Effects of environment factors on initiation of sperm motility in sea cucumber Apostichopus japonicus (Selenka)

Abstract

Sperm of sea cucumber Apostichopus japonicus (Selenka) were quiescent in electrolyte NaCl solution and artificial seawater (ASW) and nonelectrolyte glucose and mannitol solutions when the osmolality was less than 200 mOsm kg^(-1). The sperm started to be motile as a result of increased osmolality, indicating an osmolality-dependent initiation of sperm motility in sea cucumber. After a brief incubation in hypotonic NaCl and glucose solutions with osmolalities of 200 and 400 mOsm kg^(-1), sperm lost partial motile ability. Sperm became immobilized when pH was 6.0 in NaCl, glucose and mannitol solutions, suggesting that an H(superscript +) release is involved in sperm activation. The decreased pH had no effect on the percentage of motile sperm in ASW, whereas it delayed the time period to reach the maximum motility (motility(subscript max)). Extracellular Ca(superscript 2+) in electrolyte solutions was not essential for motility stimulation but shortened the time of reaching motility(subscript max). When Ca(superscript 2+) was mixed in nonelectrolyte solutions the sperm motility was completely suppressed. The K(superscript +) channel blocker, quinine, suppressed the sperm motility in electrolyte solution, showing a possible involvement of K(superscript +) transport in the process. High K(superscript +) concentration did not affect the sperm motility in NaCl solution, but decreased it in ASW and almost entirely suppressed it in nonelectrolyte solutions. The different effects of pH and K(superscript +) in ASW and NaCl solution indicate that external ions may also regulate sperm motility.