Isolation and characterization of the major androgen-dependent glycoprotein of canine prostatic fluid.

Abstract

Canine prostatic fluid, analyzed by sodium dodecyl sulfate-polyacrylamide gel electrophoresis under non-reducing conditions, is characterized by the presence of a single diffuse band (Mr approximately 30,000) which accounts for over 90% of the total protein. The biosynthesis of this protein is under androgen control. Castration results in the disappearance of this protein, whereas its presence in the prostate can be maintained in the castrated animal with exogenous androgen. Analysis of the native protein by isoelectric focusing revealed the presence of 10-13 charged variants with pI values in the range of 6.5 to 8.4. Analysis by sodium dodecyl sulfate-polyacrylamide gel electrophoresis under reducing conditions revealed that each isoform is constructed of two dissimilar polypeptide subunits covalently linked through disulfide bonds. One subunit has a molecular weight of 15,000 (H chain); the second subunit (L chain) has a variable molecular weight in the 12,000-14,000 range. The H and L subunits have been purified by preparative isoelectric focusing and chemically characterized. Based on tryptic peptide mapping, NH2-terminal analysis, amino acid and carbohydrate composition, the H and L subunits are structurally unrelated and consequently appear to be unique gene products. Furthermore, the L subunit is glycosylated which potentially accounts for its size heterogeneity. Quantitative NH2-terminal analysis indicated that the H and L subunits are present in the native molecule in a ratio of 2:1, suggesting that the native molecule is a trimer with an apparent molecular weight of 43,000. Based on electrophoretic data, the glycoprotein also constitutes the major fraction of the soluble protein in canine prostatic tissue; its presence is organ specific. This glycoprotein should prove useful as a marker for prostatic function under varying hormonal and environmental conditions.