Serotonin and Nitric Oxide Regulate Metamorphosis in the Marine Snail Ilyanassa obsoleta

Several neuroactive compounds have been implicated as playingroles in the circuitry that controls larval metamorphosis inmarine molluscs. For the caenogastropod Ilyanassa obsoleta,results of neuroanatomical studies suggest that the productionof nitric oxide (NO) increases throughout the planktonic stageand that NO production is necessary for the maintenance of thelarval state, especially as it becomes metamorphically competent.Bath application or injection of exogenous serotonin (5HT) caninitiate metamorphosis in competent larvae, and exogenous NOcan inhibit such serotonergically-induced metamorphosis. Inhibitionof endogenous nitric oxide synthase (NOS) can also trigger larvalmetamorphosis. The production of endogenous NO appears to decreaseconcurrently with the initiation of metamorphosis, but the specificinteractions between serotonergic and nitrergic neurons areunknown. Evidence in support of NO acting to up-regulate theenzyme guanylyl cyclase (GC) is still equivocal. Thus, we donot yet know if NO exerts its effects through the actions ofcyclic 3',5'-guanosine monophosphate (cGMP) or by a cGMP-independentmechanism. The ubiquity of nitrergic signalling and its significancefor developing molluscan embryos and larvae are still the subjectof speculation and require further investigation.