Molecular mechanisms and regulation of iron transport

Jayong Chung; Marianne Wessling-Resnick; Caroline Enns

doi:10.1080/713609332

Molecular mechanisms and regulation of iron transport

Jayong Chung, Marianne Wessling-Resnick, Caroline Enns

Research output: Contribution to journal › Review article › peer-review

62 Citations (Scopus)

Abstract

Iron homeostasis is primarily maintained through regulation of its transport. This review summarizes recent discoveries in the field of iron transport that have shed light on the molecular mechanisms of dietary iron uptake, pathways for iron efflux to and between peripheral tissues, proteins implicated in organellar transport of iron (particularly the mitochondrion), and novel regulators that have been proposed to control iron assimilation. The transport of both transferrin-bound and nontransferrin-bound iron to peripheral tissues is discussed. Finally, the regulation of iron transport is also considered at the molecular level, with posttranscriptional, transcriptional, and posttranslational control mechanisms being reviewed.

Original language	English
Pages (from-to)	151-182
Number of pages	32
Journal	Critical Reviews in Clinical Laboratory Sciences
Volume	40
Issue number	2
DOIs	https://doi.org/10.1080/713609332
Publication status	Published - 2003

Keywords

ATP-binding cassette-7
Divalent metal transporter-1
Duodenal cytochrome b
Ferroportin-1
Frataxin
HFE
Hepcidin
Hephaestin
Iron transport
Mitochondrial iron transport
Nontransferrin-bound iron uptake
Transferrin
Transferrin receptor

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10.1080/713609332

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title = "Molecular mechanisms and regulation of iron transport",

abstract = "Iron homeostasis is primarily maintained through regulation of its transport. This review summarizes recent discoveries in the field of iron transport that have shed light on the molecular mechanisms of dietary iron uptake, pathways for iron efflux to and between peripheral tissues, proteins implicated in organellar transport of iron (particularly the mitochondrion), and novel regulators that have been proposed to control iron assimilation. The transport of both transferrin-bound and nontransferrin-bound iron to peripheral tissues is discussed. Finally, the regulation of iron transport is also considered at the molecular level, with posttranscriptional, transcriptional, and posttranslational control mechanisms being reviewed.",

keywords = "ATP-binding cassette-7, Divalent metal transporter-1, Duodenal cytochrome b, Ferroportin-1, Frataxin, HFE, Hepcidin, Hephaestin, Iron transport, Mitochondrial iron transport, Nontransferrin-bound iron uptake, Transferrin, Transferrin receptor",

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AU - Wessling-Resnick, Marianne

AU - Enns, Caroline

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AB - Iron homeostasis is primarily maintained through regulation of its transport. This review summarizes recent discoveries in the field of iron transport that have shed light on the molecular mechanisms of dietary iron uptake, pathways for iron efflux to and between peripheral tissues, proteins implicated in organellar transport of iron (particularly the mitochondrion), and novel regulators that have been proposed to control iron assimilation. The transport of both transferrin-bound and nontransferrin-bound iron to peripheral tissues is discussed. Finally, the regulation of iron transport is also considered at the molecular level, with posttranscriptional, transcriptional, and posttranslational control mechanisms being reviewed.

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KW - Divalent metal transporter-1

KW - Duodenal cytochrome b

KW - Ferroportin-1

KW - Frataxin

KW - HFE

KW - Hepcidin

KW - Hephaestin

KW - Iron transport

KW - Mitochondrial iron transport

KW - Nontransferrin-bound iron uptake

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KW - Transferrin receptor

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Molecular mechanisms and regulation of iron transport

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