Etude du mecanisme de protection des spermatozoides de mammiferes par le lait.

摘要

Skim milk is being used as a protective agent for mammalian semen conservation over half a century. Recently, there has been increased interest in developing extenders free of animal products. However, it is difficult to find suitable component in order to replace milk as an extender, because the mechanisms by which milk protect sperm against cooling and freezing damages during the storage is unknown.;The Binder of SPerm (BSP) proteins are the major proteins of bull seminal plasma and they are harmful during sperm storage. In fact, sperm would be in contact with a large quantity of BSP proteins that induce a continuous cholesterol and phospholipids efflux from the sperm membrane during storage. When bull sperm is diluted with an extender containing egg yolk, another compound frequently used in extender, the low-density lipoproteins (LDL) present in the egg yolk prevent the binding of the BSP proteins to the sperm membrane, thus, preventing the lipid efflux from the sperm membrane induced by the BSP proteins. Our hypothesis was that milk proteins would protect sperm during storage by binding BSP proteins.;First, we demonstrated by gel filtration that bovine BSP proteins could bind the milk proteins. Skim milk was fractionated into three fractions: F1 (alpha-lactalbumin and beta- lactoglobulin, the major whey proteins and kappa-casein), F2 (mainly caseins and all other milk proteins in small amounts) and F3 (salts, sugars and small peptides). Bovine BSP1 and BSP5 have more affinity for F1 as compared to BSP3 and all the BSP proteins have affinity for F2. We confirmed the interaction between bovine BSP proteins and milk proteins by isothermal titration calorimetry. The binding of BSP1 to casein micelles is characterized by an affinity constant (Ka) of 3.5 x 10 5 M-1 and of a stoichiometric parameter for the association (n) of 4.5 BSP1 per casein. The association between BSP1 and a-lactalbumin (one of the major whey proteins) is characterized by a Ka of 2.4 x 105 M-1 and a "n" value of 0.8. These results support our contention that milk can protect sperm by preventing the BSP proteins' binding to the sperm membrane attributable to a protein : protein interaction, while egg yolk sperm protection is attributable to a protein : lipoprotein interaction. Second, our studies showed that the homologous BSP proteins found in the boar, stallion and ram seminal plasma can bind the milk proteins. These results indicate that the mechanism of sperm protection by milk in these species should be similar to the one in bovine species. Third, we characterized the interaction between bovine BSP1 protein and LDL from hen's egg yolk. The binding was characterized by a K a of 3.4 +/- 0.4 x 106 M-1 and a " n " value of 104 BSP1 per LDL particle. Our results indicated that there is difference between the mechanism of sperm protection by milk and egg yolk.;We believe that the results presented in this thesis may help to create new extenders free of animal product for mammal sperm preservation in liquid or frozen state.;Key words: cryopreservation, milk, sperm protection, casein micelles, whey proteins, a- lactalbumin, beta-lactoglobulin, egg yolk, low-density lipoproteins, BSP proteins.