Although mouse spermatozoa were """"""""successfully"""""""" frozen more than a decade ago, the fundamental cryobiological factors that affect the ability of spermatozoa to survive with full function after freezing-thawing remain largely unknown. Current methods used to cryopreserve mouse spermatozoa have markedly improved for hybrid strains, but do not routinely work for inbred strains. Germplasm repositories are being established as a method to preserve valuable genetically engineered mouse (GEM) strains. However, the inability to cryopreserve sperm from inbred strains poses a significant problem since the majority of GEM is maintained on inbred lines. Freezing and storing sperm could most efficiently preserve the majority of these newly created strains where the strain or mutation of interest can be adequately preserved by haploid germplasm. However, in spite of the fact that several methods have been reported to produce moderate success in mouse sperm cryopreservation, they are still inadequate for safe preservation of all mouse strains. The thesis of this proposal is that an understanding of the fundamental cryobiology of mouse sperm from a number of commonly used inbred strains fro the production of GEM will permit the development of optimal procedures for cryopreservation. Our studies to date with mouse sperm have provided basic information regarding the permeability and the osmotic and mechanical properties of these cells and have resulted in significant improvements in hybrid mouse strain sperm cryopreservation. Here we propose to expand this work to inbred strains. The experimental approach proposed is to: (a) perform experiments necessary to determine the effects of the cryopreservation process on acrosomal integrity of mouse sperm and to develop methods to prevent premature acrosomal loss, (b) determine the membrane permeability characteristics of mouse sperm from several genetic backgrounds to water and various cryoprotectant solutes, to predict optimum conditions for cooling and warming, and (c) determine optimal cryoprotectant media composition for spermatozoa from various mouse genetic backgrounds. Information gained from these experiments will develop improved procedures of mouse germplasm banking, provide important information regarding the genetic variability in mouse sperm cryopreservation and develop a foundation for improvements in rederivation efficiency when using frozen semen.

Agency
National Institute of Health (NIH)
Institute
National Center for Research Resources (NCRR)
Type
Resource-Related Research Projects (R24)
Project #
5R24RR013194-07
Application #
6640528
Study Section
Special Emphasis Panel (ZRR1-CM-3 (01))
Program Officer
Chang, Michael
Project Start
1998-04-15
Project End
2007-06-30
Budget Start
2003-07-01
Budget End
2004-06-30
Support Year
7
Fiscal Year
2003
Total Cost
$328,877
Indirect Cost
Name
University of Missouri-Columbia
Department
Veterinary Sciences
Type
Schools of Veterinary Medicine
DUNS #
153890272
City
Columbia
State
MO
Country
United States
Zip Code
65211
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Walters, Eric M; Men, Hongsheng; Agca, Yuksel et al. (2005) Osmotic tolerance of mouse spermatozoa from various genetic backgrounds: acrosome integrity, membrane integrity, and maintenance of motility. Cryobiology 50:193-205
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Koshimoto, Chihiro; Mazur, Peter (2002) The effect of the osmolality of sugar-containing media, the type of sugar, and the mass and molar concentration of sugar on the survival of frozen-thawed mouse sperm. Cryobiology 45:80-90
Agca, Yuksel; Gilmore, Julie; Byers, Michael et al. (2002) Osmotic characteristics of mouse spermatozoa in the presence of extenders and sugars. Biol Reprod 67:1493-501
Mazur, Peter; Koshimoto, Chihiro (2002) Is intracellular ice formation the cause of death of mouse sperm frozen at high cooling rates? Biol Reprod 66:1485-90
Koshimoto, Chihiro; Mazur, Peter (2002) Effects of cooling and warming rate to and from -70 degrees C, and effect of further cooling from -70 to -196 degrees C on the motility of mouse spermatozoa. Biol Reprod 66:1477-84

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