Mammalian sperm must undergo a final maturation, either in vivo or in vitro, before they can fertilize an oocyte. This maturation of sperm and the changes that occur in sperm are known as capacitation. The mechanisms of capacitation are not understood. It is necessary to first identify the mechanisms by which sperm capacitate in a defined system in vitro before any attempt can be made to understand in vivo events. Changes in the second messengers, cAMP, intracellular calcium (Cai) and intracellular pH(pHi) occur during capacitation. We propose to use image analysis techniques on individual sperm to determine the role and regulation of sperm Cai and pHi during capacitation. The model we will use is the bovine because of the abundance of sperm, sperm head shape that is easily imaged, capacitation conditions using heparin have been well worked out and inhibitors or non-capacitating conditions, in the absence of heparin or with glucose present, are also well known.
Specific aim A is to determine the role of Cai i capitation by determining if an increase in Cai is needed to complete capacitation, if accelerating or delaying an increase in Cai will alter capacitation kinetics, if the increase in Cai is due to increase d influx of calcium, decreased efflux, decreased mitochondrial calcium uptake or a combination of these mechanisms as well as determining the importance of different mechanisms that regulate Cai homeostasis. To accomplish this, sperm will be loaded with the fluorescent calcium indicator Fura2 and Cai in the sperm head determined with quantitative image analysis. The Cai of capacitated or non-capacitated sperm which do or do not acrosome react in response to soluble zona proteins will be determined. The influx of calcium will be examined by the influx of Mn++ into Fura2 loaded sperm and the rate of Fura2 quench. The efflux of calcium from the cytoplasm will be examined by pulsing sperm with calcium from the caged calcium chelator NITR5.
Specific Aim B is to determine the role of pHi in capacitation by determining if an increase in pHi is needed to complete capacitation and if increases in Cai stimulate the increase in pHi or the reverse. To accomplish this, sperm will be loaded with the fluorescent pH indicator BCECF and pHi in the sperm head determined with quantitative image analysis. The pHi of capacitated or non-capacitated sperm that do or do not acrosome react in response to soluble zona proteins will be determined. Mechanisms of pHi regulation in sperm will be examined using acid or alkaline loading of sperm and determining the rate of pHi recovery to resisting levels and how this is altered with capacitation. By inhibiting or stimulating specific pHi regulatory mechanisms it should be possible to determine their importance by whether capacitation kinetics can be changed.

Project Start
1993-12-01
Project End
1998-11-30
Budget Start
1996-12-01
Budget End
1997-11-30
Support Year
4
Fiscal Year
1997
Total Cost
Indirect Cost
Name
University of Wisconsin Madison
Department
Miscellaneous
Type
Schools of Earth Sciences/Natur
DUNS #
161202122
City
Madison
State
WI
Country
United States
Zip Code
53715
Parrish, John J (2014) Bovine in vitro fertilization: in vitro oocyte maturation and sperm capacitation with heparin. Theriogenology 81:67-73
Parrish, J J; Susko-Parrish, J L; Graham, J K (1999) In vitro capacitation of bovine spermatozoa: role of intracellular calcium. Theriogenology 51:461-72
Vredenburgh-Wilberg, W L; Parrish, J J (1995) Intracellular pH of bovine sperm increases during capacitation. Mol Reprod Dev 40:490-502
Parrish, J J; Susko-Parrish, J L; Uguz, C et al. (1994) Differences in the role of cyclic adenosine 3',5'-monophosphate during capacitation of bovine sperm by heparin or oviduct fluid. Biol Reprod 51:1099-108
Uguz, C; Vredenburgh, W L; Parrish, J J (1994) Heparin-induced capacitation but not intracellular alkalinization of bovine sperm is inhibited by Rp-adenosine-3',5'-cyclic monophosphorothioate. Biol Reprod 51:1031-9