Human sperm cytosolic factor triggers Ca2+ oscillations and overcomes activation failure of mammalian oocytes. Academic Article uri icon

Overview

abstract

  • Among the possible mechanisms of oocyte activation after sperm penetration, it appears most likely that a protein released by the spermatozoon elicits a calcium elevation in the ooplasm. To further test this idea, cytosolic factors obtained from human spermatozoa by two different methods, freezing-thawing and sonication, were injected into mouse oocytes following which intracellular calcium release was measured. Of a total of 42 mouse oocytes, a pattern of calcium oscillations was observed in nine out of 16 oocytes injected with sonicated fraction, in all of eight oocytes with the frozen-thawed fraction and in none of 18 control oocytes. Injection of the frozen-thawed fraction also produced regular calcium oscillations in all of five in-vitro matured human oocytes. To assess the putative factor's ability to support fertilization, human oocytes that were not activated by prior intracytoplasmic injection of spermatozoa (ICSI) and round spermatids were reinjected with the frozen-thawed sperm fraction. Of 23 human oocytes which remained unfertilized after ICSI, 19 became activated after injection with sperm cytosolic factor; eight showed two pronuclei, three one pronucleus and eight showed three or more pronuclei. Of 11 oocytes unfertilized after prior round spermatid injection, two developed two pronuclei, four developed one pronucleus and two had three or more pronuclei. Cytogenetic analysis by fluorescence in-situ hybridization confirmed the existence of a male pronucleus in eight out of nine such zygotes displaying two or more pronuclei. Thus, human sperm extracts activated mouse and human oocytes after injection, as judged by calcium flux patterns in conjunction with male pronucleus formation.

publication date

  • April 1, 1997

Research

keywords

  • Biological Factors
  • Calcium
  • Oocytes
  • Sperm-Ovum Interactions
  • Spermatozoa

Identity

Scopus Document Identifier

  • 0031113298

PubMed ID

  • 9237265

Additional Document Info

volume

  • 3

issue

  • 4