The social life of Norway rats (Rattus norvegicus)

Schweinfurth, Manon K.

doi:10.7554/elife.54020

Cited by 127 publications

(107 citation statements)

References 232 publications

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“…To establish the Social versus Food Preference Test and characterize how manipulating the internal motivational drives for social interaction-seeking and food-seeking behavior affects behavior in this test, we tested how subjects' preference to investigate a social stimulus (novel age-and sex-matched conspecific) versus a food stimulus (standard laboratory chow) was modulated by social isolation and hunger. In Experiment 1a the subjects were adolescent (39)(40)(41)(42)(43)(44)(45)(46) day old) Wistar rats (8 males/6 females; 1 male was subsequently removed from all analyses due to escaping the testing apparatus), and in Experiment 1b the subjects were a separate cohort of adult (13)(14) week old) Wistar rats (8 males/8 females). In both experiments, subjects were first habituated to the testing apparatus as described above, and then tested in the Social versus food Preference Test at zeitgeber time (ZT) 12 on four occasions each 48 hrs apart using a withinsubjects 2 x 2 counterbalanced design (pair-housed/socially isolated x sated/food-deprived).…”

Section: Experiments 1: the Effects Of Social Isolation And Food Depmentioning

confidence: 99%

“…It should be noted, however, that the minimum amount of social isolation examined in this meta-analysis (48 hr) was at least twice that used in our current study (24 hrs in rats, 18 hrs in mice). A social isolation-induced increase in food-directed motivation may be an adaptive response since socially isolated subjects are unable to engage in huddling, a behavior commonly expressed by rats and mice [39][40][41] and which is thought to serve a thermoregulatory purpose [42]. Thus, these long-term socially isolated subjects may have had increased metabolic demands that manifested as increased food-directed motivation.…”

Section: Males and Females Exhibited Similar Stimulus Preferences Amentioning

confidence: 99%

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Wistar rats and C57BL/6J mice differ in their motivation to seek social interaction versus food in the Social versus Food Preference Test

Reppucci

Brown

Chambers

et al. 2020

Preprint

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Here we characterized the Social versus Food Preference Test, a behavioral paradigm designed to investigate the competition between the choice to seek social interaction versus the choice to seek food. We assessed how this competition was modulated by internal cues (social isolation, food deprivation), external cues (time-of-testing, stimulus salience), sex (males, females), age (adolescents, adults), and rodent model (Wistar rats, C57BL/6J mice). We found that changes in stimulus preference in response to the internal and external cue manipulations were similar across cohorts. Specifically, social over food preference scores were reduced by food deprivation and social familiarly in Wistar rats and C57BL/6J mice of both sexes. Interestingly, the degree of food deprivation-induced changes in stimulus investigation patterns were greater in adolescents compared to adults in Wistar rats and C57BL/6J mice. Strikingly, baseline stimulus preference and investigation times varied greatly between rodent models: across manipulations, Wistar rats were generally more social-preferring and C57BL/6J mice were generally more food-preferring. Adolescent Wistar rats spent more time investigating the social and food stimuli than adult Wistar rats, while adolescent and adult C57BL/6J mice investigated the stimuli a similar amount. Neither social isolation nor time-of-testing altered behavior in the Social versus Food Preference Test. Together, our results indicate that the Social versus Food Preference Test is a flexible behavioral paradigm suitable for future interrogations of the peripheral and central systems that can coordinate the expression of stimulus preference related to multiple motivated behaviors.Running Head: SOCIAL VS. FOOD 3 HIGHLIGHTS  Rats prefer social over food when sated, and this is attenuated by food deprivation.  Mice have no preference when sated, and prefer food over social when food-deprived.  Rats prefer a familiar social stimulus or a novel social stimulus over food.  Mice prefer food over a familiar social stimulus.  Adolescent rats investigate social and food stimuli longer than adult rats. GRAPHICAL ABSTRACTRunning Head: SOCIAL VS. FOOD

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Section: Experiments 1: the Effects Of Social Isolation And Food Depmentioning

confidence: 99%

Section: Males and Females Exhibited Similar Stimulus Preferences Amentioning

confidence: 99%

Wistar rats and C57BL/6J mice differ in their motivation to seek social interaction versus food in the Social versus Food Preference Test

Reppucci

Brown

Chambers

et al. 2020

Preprint

View full text Add to dashboard Cite

show abstract

“…A limitation of the previous studies was the use of traditional test set-ups in which rats have a limited amount of both space and time to interact with each other. In addition, the use of only pairs of rats limits the opportunity to explore social interaction and does not model the natural situation in which rats live in groups (Calhoun, 1963;Robitaille and Bovet, 1976;Schweinfurth, 2020). In nature, rats copulate in groups consisting of one or several females and males (Calhoun, 1963;Robitaille and Bovet, 1976), and the mating patterns in groups of rats are quite different from the mating patterns observed in the traditional laboratory mating tests with pairs of rats or mice Agmo, 2014, 2015b;Garey et al, 2002;McClintock, 1984;McClintock and Adler, 1978;Snoeren et al, 2015).…”

Section: Introductionmentioning

confidence: 99%

Female rat sexual behavior is unaffected by perinatal fluoxetine exposure

Hegstad

Huijgens

Houwing

et al. 2020

Preprint

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AbstractSerotonin plays an important role in adult female sexual behavior, however little is known about the influence of serotonin during early development on sexual functioning in adulthood. During early development, serotonin acts as neurotrophic factor, while it functions as a modulatory neurotransmitter in adulthood. The occurrence of serotonin release, could thus have different effects on behavioral outcomes, depending on the developmental period in which serotonin is released. Because serotonin is involved in the development of the HPG axis which is required for puberty establishment, serotonin could also alter expression patterns of for instance the estrogen receptor α (ERα).The aim of our study was to investigate the effects of increased serotonin levels during early development on adult female rat sexual behavior during the full behavioral estrus in a seminatural environment. To do so, rats were perinatally exposed with the selective serotonin reuptake inhibitor (SSRI) fluoxetine (10 mg/kg FLX) and sexual performance was tested during adulthood. All facets of female sexual behavior between the first and last lordosis (behavioral estrus), and within each copulation bout of the behavioral estrus were analyzed. Besides the length and onset of the behavioral estrus and the sexual behaviors patterns, other social and conflict behavior were also investigated. In addition, we studied the effects of perinatal FLX exposure on ERα expression patterns in the medial preoptic nucleus, ventromedial nucleus of the hypothalamus, medial amygdala, bed nucleus of the stria terminalis, and the dorsal raphé nucleus.The results showed that perinatal fluoxetine exposure has no effect on adult female sexual behavior. The behavioral estrus of FLX-females had the same length and pattern as CTR-females. In addition, FLX- and CTR-females showed the same amount of paracopulatory behavior and lordosis, both during the full behavioral estrus and the “most active bout”. Furthermore, no differences were found in the display of social and conflict behaviors, nor in ERα expression patterns in the brain. We conclude that increases in serotonin levels during early development do not have long-term consequences for female sexual behavior in adulthood.

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Section: Introductionmentioning

confidence: 99%

“…Integrative cross-species approaches are crucial in the understanding of the roots of social behavior and in the identification of the proximal and neural mechanisms of how we perceive, compute and react upon social information (Keysers and Gazzola, 2016; Schweinfurth, 2020). Norway rats, used as a model system amenable to monitoring, mapping and perturbation of neuronal circuits, live in complex social groups in the wild (Schweinfurth, 2020). This has motivated a wave of recent laboratory studies, that uncover the diversity and sophistication of rat’s social skills (Knapska et al 2006; Atsak et al 2011; Knapska et al 2010; Pereira et al 2012; Cruz et al 2020; Han et al 2019; Hernandez-Lallement et al 2020; Kashtelyan et al 2014; Daniel 1942; Conde-Moro et al 2019; Viana et al 2010; Bartal, Decety, and Mason 2011; Ben-Ami Bartal et al 2014; Márquez et al 2015; Kentrop et al 2020; Hillman and Bilkey 2012; Rutte and Taborsky 2007; 2008; Schuster and Perelberg 2004; Schneeberger, Dietz, and Taborsky 2012 see Schweinfurth 2020 for review), the neuronal basis of which are starting to be dissected (Hillman and Bilkey, 2012; Twining et al , 2017; Carrillo et al , 2019; Pereira, Farias and Moita, 2020).…”

Section: Introductionmentioning

confidence: 99%

Novel Competition test for food rewards reveals stable dominance status in adult male rats

Costa

Moita

Márquez

2020

Preprint

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Social hierarchy is a potent modulator of behavior in many species, including humans, that is typically established through overt agonistic interactions between individuals in the group. Once established, social ranks are maintained through subtler interactions allowing the redirection of energy away from agonistic interactions towards other needs. Most of the available tasks for assessing social rank in rodents allow the study of the mechanisms by which social hierarches are formed but fail to assess the maintenance of established hierarchies between stable pairs of animals, which might rely on distinct neurobiological mechanisms. Here we present and validate a novel trial-based dominancy assay, the modified Food Competition test, where established social hierarchies can be identified in the home cage of non-food deprived pairs of male rats. In this task, we introduce a small conflict in the home cage, where access to a new feeder containing palatable pellets can only be gained by one animal at a time. We found that this subtle conflict triggered asymmetric social interactions and resulted in higher consumption of food by one of the animals in the pair. To assess the reliability of the observed asymmetries as reflecting dominance relationships we investigated the behavior of same rat dyads in multiple social tasks adapted from social hierarchy studies. We found a positive correlation in dominance indices across most tests used. Our findings reveal stable dominance status in pair housed rats and provide a novel tool for the evaluation of established social hierarchies, the modified Food Competition test, that is robust and easy to implement, thus expanding the set of tasks available to study dominance in the lab.

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The social life of Norway rats (Rattus norvegicus)

Cited by 127 publications

References 232 publications

Wistar rats and C57BL/6J mice differ in their motivation to seek social interaction versus food in the Social versus Food Preference Test

Wistar rats and C57BL/6J mice differ in their motivation to seek social interaction versus food in the Social versus Food Preference Test

Female rat sexual behavior is unaffected by perinatal fluoxetine exposure

Novel Competition test for food rewards reveals stable dominance status in adult male rats

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