Alkalinization of acrosome measured by GFP as a pH indicator and its relation to sperm capacitation

T Nakanishi, M Ikawa, S Yamada, K Toshimori… - Developmental …, 2001 - Elsevier
T Nakanishi, M Ikawa, S Yamada, K Toshimori, M Okabe
Developmental biology, 2001Elsevier
We previously targeted EGFP (a mutant of green fluorescent protein) to the lumen of the
mouse sperm acrosome and reported the time course of EGFP release during the acrosome
reaction. In the study reported here, we estimated the pH within the mouse sperm acrosome
utilizing the pH-dependent nature of EGFP fluorescence. The average intra-acrosomal pH
was estimated to be 5.3±0.1 immediately after sperm preparation, gradually increasing to
6.2±0.3 during 120 min of incubation in TYH media suitable for capacitation. Spontaneous …
We previously targeted EGFP (a mutant of green fluorescent protein) to the lumen of the mouse sperm acrosome and reported the time course of EGFP release during the acrosome reaction. In the study reported here, we estimated the pH within the mouse sperm acrosome utilizing the pH-dependent nature of EGFP fluorescence. The average intra-acrosomal pH was estimated to be 5.3 ± 0.1 immediately after sperm preparation, gradually increasing to 6.2 ± 0.3 during 120 min of incubation in TYH media suitable for capacitation. Spontaneous acrosome reactions were noted to increase concomitantly with acrosomal alkalinization during incubation. We also demonstrated that acrosomal antigens detected by monoclonal antibodies MN7 and MC41 did not dissolve following the acrosome reaction in pH 5.3 media, but dissolved at pH 6.2. These data suggest that acrosomal alkalinization during incubation conducive for sperm capacitation may function to alter acrosomal contents and prepare them for release during the acrosome reaction.
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