Gene expression in the social behavior network of the wire‐tailed manakin (
            
              Pipra filicauda
            
            ) brain

AbstractThe vertebrate basal forebrain and midbrain contain a set of interconnected nuclei that control social behavior. Conserved anatomical structures and functions of these nuclei have now been documented among fish, amphibians, reptiles, birds and mammals, and these brain regions have come to be known as the vertebrate social behavior network (SBN). While it is known that nuclei (nodes) of the SBN are rich in steroid and neuropeptide activity linked to behavior, simultaneous variation in the expression of neuroendocrine genes among several SBN nuclei has not yet been described in detail. In this study, we use RNA-seq to profile gene expression across seven brain regions representing five nodes of the vertebrate SBN in a passerine bird, the wire-tailed manakin Pipra filicauda. Using weighted gene co-expression network analysis (WGCNA), we reconstructed sets of coregulated genes, revealing striking patterns of variation in neuroendocrine gene expression across the SBN. We describe regional expression variation networks comprising a broad set of hormone receptors, neuropeptides, steroidogenic enzymes, catecholamines, and other neuroendocrine signaling molecules. Our findings highlight how heterogeneity of brain gene expression across the SBN can provide functional insights into the neuroendocrine and genetic mechanisms that underlie vertebrate social behavior.

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Serotonergic activation during courtship and aggression in the brown anole,Anolis sagrei

PeerJ ◽

10.7717/peerj.3331 ◽

2017 ◽

Vol 5 ◽

pp. e3331 ◽

Cited By ~ 2

Author(s):

Jacob T. Hartline ◽

Alexandra N. Smith ◽

David Kabelik

Keyword(s):

Social Behavior ◽

Context Effects ◽

Early Gene ◽

Anolis Sagrei ◽

Functional Roles ◽

The Social ◽

Copulatory Courtship ◽

Brown Anole ◽

Behavior Network ◽

Reticular Nuclei

The role of serotonin (5-hydroxytryptamine, 5-HT) in social behavior regulation is not fully understood. While 5-HT release in nuclei of the social behavior network has generally been associated with inhibition of aggressive behavior across multiple classes of vertebrates, less is known about its effects on sexual, especially non-copulatory courtship display behaviors. Furthermore, most research has examined effects at 5-HT release sites, while studies examining the behavioral relevance of source cell populations have generated contradictory findings. This study utilized immunohistochemistry to examine the colocalization of 5-HT with Fos, an immediate early gene product and marker of neural activity, in the raphe and superior reticular nuclei of male brown anoles (Anolis sagrei) exposed to either aggression, courtship, or control social interactions. Supporting previous research, copulation was associated with a decrease in 5-HT activity, while a novel link between 5-HT activity and latency to non-copulatory courtship was also found. Within the aggression group, intensity and frequency of behavior were both associated with decreased 5-HT activity. An effect of social context was also seen, with anoles exposed to either courtship or aggression encounters showing decreased 5-HT activity in certain raphe and superior reticular nuclei populations compared to controls. Interestingly, context effects and behavioral effects were seen at separate brain nuclei, suggesting the presence of separate systems with distinct functional roles.

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Variation in enkephalin immunoreactivity in the social behavior network and song control system of male European starlings (Sturnus vulgaris) is dependent on breeding state and gonadal condition

Journal of Chemical Neuroanatomy ◽

10.1016/j.jchemneu.2011.12.001 ◽

2012 ◽

Vol 43 (2) ◽

pp. 87-95 ◽

Cited By ~ 4

Author(s):

Tyler J. Stevenson ◽

Marc D. Calabrese ◽

Gregory F. Ball

Keyword(s):

Control System ◽

Social Behavior ◽

Sturnus Vulgaris ◽

European Starlings ◽

The Social ◽

Song Control System ◽

Behavior Network ◽

Song Control ◽

Gonadal Condition

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Social Experience Interacts with Serotonin to Affect Functional Connectivity in the Social Behavior Network following Playback of Social Vocalizations in Mice

eNeuro ◽

10.1523/eneuro.0247-20.2021 ◽

2021 ◽

Vol 8 (2) ◽

pp. ENEURO.0247-20.2021

Author(s):

Christopher L. Petersen ◽

Sarah E. D. Davis ◽

Bhumi Patel ◽

Laura M. Hurley

Keyword(s):

Social Behavior ◽

Functional Connectivity ◽

Social Experience ◽

The Social ◽

Behavior Network

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Neural Circuits Underlying Nest Building in Male Zebra Finches

Integrative and Comparative Biology ◽

10.1093/icb/icaa108 ◽

2020 ◽

Vol 60 (4) ◽

pp. 943-954 ◽

Cited By ~ 1

Author(s):

Sophie C Edwards ◽

Zachary J Hall ◽

Eira Ihalainen ◽

Valerie R Bishop ◽

Elisa T Nicklas ◽

...

Keyword(s):

Social Behavior ◽

Nest Building ◽

Lateral Septum ◽

Early Gene ◽

Zebra Finches ◽

Nest Material ◽

Motor Pathway ◽

Nest Box ◽

The Social ◽

Behavior Network

Abstract Nest building consists of a series of motor actions, which are concomitant with activity in regions of the anterior motor pathway, the social behavior network, and the reward circuity in nest building adult male zebra finches (Taeniopygia guttata). It is not clear, however, whether this activity is due to nest building, collection, and/or manipulation of nest material. To identify which areas of the brain are specifically involved, we used immunohistochemistry to quantify the immediate early gene c-Fos in male zebra finches that were nest building (Building), birds given a nest box but could interact only with tied down nest material (Fixed), and birds that were not given a nest box or nest material (Control). We investigated the following brain regions: the anterior motor pathway (anterior ventral mesopallium [AMV], AN, anterior striatum [ASt]), areas of the social behavior network (bed nucleus of the stria terminalis, dorsomedial subdivision [BSTmd], lateral septum [LS]), the dopaminergic reward circuitry (ventral tegmental area), and the cerebellum. We found that there was greater Fos immunoreactivity expression in the BSTmd, LS, and AMV with increased material deposition; in LS, AMV ASt, and Folium VI with increased material carrying; in LS, AMV, and ASt with increased nest material tucking; and in LS and all folia (except Folium VIII) with increased tugging at tied down material. These data confirm a functional role for areas of the anterior motor pathway, social behavior network, and the cerebellum in nest material collection and manipulation by birds.

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