Abstract
The biosynthesis and processing of myeloperoxidase (MPO), a cationic enzyme present in the azurophilic granules of human polymorphonuclear leukocytes (PMNs), were studied in the human promyelocytic leukemia cell line, HL-60. HL-60 cells produce large quantities of enzymatically active MPO that has the same electrophoretic behavior as MPO isolated from normal PMNs. Mature MPO is a glycoprotein of approximately 150,000 molecular weight (mol wt) composed of two heavy-light protomers (alpha 2 beta 2) with subunits of 59,000 and 13,500 mol wt, respectively, under reducing conditions. The primary translation product of MPO messenger RNA (mRNA) isolated from HL-60 cells was a single polypeptide of mol wt 80,000. In HL-60 cells labeled with [35S]-methionine, the labeled MPO isolated by immunoprecipitation had a mol wt of 89,000. Treatment of this 89-kilodalton (kDa) species with endoglycosidase H produced a 79-kDa peptide, suggesting that the 89-kDa protein contained high-mannose side chains. The 89-kDa species had no detectable peroxidase activity. During chase experiments some of the 89-kDa peptide was processed to smaller species of mol wt 39,000, 59,000, and 13,500, although a fraction of the 89-kDa peptide remained unprocessed after a chase of 100 hours. In addition, a small amount of the 89-kDa peptide appeared in the medium without any of the processed smaller peptides. These studies suggest that the primary translation product in MPO biosynthesis is an 80-kDa peptide that undergoes cotranslational cleavage of the signal peptide and glycosylation to produce an 89-kDa pro-MPO, that pro-MPO is a single polypeptide containing the alpha and beta subunits of MPO and contains endoglycosidase H-susceptible high- mannose side chains, and that posttranslational modification of pro-MPO results in targeting to the lysosome and proteolytic maturation of pro- MPO to active enzyme. In light of the previous observation that MPO- deficient and normal PMNs contain an 89-kDa protein immunochemically related to MPO, these studies on MPO biosynthesis indirectly support the hypothesis that defective posttranslation processing by pro-MPO may underlie hereditary MPO deficiency.
This feature is available to Subscribers Only
Sign In or Create an Account Close Modal