Abstract
The inner membrane protease (IMP) has two catalytic subunits, Imp1p and Imp2p, that exhibit nonoverlapping substrate specificity in mitochondria of the yeast Saccharomyces cerevisiae. The IMP also has at least one noncatalytic subunit, Som1p, which is required to cleave signal peptides from a subset of Imp1p substrates. To understand how Som1p mediates Imp1p substrate specificity, we addressed the possibility that Som1p functions as a molecular chaperone, which binds to specific substrates and directs them to the catalytic site. Our results show that cargo sequences attached to the signal peptide are important for Som1p-dependent presequence cleavage; however, no specific cargo sequence is required. Indeed, we show that a substrate normally destined for Imp2p is cleaved in a Som1p-dependent manner when the substrate is directed to Imp1p. These results argue against the notion that Som1p is a molecular chaperone. Instead, we propose that the cargo of some Imp1p substrates can assume a conformation incompatible with presequence cleavage. Som1p could thus act through Imp1p to improve cleavage efficiency early during substrate maturation.
Highlights
Mitochondria consist of two hydrophobic compartments, the outer and inner membranes, and two hydrophilic compartments, the matrix and intermembrane space, which hold proteins that perform important cellular functions including oxidative phosphorylation, tri-carboxylic acid cycle, and fatty acid oxidation [1]
To understand how Som1p mediates Imp1p substrate specificity, we addressed the possibility that Som1p functions as a molecular chaperone, which binds to specific substrates and directs them to the catalytic site
Our results show that cargo sequences attached to the signal peptide are important for Som1p-dependent presequence cleavage; no specific cargo sequence is required
Summary
Mitochondria consist of two hydrophobic compartments, the outer and inner membranes, and two hydrophilic compartments, the matrix and intermembrane space, which hold proteins that perform important cellular functions including oxidative phosphorylation, tri-carboxylic acid cycle, and fatty acid oxidation [1]. The IMP has at least one noncatalytic subunit, Som1p, which is required to cleave signal peptides from a subset of Imp1p substrates. Our results show that cargo sequences attached to the signal peptide are important for Som1p-dependent presequence cleavage; no specific cargo sequence is required.
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