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Query: UMLS:C0027960 (
mole
)
21,279
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
African
mole
-rats provide a unique taxonomic group for investigating the evolution and neurobiology of sociality. The two species investigated here display extreme differences in social organization and reproductive strategy. Naked
mole
-rats (NMRs) live in colonies, dominated by a queen and her consorts; most members remain nonreproductive throughout life but cooperate in burrowing, foraging, and caring for pups, for which they are not biological parents (alloparenting). In contrast, Cape
mole
-rats (CMRs) are solitary and intolerant of conspecifics, except during fleeting seasonal copulation or minimal maternal behavior. Research on other mammals suggests that oxytocin receptors at various telencephalic sites regulate social recognition, monogamous pair bonding, and maternal/allomaternal behavior. Current paradigms in this field derive from monogamous and polygamous species of New World voles, which are evolutionarily remote from Old World
mole
-rats. The present findings indicate that NMRs exhibit a considerably greater level of
oxytocin receptor
(
OTR
) binding than CMRs in the: nucleus accumbens; indusium griseum; central, medial, and cortical amygdaloid nuclei; bed nucleus of the stria terminalis; and CA1 hippocampal subfield. In contrast,
OTR
binding in the piriform cortex is intense in CMRs but undetectable in NMRs. We speculate that the abundance of
OTR
binding and oxytocin-neurophysin-immunoreactive processes in the nucleus accumbens of NMRs reflects their sociality, alloparenting behavior, and potential for reproductive attachments. In contrast, the paucity of oxytocin and its receptors at this site in CMRs may reflect a paucity of prosocial behaviors. Whether similarities in
OTR
expression between eusocial
mole
-rats and monogamous voles are due to gene conservation or convergent evolution remains to be determined.
...
PMID:Telencephalic binding sites for oxytocin and social organization: a comparative study of eusocial naked mole-rats and solitary cape mole-rats. 2023 93
In recent decades, scientific understanding of the many roles of oxytocin (OT) in social behavior has advanced tremendously. The focus of this research has been on maternal attachments and reproductive pair-bonds, and much less is known about the substrates of sociality outside of reproductive contexts. It is now apparent that OT influences many aspects of social behavior including recognition, trust, empathy, and other components of the behavioral repertoire of social species. This review provides a comparative perspective on the contributions of OT to life in mammalian social groups. We provide background on the functions of OT in maternal attachments and the early social environment, and give an overview of the role of OT circuitry in support of different mating systems. We then introduce peer relationships in group-living rodents as a means for studying the importance of OT in non-reproductive affiliative behaviors. We review species differences in
oxytocin receptor
(
OTR
) distributions in solitary and group-living species of South American tuco-tucos and in African
mole
-rats, as well as singing mice. We discuss variation in
OTR
levels with seasonal changes in social behavior in female meadow voles, and the effects of OT manipulations on peer huddling behavior. Finally, we discuss avenues of promise for future investigation, and relate current findings to research in humans and non-human primates. There is growing evidence that OT is involved in social selectivity, including increases in aggression toward social outgroups and decreased huddling with unfamiliar individuals, which may support existing social structures or relationships at the expense of others. OT's effects reach beyond maternal attachment and pair bonds to play a role in affiliative behavior underlying "friendships", organization of broad social structures, and maintenance of established social relationships with individuals or groups.
...
PMID:Life in groups: the roles of oxytocin in mammalian sociality. 2437 4
Naturally occurring variations in neuropeptide receptor distributions in the brain contribute to numerous mammalian social behaviors. In naked
mole
-rats, which live in large social groups and exhibit remarkable reproductive skew, colony-related social behaviors vary with reproductive status. Here we examined whether variation in social status is associated with variations in the location and/or density of oxytocin binding in this species. Autoradiography was performed to assess forebrain
oxytocin receptor
(
OTR
) densities in breeding and non-breeding naked
mole
-rats of both sexes. Overall, males exhibited higher
OTR
binding in the medial amygdala in comparison to females. While there were no main effects of reproductive status in any region, a sex difference in
OTR
binding in the nucleus accumbens was mediated by status. Specifically, breeding males tended to have more
OTR
binding than breeding females in the nucleus accumbens, while no sex difference was observed in subordinates. These effects suggest that oxytocin may act in a sex- and region-specific way that corresponds to reproductive status and associated social behaviors.
...
PMID:Region-specific associations between sex, social status, and oxytocin receptor density in the brains of eusocial rodents. 2614 15
Social monogamy is a mating strategy rarely employed by mammalian species. Laboratory studies in socially monogamous prairie voles (
Microtus ochrogaster
) demonstrate that oxytocin and vasopressin act within the mesolimbic dopamine pathway to facilitate pair-bond formation. Species differences in
oxytocin receptor
(
OTR
) and vasopressin 1a receptor (V1aR) distribution in this pathway are associated with species differences in mating strategy. Here we characterize the neuroanatomical distribution of
OTR
and V1aR binding sites in naturally occurring populations of Taiwan voles (
M. kikuchii
), which purportedly display social monogamy. Live trapping was conducted at two sites in 2009-2010 and receptor autoradiography for
OTR
and V1aR was performed on brains from 24 animals.
OTR
binding in two brain regions where
OTR
signaling regulates pair-bonding were directly compared with that of prairie voles. Our results show that like prairie voles, Taiwan voles exhibit
OTR
in the prefrontal cortex, insular cortex, claustrum, nucleus accumbens, caudate-putamen, dorsal lateral septal nucleus, central amygdala, and ventromedial hypothalamus. Unlike prairie voles, Taiwan voles exhibit
OTR
binding in the CA3 pathway of the hippocampus, as well as the indusium griseum, which has only previously been documented in tuco-tucos (
Ctenomys haigi, C. sociabilis
), Syrian hamsters (
Mesocricetus auratus
) and naked
mole
-rats (
Heterocephalus glaber
). V1aR binding was present in the ventral pallidum, lateral septum, nucleus basalis, bed nucleus of the stria terminalis, hippocampus, medial amygdala, and anterior, ventromedial and dorsomedial hypothalamus. Marked individual differences in V1aR binding were noted in the cingulate cortex and several thalamic nuclei, remarkably similar to prairie voles. While pharmacological studies are needed to determine whether oxytocin and vasopressin are involved in pair-bond formation in this species, our results lay a foundation for future investigations into the role of these neuropeptides in Taiwan vole social behavior.
...
PMID:Distributions of oxytocin and vasopressin 1a receptors in the Taiwan vole and their role in social monogamy. 2745 37
