Distribution of lipid and protein in human semen fractions.

Human semen is formed by the secretions of different glands. We fractionated semen by centrifugation and obtained four main fractions: (a) spermatozoa, (b) material precipitating at 10¿ omitted¿000xg, (c) prostasomes (precipitate at 105¿ omitted¿000xg), and (d) a soluble fraction. When required, fractions were purified further. We find that most semen protein (about 85%) is in the soluble fraction, 7% in spermatozoa and the remainder is scattered in the other fractions. We compared the electrophoretic pattern of soluble protein with the protein of prostasomes and found marked differences. On the other hand, prostasomes, that comprises only about 3% of total semen protein, contain about 45% of cholesterol and almost 15% of lipid phosphorus with a cholesterol to phospholipid molar ratio greater than 2. On the contrary, phospholipid is largely bound to the fraction containing spermatozoa (about 46% of total lipid phosphorus). This fraction is poor in cholesterol and has a cholesterol to phospholipid molar ratio of about 0.2. The distribution of lipid phosphorus among lipid classes shows some similarity in the soluble fraction and in prostasomes; in both fractions, sphingomyelin is the most abundant phospholipid (about 50%). On the other hand, phosphatidylcholine is the main phospholipid in spermatozoa-enriched fractions (about 35% of total lipid phosphorus). We conclude that the various fractions of seminal plasma obtained by centrifugation differ markedly from each other as to lipid and protein content.

Prostasome to sperm transfer of CD13/aminopeptidase N (EC 3.4.11.2).

Prostasomes are membranous vesicles (150-200 nm in diameter) that are present in human semen. They are secreted by the prostate gland and contain large amounts of cholesterol, sphingomyelin and Ca2+. In addition, some of their proteins are enzymes. Prostasomes enhance the motility of ejaculated spermatozoa and are involved in a number of additional biological functions. In previous papers, we demonstrated that lipid can be transferred from prostasomes to sperm by a fusion process occurring at slightly acidic pH. CD (cluster antigens) are ubiquitous proteins; in this paper, we demonstrate that CD13/aminopeptidase N is present is semen, where it is bound to prostasomes. Upon mixing prostasomes and sperm at slightly acidic pH (7 or less), aminopeptidase is transferred from prostasomes to sperm. This evidence comes from enzymatic activity determinations and from the use of the monoclonal antibody, anti-human CD13. The transfer was about 8% of total prostasomal activity at pH 5 and with a prostasome to sperm ratio of 2 (on a protein basis). The transfer did not occur at pH 8.0, but was measurable at pH 7. Therefore, this mechanism may represent a means of modifying the composition and the biological properties of ejaculated sperm.

Transfer of aminopeptidase activity from prostasomes to sperm.

Prostasomes are membranous vesicles (150-200 nm diameter) present in human semen. They are secreted by the prostate and contain large amounts of cholesterol, sphingomyelin and Ca2+. In addition, some of their proteins are enzymes. Prostasomes enhance the motility of ejaculated spermatozoa and are involved in a number of additional biological functions. It has been demonstrated that lipid can be transferred from prostasomes to sperm by a fusion process occurring at slightly acidic pH. In this paper, we show that an aminopeptidase activity is transferred from prostasome to sperm. This may be of particular interest since it indicates the involvement of protein in the process of fusion and because sperm may acquire new membrane-bound proteins by this procedure.