Effect of dextrans on cryopreservation of goat cauda epididymal spermatozoa using a chemically defined medium

Effect of dextrans on cryopreservation of goat cauda epididymal spermatozoa using a chemically defined medium

Experiments were carried out to investigate the cryoprotecting potential of dextrans (ranging from 10 to 2000 kDa) using a synthetic model system developed recently in this laboratory. Goat spermatozoa from the cauda epididymidis were extracted in a chemically defined medium (modified Ringer's...

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Bibliographic Details
Published in:Reproduction (Cambridge, England) Vol. 123; no. 6; pp. 907 - 913
Main Authors: Kundu, CN, Chakrabarty, J, Dutta, P, Bhattacharyya, D, Ghosh, A, Majumder, GC
Format: Journal Article
Language:English
Published: Colchester Society for Reproduction and Fertility 01-06-2002
Portland
Subjects:
Animals
Biological and medical sciences
Cell Survival
Cryopreservation - methods
Cryoprotective Agents
Dextrans
Dimethyl Sulfoxide
Fundamental and applied biological sciences. Psychology
Glycerol
Goats
Male
Mammalian male genital system
Molecular Weight
Morphology. Physiology
Semen Preservation - veterinary
Vertebrates: reproduction
Spermatozoa
Motility
Assisted procreation
Male genital duct
Germinal cell
Male genital system
Dextran
Vertebrata
Mammalia
Cryopreservation
Goat
Artiodactyla
Cryoprotective agent
Ungulata
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Summary:Experiments were carried out to investigate the cryoprotecting potential of dextrans (ranging from 10 to 2000 kDa) using a synthetic model system developed recently in this laboratory. Goat spermatozoa from the cauda epididymidis were extracted in a chemically defined medium (modified Ringer's solution) and assayed for motility using a phase-contrast microscope. The sperm cells were subjected to a freezing protocol in a computer-controlled biofreezer (cooling at 0.25 degrees C min(-1) to 5 degrees C; 5 degrees C min(-1) to -20 degrees C; 20 degrees C min(-1) to -100 degrees C) and plunged into liquid nitrogen. The frozen cells were thawed rapidly at 37 degrees C in a thermostatic waterbath. In the absence of dextran, all the spermatozoa lost their motility. The cryoprotecting efficacy of each dextran was found to be biphasic in nature. Initially, as the concentration of dextran was increased, the recovery of sperm motility also increased and reached an optimum value; however, with further increases in dextran concentration, the recovery of motility decreased sharply. Of all the sugar polymers tested, 10 kDa dextran showed the highest cryoprotecting efficacy, whereas the 2000 kDa sugar polymer was the least active. Dextrans of 10, 40, 73, 173, 252, 500 and 2000 kDa offered maximum cryorecovery of forward motility to the extent of approximately 23%, 21%, 19%, 18%, 16%, 15% and 8%, respectively. Optimum concentrations of these dextrans for cryoprotection of sperm motility were 8.42, 2.50, 1.09, 0.37, 0.31, 0.10 and 0.04 mmol l(-1), respectively. It thus appears that each dextran has a characteristic cryoprotection profile. The data show that the cryoprotecting efficacy and optimum cryoprotecting concentrations of dextrans are inversely related to their molecular mass. Dextran also served as a significant cryoprotectant in the presence of glycerol (0.87 mol l(-1)) and dimethyl sulphoxide (0.76 mol l(-1)), which are well known cryoprotectants; the action of the combined cryoprotectants was almost additive. The presence of glycerol or glycerol plus dimethyl sulphoxide caused a significant reduction (from 8.42 to 6.27 mmol l(-1)) in the optimum concentration of dextran. In the presence of the three cryoprotectants, recovery of sperm motility was as high as 58% (forward motility) and 60% (total motility).
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ISSN:1470-1626
1741-7899
DOI:10.1530/rep.0.1230907