Abstract
Methionine sulfoxide reductase A is an essential enzyme in the antioxidant system, which scavenges reactive oxygen species through cyclic oxidation and reduction of methionine and methionine sulfoxide. In mammals, one gene encodes two forms of the reductase, one targeted to the cytosol and the other to mitochondria. The cytosolic form displays faster mobility than the mitochondrial form, suggesting a lower molecular weight for the former. The apparent size difference and targeting to two cellular compartments had been proposed to result from differential splicing of mRNA. We now show that differential targeting is effected by use of two initiation sites, one of which includes a mitochondrial targeting sequence, whereas the other does not. We also demonstrate that the mass of the cytosolic form is not less than that of the mitochondrial form; the faster mobility of cytosolic form is due to its myristoylation. Lipidation of methionine sulfoxide reductase A occurs in the mouse, in transfected tissue culture cells, and even in a cell-free protein synthesis system. The physiologic role of myristoylation of MsrA remains to be elucidated.
Highlights
All organisms living in an aerobic atmosphere are subjected to oxidative stress from reactive oxygen and nitrogen species
We demonstrate that the mass of the cytosolic form is not less than that of the mitochondrial form; the faster mobility of cytosolic form is due to its myristoylation
On SDS-gel electrophoresis, the cytosolic form has a faster mobility than the mitochondrial form [19, 20]
Summary
Reported expressed sequence tags, previous investigators concluded that the cytosolic form was generated by alternative splicing within the first exon [20], so that the cytosolic form would contain 191 residues compared with 212 for the mitochondrial form after removal of the targeting sequence. Before attempting to construct transgenic mice expressing MsrA targeted to one or the other compartment, we investigated further the nature of the MsrA in both compartments. We show that the cytosolic and mitochondrial forms of MsrA are almost the same length, being generated from two initiation sites. The faster mobility of the cytosolic form is a result of its myristoylation
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