Journal
NATURE
Volume 403, Issue 6771, Pages 769-772Publisher
NATURE RESEARCH
DOI: 10.1038/35001581
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The peptide arginine-vasopressin (mammals) and its evolutionary precursor arginine-vasotocin (non-mammals) modulate reproductive physiology and numerous related social behaviours, as do oxytocin (mammals) and its homologues mesotocin and isotocin (fish)(1). The distributions in the brain and/or the behavioural functions of these peptides often differ between the sexes(2-4), and between species with divergent social structures(3,5,6). Here we present neurophysiological evidence that males with vocal characteristics typical of females share a pattern of neuropeptide function with females rather than conspecific males. The plainfin midshipman fish (Porichthys notatus) has two male morphs with different reproductive tactics and vocalizations (a key species-typical behaviour which varies in its physical attributes and contextual usage, depending on the morph's social strategy)(7,8). Forebrain-evoked, rhythmic vocal-motor activity that precisely mimics natural vocalizations was modulated by arginine-vasotocin, isotocin and their antagonists delivered to the preoptic area-anterior hypothalamus, a primary site for behavioural integration in all vertebrates. Peptides had different effects in males that acoustically court females (arginine-vasotocin-sensitive) than in females and sneak-spawning males (isotocin-sensitive), showing that the neuromodulatory mechanisms that establish reproduction-related behaviour can be dissociated from gonadal sex.
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