Abstract
Voltage-dependent anion channels (VDACs) are pore-forming proteins found in the outer mitochondrial membrane of all eucaryotes. VDACs are the binding sites for several cytosolic enzymes, including the isoforms of hexokinase and glycerol kinase. VDACs have recently been shown to conduct ATP when in the open state, allowing bound kinases preferential access to mitochondrial ATP and providing a possible mechanism for the regulation of adenine nucleotide flux. Two human VDAC cDNAs have been described previously, and we recently reported the isolation of mouse VDAC1 and VDAC2 cDNAs, as well as a third novel VDAC cDNA, designated VDAC3. In this report we describe the structural organization of each mouse VDAC gene and demonstrate that, based on conserved exon/intron boundaries, the three VDAC isoforms belong to a single gene family. The 5'-flanking region of each VDAC gene was shown to have transcription promoter activity by transient expression in cultured cells. The promoter region of each VDAC isoform lacks a canonical TATA box, but all are G+C-rich, a characteristic of housekeeping gene promoters. To examine the conservation of VDAC function, each mouse VDAC was expressed in yeast lacking the endogenous VDAC gene. Both VDAC1 and VDAC2 are able to complement the phenotypic defect associated with the mutant yeast strain. VDAC3, however, is only able to partially complement the mutant phenotype, suggesting an alternative physiologic function for the VDAC3 protein.
Highlights
Voltage-dependent anion channels (VDACs) are poreforming proteins found in the outer mitochondrial membrane of all eucaryotes
Two human VDAC cDNAs have been described previously, and we recently reported the isolation of mouse VDAC1 and VDAC2 cDNAs, as well as a third novel VDAC cDNA, designated VDAC3
In this report we describe the structural organization of each mouse VDAC gene and demonstrate that, based on conserved exon/intron boundaries, the three VDAC isoforms belong to a single gene family
Summary
From the Departments of ‡Molecular and Human Genetics and §Pediatrics, Baylor College of Medicine, Houston, Texas 77030. Voltage-dependent anion channels (VDACs) are poreforming proteins found in the outer mitochondrial membrane of all eucaryotes. To examine the conservation of VDAC function, each mouse VDAC was expressed in yeast lacking the endogenous VDAC gene Both VDAC1 and VDAC2 are able to complement the phenotypic defect associated with the mutant yeast strain. VDACs have been shown to reversibly bind several cytosolic kinases, including glycerol kinase and the hexokinase isoforms I–IV (reviewed in Ref. 4). This interaction is believed to allow bound kinases preferential access to mitochondrial ATP derived from oxidative phosphorylation [5, 6]. To begin to examine the functional properties of VDAC3, the cDNA was expressed in a VDAC-deficient yeast strain and tested for its ability to complement the temperature-sensitive growth phenotype of a VDAC-deficient yeast
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