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Investigations of motility and fertilization potential in thawed cryopreserved mouse sperm from cold-stored epididymides.

Authors :
Takeo, Toru
Takeo, Toru
Fukumoto, Kiyoko
Kondo, Tomoko
Haruguchi, Yukie
Takeshita, Yumi
Nakamuta, Yuko
Tsuchiyama, Shuuji
Yoshimoto, Hidetaka
Shimizu, Norihiko
Li, Ming-Wen
Kinchen, Kristy
Vallelunga, Jadine
Lloyd, KC Kent
Nakagata, Naomi
Takeo, Toru
Takeo, Toru
Fukumoto, Kiyoko
Kondo, Tomoko
Haruguchi, Yukie
Takeshita, Yumi
Nakamuta, Yuko
Tsuchiyama, Shuuji
Yoshimoto, Hidetaka
Shimizu, Norihiko
Li, Ming-Wen
Kinchen, Kristy
Vallelunga, Jadine
Lloyd, KC Kent
Nakagata, Naomi
Source :
Cryobiology; vol 68, iss 1, 12-17; 0011-2240
Publication Year :
2014

Abstract

Cold transport of epididymides from genetically modified mice is an efficient alternative to the shipment of live animals between research facilities. Mouse sperm from epididymides cold-stored for short periods can maintain viability. We previously reported that cold storage of mouse epididymides in Lifor® perfusion medium prolonged sperm motility and fertilization potential and that the sperm efficiently fertilized oocytes when reduced glutathione was added to the fertilization medium. Cryopreservation usually results in decreased sperm viability; an optimized protocol for cold storage of epididymides plus sperm cryopreservation has yet to be established. Here, we examined the motility and fertilization potential of cryopreserved, thawed (frozen-thawed) sperm from previously cold-stored mouse epididymides. We also examined the protective effect of sphingosine-1-phosphate (S1P) on sperm viability when S1P was added to the preservation medium during cold storage. We assessed viability of frozen-thawed sperm from mouse epididymides that had been cold-transported domestically or internationally and investigated whether embryos fertilized in vitro with these sperm developed normally when implanted in pseudo-pregnant mice. Our results indicate that frozen-thawed sperm from epididymides cold-stored for up to 48 h maintained high fertilization potential. Fertilization potential was reduced after cold storage for 72 h, but not if S1P was included in the cold storage medium. Live pups were born normally to recipients after in vitro fertilization using frozen-thawed sperm from cold-transported epididymides. In summary, we demonstrate an improved protocol for cold-storage of epididymides that can facilitate transport of genetically engineered-mice and preserve sperm viability after cryopreservation.

Details

Database :
OAIster
Journal :
Cryobiology; vol 68, iss 1, 12-17; 0011-2240
Notes :
application/pdf, Cryobiology vol 68, iss 1, 12-17 0011-2240
Publication Type :
Electronic Resource
Accession number :
edsoai.on1377977808
Document Type :
Electronic Resource