scholarly journals Early-life sleep disruption increases parvalbumin in primary somatosensory cortex and impairs social bonding in prairie voles

2019 ◽  
Vol 5 (1) ◽  
pp. eaav5188 ◽  
Author(s):  
Carolyn E. Jones ◽  
Ryan A. Opel ◽  
Mara E. Kaiser ◽  
Alex Q. Chau ◽  
Jazmine R. Quintana ◽  
...  
Keyword(s):  
Somatosensory Cortex ◽  
Rem Sleep ◽  
Early Life ◽  
Neural Circuits ◽  
Microtus Ochrogaster ◽  
Primary Somatosensory Cortex ◽  
Sleep Disruption ◽  
Prairie Voles ◽  
Pair Bonds ◽  
Object Preference

Across mammals, juveniles sleep more than adults, with rapid eye movement (REM) sleep at a lifetime maximum early in life. One function of REM sleep may be to facilitate brain development of complex behaviors. Here, we applied 1 week of early-life sleep disruption (ELSD) in prairie voles (Microtus ochrogaster), a highly social rodent species that forms lifelong pair bonds. Electroencephalographic recordings from juvenile voles during ELSD revealed decreased REM sleep and reduced γ power compared to baseline. ELSD impaired pair bond formation and altered object preference in adulthood. Furthermore, ELSD increased GABAergic parvalbumin immunoreactivity in the primary somatosensory cortex in adulthood, a brain region relevant to both affected behaviors. We propose that, early in life, sleep is crucial for tuning inhibitory neural circuits and the development of species-typical affiliative social behavior.

Social interactions, cross-fostering, and sibling recognition in prairie voles, Microtus ochrogaster

1999 ◽  
Vol 77 (10) ◽  
pp. 1631-1636 ◽  
Author(s):  
Guillermo Paz y Miño C. ◽  
Zuleyma Tang-Martínez
Keyword(s):  
Social Interactions ◽  
Kin Selection ◽  
Early Life ◽  
Genetic Relatedness ◽  
Microtus Ochrogaster ◽  
Prairie Voles ◽  
Incest Avoidance ◽  
Sibling Recognition ◽  
Cross Fostering ◽  
As If

Sibling recognition in prairie voles (Microtus ochrogaster) has been traditionally inferred from incest avoidance or lack of reproduction among littermates. Researchers have concluded that when sibling prairie voles are isolated from one another there is a breakdown of incest avoidance (and therefore of sibling recognition). In a reevaluation of these studies, using social interactions rather than incest avoidance, we found that the breakdown of incest avoidance was not equivalent to a breakdown of sibling recognition. We explored the effects of cross-fostering on sibling recognition by looking at changes in amicable or agonistic behaviors that were then used to infer sibling recognition. Prairie voles that were cross-fostered with nonsiblings were not able to recognize their own siblings when reunited and tested for social interactions in adulthood. Siblings reared apart treated their own siblings as if they were not closely related and nonsiblings reared together treated nonsiblings as if they were their own siblings. The mechanism of sibling recognition in prairie voles is association or familiarity. The ability to recognize siblings may be limited to individuals that are raised together. Sibling recognition in prairie voles may be a by-product of familiarity in early life and not a mechanism restricted to genetic relatedness as predicted by kin-selection theory.

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