Abstract
Yeast with defects in vacuolar pH show increased sensitivity to high concentrations of transition metals. This sensitivity has been presumed to result from defective metal storage. We demonstrate that mutations that result in a defective high affinity iron transport system, such as a deletion in the surface ferroxidase FET3, also result in increased metal sensitivity independent of vacuolar function. Multiple copies of transition metal transporter resistance genes, such as COT1 or ZRC1, do not reduce the metal sensitivity of fet3 mutations. Increased metal sensitivity is because of an increased cellular accumulation of transition metals resulting from the increased activity of low affinity iron transporters, such as FET4, that mediates the transport of other transition metals. In cells lacking a high affinity iron transport system, the increased transition metal uptake can be prevented by increased extracellular iron. These results suggest that vacuolar function may not be required for transition metal sequestration.
Highlights
The yeast vacuole is considered to be a site for transition metal storage since yeast mutants defective in vacuolar pH show an increased sensitivity to a wide variety of transition metals [1,2,3]
Defective Fet3p results in iron deprivation leading to increased expression of low affinity transition metal transporters, which can transport transition metals other than iron
Previous studies demonstrated that mutants defective in either vacuolar pH or in GEF1, a gene that has homology to a human voltage-regulated chloride channel, show increased metal sensitivity [12, 15]
Summary
The yeast vacuole is considered to be a site for transition metal storage since yeast mutants defective in vacuolar pH show an increased sensitivity to a wide variety of transition metals [1,2,3]. This increased sensitivity has been ascribed to an inability to store transition metals in defective vacuoles. Defective Fet3p results in iron deprivation leading to increased expression of low affinity transition metal transporters, which can transport transition metals other than iron. Increased metal sensitivity results not from defective vacuolar metal storage but from increased metal uptake
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