dc.description.abstract | Abstract: In holothuroids, oocyte maturation is stopped in ovaries at the prophase I stage of meiosis.
In natural conditions, the blockage is removed during the spawning by an unknown mechanism.
When oocytes are isolated by dissection, the meiotic release can be successfully induced by a natural
inducer, the REES (i.e., Rough Extract of Echinoid Spawn) that is used in aquaculture to obtain viable
larvae in mass. A thioredoxin has recently been identified in the REES as the molecule responsible
for holothuroid oocyte maturation. As a redox-active protein, thioredoxin is thought to reduce
target proteins within the oocyte membrane and initiate an intracellular reaction cascade that leads
to the unblocking of the oocyte meiosis. Our results allow us to understand additional steps in
the intracellular reaction cascade induced by the action of thioredoxin on oocytes. Pharmacological
agents known to have activating or inhibiting actions on oocyte maturation have been used
(Forskolin, Isobutylmethylxanthine, Hypoxanthine, 6-dimethyaminopurine, Lavendustin, Genistein,
Roscovitine, Cycloheximide). The effects of these agents were analysed on oocytes of the
holothuroid Holothuria tubulosa incubated with or without REES and were compared to those obtained
with another reducing agent, the dithiothreitol. Our results demonstrated that, at the opposite
of dithiothreitol-induced oocyte maturation, thioredoxin-induced oocyte maturation is cAMP independent,
but dependent of the presence of calcium in the seawater. Both pathways of induction
require the activation of protein serine/threonine kinases. | en_US |