The presence of α‐glucosidase, glycerophosphocholine and carnitine in the epididymis and ejaculate of the vervet monkey (Cercopithecus aethiops) and the Chacma baboon (Papio ursinus)

Summary The epididymis is the site of post‐testicular sperm maturation in the male genital tract. Studies on human epididymides are hampered by the practical inaccessibility of epididymides of healthy men in their reproductive years. The limited use of laboratory animals therefore seems unavoidable. The objective was to establish baseline values of the epididymal markers α‐glucosidase, glycerophosphocholine (GPC) and carnitine in the lumen of the caput, corpus and cauda epididymidis and in the ejaculate of adult male Chacma baboons and vervet monkeys. In both primates, α‐glucosidase was found throughout the epididymis and in the ejaculate; values did not vary significantly. In monkeys, the highest concentration of GPC was found in the cauda epididymidis, but smaller amounts were found in the other regions and the ejaculate. In baboons, GPC was absent from the caput, but present in the other regions, including the ejaculate. Carnitine concentrations increased significantly from the caput to the cauda in monkeys and from the caput to the corpus in baboons. With this study, the relative concentration ranges in which these markers are present in the epididymides of these primates have been established. In future studies, changes in concentrations of these substances would probably indicate changes in epididymal function.

[1]  M. Bornman,et al.  Epididymal markers in an andrology clinic. , 1993, Archives of andrology.

[2]  M. Chowdhury,et al.  Glycerylphosphorylcholine (GPC) diesterase related alterations in the oxygen consumption profile of rat spermatozoa in differing functional states. , 1992, International journal of andrology.

[3]  M. Bornman,et al.  α-Glucosidase, Sperm ATP Concentrations, and Epididymal Function , 1991 .

[4]  M. Bornman,et al.  alpha-Glucosidase, sperm ATP concentrations, and epididymal function. , 1991, Archives of andrology.

[5]  E. Nieschlag,et al.  The influence of inflammation of the human male genital tract on secretion of the seminal markers alpha-glucosidase, glycerophosphocholine, carnitine, fructose and citric acid. , 1990, International journal of andrology.

[6]  E. Nieschlag,et al.  Pharmacokinetics and pharmacodynamics of testosterone enanthate and dihydrotestosterone enanthate in non-human primates. , 1990, Acta endocrinologica.

[7]  T. Senge,et al.  Histochemical localization and quantification of alpha-glucosidase in the epididymis of men and laboratory animals. , 1990, Biology of reproduction.

[8]  H. Moore Development of sperm-egg recognition processes in mammals. , 1990, Journal of reproduction and fertility. Supplement.

[9]  E. Nieschlag,et al.  Epididymal markers in human infertility. , 1988, Journal of andrology.

[10]  M. Vuuren,et al.  Quality of Semen Obtained by Electroejaculation From Chacma Baboons (Papio ursinus) , 1988, Journal of medical primatology.

[11]  M. Serio,et al.  Simultaneous measurement of seminal L-carnitine, alpha,1-4-glucosidase, and glycerylphosphorylcholine in azoospermic and oligozoospermic patients. , 1987, Fertility and sterility.

[12]  Dr. Trevor G. Cooper The Epididymis, Sperm Maturation and Fertilisation , 1986, Springer Berlin Heidelberg.

[13]  T. Cooper Maturation of Spermatozoa in the Epididymis , 1986 .

[14]  C. Brokaw Sperm motility. , 1986, Methods in cell biology.

[15]  A. Orgiazzi,et al.  Enzymes in the seminal plasma from azoospermic men: correlation with the origin of their azoospermia. , 1981, Fertility and sterility.

[16]  F. Martiniuk,et al.  Characterization of neutral isozymes and human α-glucosidase Differences in substrate specificity, molecular weight and electrophoretic mobility , 1981 .

[17]  U. Wetterauer,et al.  Carnitine in seminal plasma: its significance in diagnostic andrology. , 1980, Archives of andrology.

[18]  R. Tremblay,et al.  P-Nitrophenol-alpha-D-glucopyranoside as substrate for measurement of maltase activity in human semen. , 1978, Clinical chemistry.

[19]  P. Hoel,et al.  Carnitine levels in human accessory sex organs. , 1978, Archives of andrology.

[20]  M. M. Bradford A rapid and sensitive method for the quantitation of microgram quantities of protein utilizing the principle of protein-dye binding. , 1976, Analytical biochemistry.

[21]  R. Ramsay,et al.  The mechanism of fatty acid uptake by heart mitochondria: An acylcarnitine‐carnitine exchange , 1975, FEBS letters.

[22]  R. Peterson,et al.  Oxidative and glycolytic metabolism of semen components by washed guinea pig spermatozoa. , 1975, Fertility and sterility.

[23]  B. S. Setty,et al.  Studies on the physiology and biochemistry of mammalian epididymis: biochemical composition of epididymis. A comparative study. , 1973, Fertility and sterility.

[24]  I. G. White,et al.  Glycerol metabolism by spermatozoa. , 1957, The Biochemical journal.