Abstract
In the early 1950s, Austin and Chang independently described the changes that are required for the sperm to fertilize oocytes in vivo. These changes were originally grouped under name of “capacitation” and were the first step in the development of in vitro fertilization (IVF) in humans. Following these initial and fundamental findings, a remarkable number of observations led to characterization of the molecular steps behind this process. The discovery of certain sperm-specific molecules and the possibility to record ion currents through patch-clamp approaches helped to integrate the initial biochemical observation with the activity of ion channels. This is of particular importance in the male gamete due to the fact that sperm are transcriptionally inactive. Therefore, sperm must control all these changes that occur during their transit through the male and female reproductive tracts by complex signaling cascades that include post-translational modifications. This review is focused on the principal molecular mechanisms that govern human sperm capacitation with particular emphasis on comparing all the reported pieces of evidence with the mouse model.
Highlights
Molecular Basis of Human Sperm CapacitationIn the early 1950s, Austin and Chang independently described the changes that are required for the sperm to fertilize oocytes in vivo
In the early 1950s, two researchers, Austin and Chang, using rabbit as a model, independently described the changes that are required for sperm to fertilize oocytes in vivo (Austin, 1951; Chang, 1951)
The cyclic adenosine monophosphate (cAMP)/protein kinase A (PKA) signaling pathway is essential for human sperm capacitation and is activated by HCO−3 and
Summary
In the early 1950s, Austin and Chang independently described the changes that are required for the sperm to fertilize oocytes in vivo These changes were originally grouped under name of “capacitation” and were the first step in the development of in vitro fertilization (IVF) in humans. The discovery of certain sperm-specific molecules and the possibility to record ion currents through patch-clamp approaches helped to integrate the initial biochemical observation with the activity of ion channels. This is of particular importance in the male gamete due to the fact that sperm are transcriptionally inactive.
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