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COMMD1, a multi-potent intracellular protein involved in copper homeostasis, protein trafficking, inflammation, and cancer

Ralf Weiskirchen, Louis C. Penning

2021Journal of Trace Elements in Medicine and Biology36 citationsDOIOpen Access PDF

Abstract

Copper is a trace element indispensable for life, but at the same time it is implicated in reactive oxygen species formation. Several inherited copper storage diseases are described of which Wilson disease (copper overload, mutations in ATP7B gene) and Menkes disease (copper deficiency, mutations in ATP7A gene) are the most prominent ones. After the discovery in 2002 of a novel gene product (i.e. COMMD1) involved in hepatic copper handling in Bedlington terriers, studies on the mechanism of action of COMMD1 revealed numerous non-copper related functions. Effects on hepatic copper handling are likely mediated via interactions with ATP7B. In addition, COMMD1 has many more interacting partners which guide their routing to either the plasma membrane or, often in an ubiquitination-dependent fashion, trigger their proteolysis via the S26 proteasome. By stimulating NF-κB ubiquitination, COMMD1 dampens an inflammatory reaction. Finally, targeting COMMD1 function can be a novel approach in the treatment of tumors.

Topics & Concepts

ATP7AMenkes diseaseUbiquitinInflammationCopper deficiencyCell biologyProteasomeBiologyGeneUbiquitin ligaseTransport proteinDiseaseChemistryCancer researchCopperBiochemistryImmunologyMedicineTransporterPathologyCopper metabolismOrganic chemistryTrace Elements in HealthDrug Transport and Resistance MechanismsIron Metabolism and Disorders
COMMD1, a multi-potent intracellular protein involved in copper homeostasis, protein trafficking, inflammation, and cancer | Litcius