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  • Title: Changes in sperm-bound amidase activity suggest subtle damage to ram sperm acrosomes by freezing/thawing, not detected by light microscopy.
    Author: de las Heras MA, Valcarcel A, Furnus C, Pérez L, Moses D, Baldassarre H.
    Journal: Anim Reprod Sci; 1996 Dec 02; 45(1-2):81-9. PubMed ID: 9227914.
    Abstract:
    We have measured sperm-bound amidase activity in fresh, cooled and frozen/thawed ram spermatozoa, in order to study if freezing and thawing led to some degree of acrosome damage of motile/viable spermatozoa not detected by optical methods. This assay was based on the fact that membrane damage would result in an increased access of the enzyme substrate to the sperm acrosome. Semen was collected from adult Australian Merino rams, and spermatozoa were washed by centrifugation through a Ficoll solution. Sperm-bound amidase activity was measured in whole spermatozoa using the protease substrate benzoyl-arginyl-p-nitroanilide (BAPNA). Acrosomal status was also assessed by light microscopy after Giemsa staining. Most amidase activity was shown to be sperm-bound, as only a minor fraction of the enzyme activity was release into the medium after induced damage. Simultaneous assessment of sperm-bound amidase activity and the percentage of spermatozoa with microscopically evident acrosomal damage, after mild sonication for different times, showed a high correlation between both parameters (r = 0.97, p < 0.001). In separate experiments, fresh, cooled and frozen/thawed semen samples were filtered through Sephadex G-10 to obtain a subpopulation of motile, mostly acrosome-intact spermatozoa. As controls, spermatozoa from the same samples to which extensive acrosome damage was induced were evaluated. Slow cooling to 4 degrees C had no effect on amidase activity or percent acrosomal damage with respect to fresh samples. Freezing and thawing resulted in a sperm population that, after filtration through Sephadex, had a low percentage of acrosome damage (9.4%, vs. 2.1% for fresh filtered controls), which was 11% of that obtained after extensive acrosome damage (83%). However, amidase activity in these samples was markedly increased, showing values of activity that were 56% of those obtained in extensively damaged spermatozoa. This effect was not due to an alteration in the enzyme kinetics. We conclude that sperm-bound amidase activity is useful to detect subtle changes, provoked by a standard freezing/thawing procedure, in the permeability of acrosomes from ram spermatozoa which are not detected by direct observation of the acrosomes after Giemsa staining.
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