Cadmium transport by mammalian ATP-binding cassette transpor
Thévenod F, Lee W-K (2024)
BioMetals.
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Abstract / Bemerkung
Cellular responses to toxic metals depend on metal accessibility to intracellular targets, reaching interaction sites, and the intracellular metal concentration, which is mainly determined by uptake pathways, binding/sequestration and efflux pathways. ATP-binding cassette (ABC) transporters are ubiquitous in the human body-usually in epithelia-and are responsible for the transfer of indispensable physiological substrates(e.g. lipids and heme), protection against potentially toxic substances, maintenance of fluid composition, and excretion of metabolic waste products. Derailed regulation and gene variants of ABC transporters culminate in a wide array of pathophysiological disease states, such as oncogenic multidrug resistance or cystic fibrosis. Cadmium (Cd) has no known physiological role in mammalians and poses a health risk due to its release into the environment as a result of industrial activities, and eventually passes into the food chain. Epithelial cells, especially within the liver, lungs, gastrointestinal tract and kidneys, are particularly susceptible to the multifaceted effects of Cd because of the plethora of uptake pathways available. Pertinent to their broad substrate spectra, ABC transporters represent a major cellular efflux pathway for Cd and Cd complexes. In this review, we summarize current knowledge concerning transport of Cd and its complexes (mainly Cd bound to glutathione) by the ABC transporters ABCB1 (P-glycoprotein, MDR1), ABCB6, ABCC1 (multidrug resistance related protein 1, MRP1), ABCC7 (cystic fibrosis transmembrane regulator, CFTR), and ABCG2 (breast cancer related protein, BCRP). Potential detoxification strategies underlying ABC transporter-mediated efflux of Cd and Cd complexesare discussed. © 2024. The Author(s).
Erscheinungsjahr
2024
Zeitschriftentitel
BioMetals
eISSN
1572-8773
Page URI
https://pub.uni-bielefeld.de/record/2986996
Zitieren
Thévenod F, Lee W-K. Cadmium transport by mammalian ATP-binding cassette transpor. BioMetals. 2024.
Thévenod, F., & Lee, W. - K. (2024). Cadmium transport by mammalian ATP-binding cassette transpor. BioMetals. https://doi.org/10.1007/s10534-024-00582-5
Thévenod, Frank, and Lee, Wing-Kee. 2024. “Cadmium transport by mammalian ATP-binding cassette transpor”. BioMetals.
Thévenod, F., and Lee, W. - K. (2024). Cadmium transport by mammalian ATP-binding cassette transpor. BioMetals.
Thévenod, F., & Lee, W.-K., 2024. Cadmium transport by mammalian ATP-binding cassette transpor. BioMetals.
F. Thévenod and W.-K. Lee, “Cadmium transport by mammalian ATP-binding cassette transpor”, BioMetals, 2024.
Thévenod, F., Lee, W.-K.: Cadmium transport by mammalian ATP-binding cassette transpor. BioMetals. (2024).
Thévenod, Frank, and Lee, Wing-Kee. “Cadmium transport by mammalian ATP-binding cassette transpor”. BioMetals (2024).
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