Abstract
Copper is an essential metal ion that is toxic when accumulated to high intracellular concentrations. The yeast Mac1 protein is a copper-sensing transcription factor that is essential for both the activation and inactivation of genes required for high affinity copper ion transport. Here we demonstrate that in response to low copper ion concentrations Mac1 protein is rendered inactive for copper transporter gene transcription. Under high copper ion concentrations Mac1 is degraded in a rapid, copper-specific manner. This degradation is critical to prevent copper toxicity that would otherwise result from sustained expression of the copper transport genes. These results demonstrate that nutritional and toxic copper concentrations elicit distinct fates for the Mac1 copper-sensing transcription factor and establish a new mechanism by which trace metals regulate gene expression.
Highlights
Genes is potently and rapidly extinguished by exogenous Cu ion concentrations in the picomolar to nanomolar range [8]
In vitro the CuRE elements are bound by Mac1p, while in vivo the CTR3 CuREs are occupied under copper starvation conditions and not bound when CTR3 expression is extinguished by the addition of 10 nM copper [7,8,9,10,11]
We demonstrate that Mac1 is a stable protein in cells grown in low copper ion concentrations; Mac1 is degraded in a rapid, metal-specific fashion when cells are grown under high copper ion concentrations
Summary
Genes is potently and rapidly extinguished by exogenous Cu ion concentrations in the picomolar to nanomolar range [8]. Mac1 Degradation Occurs Only in the Presence of High Copper Ion Concentrations—To investigate the mechanisms by which Mac1p senses copper levels to control transcription of the high affinity Cu(I) transport genes, both Mac1 protein and mRNA levels were measured [12, 13].
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