Trafficking mechanisms of P-type ATPase copper transporters

Trafficking mechanisms of P-type ATPase copper transporters

Copper is an essential micronutrient required for oxygen-dependent enzymes, yet excess of the metal is a toxicant. The tug-of-war between these copper activities is balanced by chaperones and membrane transporters, which control copper distribution and availability. The P-type ATPase transporters, A...

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Veröffentlicht in:Current opinion in cell biology 2019-08, Vol.59, p.24-33
Hauptverfasser: Hartwig, Cortnie, Zlatic, Stephanie A, Wallin, Melissa, Vrailas-Mortimer, Alysia, Fahrni, Christoph J, Faundez, Victor
Format: Artikel
Sprache:eng
Schlagworte:
Animals
Copper Transport Proteins - metabolism
Copper-Transporting ATPases - metabolism
Humans
Mitochondria - metabolism
Mutation - genetics
Parkinson Disease - genetics
Protein Transport
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Zusammenfassung:Copper is an essential micronutrient required for oxygen-dependent enzymes, yet excess of the metal is a toxicant. The tug-of-war between these copper activities is balanced by chaperones and membrane transporters, which control copper distribution and availability. The P-type ATPase transporters, ATP7A and ATP7B, regulate cytoplasmic copper by pumping copper out of cells or into the endomembrane system. Mutations in ATP7A and ATP7B cause diseases that share neuropsychiatric phenotypes, which are similar to phenotypes observed in mutations affecting cytoplasmic trafficking complexes required for ATP7A/B dynamics. Here, we discuss evidence indicating that phenotypes associated to genetic defects in trafficking complexes, such as retromer and the adaptor complex AP-1, result in part from copper dyshomeostasis due to mislocalized ATP7A and ATP7B.
ISSN:0955-0674
1879-0410
DOI:10.1016/j.ceb.2019.02.009