Channel-Dependent Permeation of Water and Glycerol in Mouse Morulae1

Autor:	Ken-ichi Yazawa, Delgado M. Valdez, Frederick W. Kleinhans, Mitsunobu Tanaka, Natsuko Ichimaru, Magosaburo Kasai, Yohei Yamaji, Yuki Higashino, Tatsunaga Kuwano, Satoshi Ota, Megumi Sakamoto, Keisuke Edashige
Rok vydání:	2006
Předmět:	Cryoprotectant Facilitated diffusion Phloretin Aquaporin Cell Biology General Medicine Anatomy Biology Osmosis Cryopreservation chemistry.chemical_compound Reproductive Medicine chemistry Aquaporin 3 embryonic structures Biophysics Glycerol
Zdroj:	Biology of Reproduction. 74:625-632
ISSN:	1529-7268 0006-3363
DOI:	10.1095/biolreprod.105.045823
Popis:	The cryosensitivity of mammalian embryos depends on the stage of development. Because permeability to water and cryoprotectants plays an important role in cryopreservation, it is plausible that the permeability is involved in the difference in the tolerance to cryopreservation among embryos at different developmental stages. In this study, we examined the permeability to water and glycerol of mouse oocytes and embryos, and tried to deduce the pathway for the movement of water and glycerol. The water permeability (L(P), microm min(-1) atm(-1)) of oocytes and four-cell embryos at 25 degrees C was low (0.63-0.70) and its Arrhenius activation energy (E(a), kcal/mol) was high (11.6-12.3), which implies that the water permeates through the plasma membrane by simple diffusion. On the other hand, the L(p) of morulae and blastocysts was quite high (3.6-4.5) and its E(a) was quite low (5.1-6.3), which implies that the water moves through water channels. Aquaporin inhibitors, phloretin and p-(chloromercuri) benzene-sulfonate, reduced the L(p) of morulae significantly but not that of oocytes. By immunocytochemical analysis, aquaporin 3, which transports not only water but also glycerol, was detected in the morulae but not in the oocytes. Accordingly, the glycerol permeability (P(GLY), x 10(-3) cm/min) of oocytes was also low (0.01) and its E(a) was remarkably high (41.6), whereas P(GLY) of morulae was quite high (4.63) and its E(a) was low (10.0). Aquaporin inhibitors reduced the P(GLY) of morulae significantly. In conclusion, water and glycerol appear to move across the plasma membrane mainly by simple diffusion in oocytes but by facilitated diffusion through water channel(s) including aquaporin 3 in morulae.
Databáze:	OpenAIRE
Externí odkaz:	https://explore.openaire.eu/search/publication?articleId=doi_________::8b5e239c22d9bd44158a9c245aa65b7e https://doi.org/10.1095/biolreprod.105.045823 Zobrazit plný text záznamu