Abstract
Arginine vasotocin (AVT) is the non-mammalian homolog of arginine vasopressin (AVP) and, like vasopressin, serves as an important modulator of social behavior in addition to its peripheral functions related to osmoregulation, reproductive physiology, and stress hormone release. In amphibians and reptiles, the neuroanatomical organization of brain AVT cells and fibers broadly resembles that seen in mammals and other taxa. Both parvocellular and magnocellular AVT-containing neurons are present in multiple populations located mainly in the basal forebrain from the accumbens–amygdala area to the preoptic area and hypothalamus, from which originate widespread fiber connections spanning the brain with a particularly heavy innervation of areas associated with social behavior and decision-making. As for mammalian AVP, AVT is present in greater amounts in males in many brain areas, and its presence varies seasonally, with hormonal state, and in males with differing social status. AVT’s social influence is also conserved across herpetological taxa, with significant effects on social signaling and aggression, and, based on the very small number of studies investigating more complex social behaviors in amphibians and reptiles, AVT may also modulate parental care and social bonding when it is present in these vertebrates. Within this conserved pattern, however, both AVT anatomy and social behavior effects vary significantly across species. Accounting for this diversity represents a challenge to understanding the mechanisms by which AVT exerts its behavioral effects, as well are a potential tool for discerning the structure-function relationships underlying AVT’s many effects on behavior.
Highlights
Mammalian vasopressin is one of a small group of nine-amino acid peptides whose wide and consistent distribution across animals indicates a long phylogenetic history [1]
Less work on arginine vasotocin (AVT) sex differences has been done in reptiles, but males have been reported to have a higher density of AVT fibers than females, in the periaquaductal gray (PAG) and lateral septum (Ls) [19, 20, 28], Dc [22], and in the amygdala, bed nucleus of the stria terminalis (BNST), nucleus accumbens (NAcc), and preoptic area (POA) in addition to the Ls [26] in a variety of species
When females were tested with complete calls, there was no difference in female preference between calls emitted before and after AVT injection. Together these results indicate that AVT renders the obligatory part of the male advertisement call unattractive to females, and that call attractiveness is at least not enhanced by AVT when attractive notes are added to the vocalizations
Summary
The neuroanatomical organization of brain AVT cells and fibers broadly resembles that seen in mammals and other taxa. AVT’s social influence is conserved across herpetological taxa, with significant effects on social signaling and aggression, and, based on the very small number of studies investigating more complex social behaviors in amphibians and reptiles, AVT may modulate parental care and social bonding when it is present in these vertebrates. Within this conserved pattern, both AVT anatomy and social behavior effects vary significantly across species.
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