites W1581168206 @default.
W2131323454 cites W1585483325 @default.
W2131323454 cites W1589564633 @default.
W2131323454 cites W1591841346 @default.
W2131323454 cites W1601203296 @default.
W2131323454 cites W1618001767 @default.
W2131323454 cites W1710867374 @default.
W2131323454 cites W1734082729 @default.
W2131323454 cites W1761222131 @default.
W2131323454 cites W1774187086 @default.
W2131323454 cites W1910176080 @default.
W2131323454 cites W1943372705 @default.
W2131323454 cites W1958309861 @default.
W2131323454 cites W1960165410 @default.
W2131323454 cites W1965841590 @default.
W2131323454 cites W1969496526 @default.
W2131323454 cites W1969756310 @default.
W2131323454 cites W1970266451 @default.
W2131323454 cites W1971099877 @default.
W2131323454 cites W1972319230 @default.
W2131323454 cites W1972451546 @default.
W2131323454 cites W1973592220 @default.
W2131323454 cites W1973968247 @default.
W2131323454 cites W1974614940 @default.
W2131323454 cites W1975944453 @default.
W2131323454 cites W1976085354 @default.
W2131323454 cites W1977032555 @default.
W2131323454 cites W1980042430 @default.
W2131323454 cites W1980447246 @default.
W2131323454 cites W1980890795 @default.
W2131323454 cites W1982804638 @default.
W2131323454 cites W1985841747 @default.
W2131323454 cites W1987067683 @default.
W2131323454 cites W1987113388 @default.
W2131323454 cites W1988150327 @default.
W2131323454 cites W1991520111 @default.
W2131323454 cites W1992083687 @default.
W2131323454 cites W1992193197 @default.
W2131323454 cites W1994590672 @default.
W2131323454 cites W1998266864 @default.
W2131323454 cites W1998351143 @default.
W2131323454 cites W1999236279 @default.
W2131323454 cites W1999347013 @default.
W2131323454 cites W2003304400 @default.
W2131323454 cites W2003612914 @default.
W2131323454 cites W2003784000 @default.
W2131323454 cites W2005132438 @default.
W2131323454 cites W2005518342 @default.
W2131323454 cites W2006327118 @default.
W2131323454 cites W2006383772 @default.
W2131323454 cites W2006585409 @default.
W2131323454 cites W2006696030 @default.
W2131323454 cites W2009067479 @default.
W2131323454 cites W2010100531 @default.
W2131323454 cites W2010346856 @default.
W2131323454 cites W2010883644 @default.
W2131323454 cites W2012122173 @default.
W2131323454 cites W2013979767 @default.
W2131323454 cites W2014179433 @default.
W2131323454 cites W2014723793 @default.
W2131323454 cites W2015248217 @default.
W2131323454 cites W2015577297 @default.
W2131323454 cites W2015746024 @default.
W2131323454 cites W2017072280 @default.
W2131323454 cites W2017107298 @default.
W2131323454 cites W2018938097 @default.
W2131323454 cites W2019834646 @default.
W2131323454 cites W2021052479 @default.
W2131323454 cites W2022022844 @default.
W2131323454 cites W2022086508 @default.
W2131323454 cites W2023361302 @default.
W2131323454 cites W2023442218 @default.
W2131323454 cites W2023677185 @default.
W2131323454 cites W2024386356 @default.
W2131323454 cites W2025403494 @default.
W2131323454 cites W2026124431 @default.