Association between seminal plasma carnitine and sperm mitochondrial enzymatic activities.

Cellular parameters of the seminogram have been previously shown to correlate with L-carnitine concentration in the seminal fluid. Carnitine is involved in a variety of metabolic processes playing an important role in maintaining an active oxidative phosphorylation (OXPHOS). Recently, we have found a significant association between the specific activities of the respiratory chain complexes and the seminogram parameters and here we have studied the relationship between the spermatozoa OXPHOS activities and L-carnitine concentration in the seminal plasma. Carnitine, but not prostatic secretions, positive and significantly correlate with mitochondrial respiratory complex activities and the citric acid cycle enzymes citrate synthase and succinate dehydrogenase. It is remarkable that the ratios of the respiratory chain complexes to citrate synthase or succinate dehydrogenase, significant but negatively correlated with L-carnitine concentration. As carnitine in seminal plasma is secreted from the epididymis our results strongly suggest that relationships between carnitine secretion, seminal quality and OXPHOS activities could be because of a parallel response to the same regulatory event.

[1]  E. Ruiz-Pesini,et al.  Seminal quality correlates with mitochondrial functionality. , 2000, Clinica chimica acta; international journal of clinical chemistry.

[2]  E. Ruiz-Pesini,et al.  Human mtDNA haplogroups associated with high or reduced spermatozoa motility. , 2000, American journal of human genetics.

[3]  S. Lenk,et al.  Relationship between semen quality and the seminal plasma components carnitine, alpha-glucosidase, fructose, citrate and granulocyte elastase in infertile men compared with a normal population. , 2000, Human reproduction.

[4]  G. Schatten,et al.  On-stage selection of single round spermatids using a vital, mitochondrion-specific fluorescent probe MitoTracker(TM) and high resolution differential interference contrast microscopy. , 1999, Human reproduction.

[5]  A. Meinhardt,et al.  Mini symposium. New aspects of spermatogenesis. Expression of mitochondrial marker proteins during spermatogenesis , 1999 .

[6]  J. Taanman,et al.  The mitochondrial genome: structure, transcription, translation and replication. , 1999, Biochimica et biophysica acta.

[7]  E. Ruiz-Pesini,et al.  Correlation of sperm motility with mitochondrial enzymatic activities. , 1998, Clinical chemistry.

[8]  C. Jeulin,et al.  Role of free L-carnitine and acetyl-L-carnitine in post-gonadal maturation of mammalian spermatozoa. , 1996, Human reproduction update.

[9]  P. Morales,et al.  Sperm binding to the human zona pellucida after migration through human cervical mucus. , 1995, International journal of andrology.

[10]  M. Spanô,et al.  Mouse testis cell sorting according to DNA and mitochondrial changes during spermatogenesis. , 1995, Cytometry.

[11]  J. Dacheux,et al.  Uptake and release of free L-carnitine by boar epididymal spermatozoa in vitro and subsequent acetylation rate. , 1994, Journal of reproduction and fertility.

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

[13]  S. Rodriguez-Segade,et al.  Determination of L-carnitine in serum, and implementation on the ABA-100 and CentrifiChem 600. , 1985, Clinical chemistry.

[14]  D. Canale,et al.  Free L-carnitine in human semen: its variability in different andrologic pathologies. , 1984, Fertility and Sterility.

[15]  R. P. Amann A Critical Review of Methods for Evaluation of Spermatogenesis from Seminal Characteristics , 1981 .

[16]  B. Schanbacher,et al.  Testicular carnitine acetyltransferase activity and serum testosterone levels in developing and cryptorchid rats. , 1974, Journal of reproduction and fertility.

[17]  N R MARQUIS,et al.  ENZYMOLOGICAL DETERMINATION OF FREE CARNITINE CONCENTRATIONS IN RAT TISSUES. , 1964, Journal of lipid research.

[18]  O. H. Lowry,et al.  Protein measurement with the Folin phenol reagent. , 1951, The Journal of biological chemistry.