The
Ionic and Osmotic Factors Controlling Motility of Fish Spermatozoa
J. Cosson-2004
Aquaculture International, 12(1):
69-85
Abstract:
This review presents actual knowledge about energetic,
ionic, osmotic and gaseous control of fish sperm motility and its duration.
Right after they are activated, fish spermatozoa of most species swim for a
short period of time, in the range of one to several minutes. What
determines the activation process? Is it due to the new ionic, gaseous
and/or osmotic environment? Why is the duration of motility so short? Is it
resulting from a fast exhaustion of energy stores (ATP, ADP, AMP, PCr)
combined with the above-mentioned ionic/osmotic stress leading to
morphological alterations? The motility criteria (flagellar beat frequency,
head displacement velocity, flagellar waves morphology, etc.) used to
characterize fish sperm movement and sperm flagella will be described. Most
parameters change very rapidly during the brief motility period of fish
sperm. Then will be considered the main environmental factors, ionic and/or
osmotic signals, responsible of the activation of fish sperm motility. Then
the metabolic compounds involved in cell energetics will be considered as
their concentrations also rapidly change during the motility phase. An
additional feature will then be discussed concerning the mechanisms by which
fish sperm cell can be revived for a second motility round at the end of the
first motility period. A model is proposed to explain how external
osmolarity can control internal ionic composition, the latter being the key
factor controlling flagellar activity.
(Biologie du Developpement, UMR 7009
CNRS/Universite Pierre et Marie Curie –
Observatoire Oceanologique, 06 234 Villefranche sur Mer Cedex, France, Tel:
+33-4-93-76-37-90; fax: +33-4-93-76-37-92, e-mail: cosson@obs-vlfrfr)