Dominance rank-associated gene expression is widespread, sex-specific, and a precursor to high social status in wild male baboons

In humans and other hierarchical species, social status is tightly linked to variation in health and fitness-related traits. Experimental manipulations of social status in female rhesus macaques suggest that this relationship is partially explained by status effects on immune gene regulation. However, social hierarchies are established and maintained in different ways across species: While some are based on kin-directed nepotism, others emerge from direct physical competition. We investigated how this variation influences the relationship between social status and immune gene regulation in wild baboons, where hierarchies in males are based on fighting ability but female hierarchies are nepotistic. We measured rank-related variation in gene expression levels in adult baboons of both sexes at baseline and in response to ex vivo stimulation with the bacterial endotoxin lipopolysaccharide (LPS). We identified >2,000 rank-associated genes in males, an order of magnitude more than in females. In males, high status predicted increased expression of genes involved in innate immunity and preferential activation of the NF-κB–mediated proinflammatory pathway, a pattern previously associated with low status in female rhesus macaques. Using Mendelian randomization, we reconcile these observations by demonstrating that high status-associated gene expression patterns are precursors, not consequences, of high social status in males, in support of the idea that physiological condition determines who attains high rank. Together, our work provides a test of the relationship between social status and immune gene regulation in wild primates. It also emphasizes the importance of social context in shaping the relationship between social status and immune function.

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Dominance rank-associated immune gene expression is widespread, sex-specific, and a precursor to high social status in wild male baboons

10.1101/366021 ◽

2018 ◽

Cited By ~ 3

Author(s):

Amanda J. Lea ◽

Mercy Y. Akinyi ◽

Ruth Nyakundi ◽

Peter Mareri ◽

Fred Nyundo ◽

...

Keyword(s):

Gene Expression ◽

Gene Regulation ◽

Social Status ◽

Rhesus Macaques ◽

Dominance Rank ◽

Immune Gene ◽

High Status ◽

Social Hierarchies ◽

The Relationship ◽

High Social Status

ABSTRACTIn humans and other hierarchical species, social status is tightly linked to variation in health and fitness-related traits. Experimental manipulations of social status in female rhesus macaques suggest that this relationship is partially explained by status effects on immune gene regulation. However, social hierarchies are established and maintained in different ways across species: while some are based on kin-directed nepotism, others emerge from direct physical competition. We investigated how this variation influences the relationship between social status and immune gene regulation in wild baboons, where hierarchies in males are based on fighting ability but female hierarchies are nepotistic. We measured rank-related variation in gene expression levels in adult baboons of both sexes at baseline and in response to ex vivo stimulation with the bacterial endotoxin lipopolysaccharide (LPS). We identified >2000 rank- associated genes in males, an order of magnitude more than in females. In males, high status predicted increased expression of genes involved in innate immunity and preferential activation of the NFkB-mediated pro-inflammatory pathway, a pattern previously associated with low status in female rhesus macaques. Using Mendelian randomization, we reconcile these observations by demonstrating that high status-associated gene expression patterns are precursors, not consequences, of high social status in males, in support of the idea that physiological condition determines who attains high rank. Together, our work provides the first test of the relationship between social status and immune gene regulation in wild primates. It also emphasizes the importance of social context in shaping the relationship between social status and immune function.SIGNIFICANCESocial status predicts fitness outcomes in social animals, motivating efforts to understand its physiological causes and consequences. We investigated the relationship between social status and immune gene expression in wild baboons, where female status is determined by kinship but male status is determined by fighting ability. We uncover pervasive status-gene expression associations in males, but not females. High status males exhibit high levels of pro-inflammatory gene expression, in contrast to previous findings in hierarchies that are not competitively determined. Using Mendelian randomization, we show that this status-associated variation precedes dominance rank attainment: males who compete successfully for high status are already immunologically distinct. The nature of social hierarchies thus fundamentally shapes the relationship between social status and immune function.

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Social status alters chromatin accessibility and the gene regulatory response to glucocorticoid stimulation in rhesus macaques

10.1101/365049 ◽

2018 ◽

Cited By ~ 5

Author(s):

Noah Snyder-Mackler ◽

Joaquín Sanz ◽

Jordan N. Kohn ◽

Tawni N. Voyles ◽

Roger Pique-Regi ◽

...

Keyword(s):

Gene Expression ◽

Gene Regulation ◽

Social Status ◽

Molecular Mechanisms ◽

Immune Cell ◽

Rhesus Macaques ◽

Dominance Rank ◽

Chromatin Accessibility ◽

High Status ◽

Cell Gene

ABSTRACTLow social status is an important predictor of disease susceptibility and mortality risk in humans and other social mammals. These effects are thought to stem in part from dysregulation of the glucocorticoid (GC)-mediated stress response. However, the molecular mechanisms that connect low social status and GC dysregulation to downstream health outcomes remain elusive. Here, we used an in vitro glucocorticoid challenge to investigate the consequences of experimentally manipulated social status (i.e., dominance rank) for immune cell gene regulation in female rhesus macaques, using paired control and GC-treated peripheral blood mononuclear cell samples. We show that social status not only influences immune cell gene expression, but also chromatin accessibility at hundreds of regions in the genome. Social status effects on gene expression were less pronounced following GC treatment than under control conditions. In contrast, social status effects on chromatin accessibility were stable across conditions, resulting in an attenuated relationship between social status, chromatin accessibility, and gene expression post-GC exposure. Regions that were more accessible in high status animals and regions that become more accessible following GC treatment were enriched for a highly concordant set of transcription factor binding motifs, including motifs for the glucocorticoid receptor co-factor AP-1. Together, our findings support the hypothesis that social status alters the dynamics of GC-mediated gene regulation, and identify chromatin accessibility as a mechanism involved in social stress-driven GC resistance. More broadly, they emphasize the context-dependent nature of social status effects on gene regulation and implicate epigenetic remodeling of chromatin accessibility as a contributing factor.

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Social status alters chromatin accessibility and the gene regulatory response to glucocorticoid stimulation in rhesus macaques

Proceedings of the National Academy of Sciences ◽

10.1073/pnas.1811758115 ◽

2018 ◽

Vol 116 (4) ◽

pp. 1219-1228 ◽

Cited By ~ 24

Author(s):

Noah Snyder-Mackler ◽

Joaquín Sanz ◽

Jordan N. Kohn ◽

Tawni Voyles ◽

Roger Pique-Regi ◽

...

Keyword(s):

Gene Expression ◽

Gene Regulation ◽

Social Status ◽

Molecular Mechanisms ◽

Immune Cell ◽

Rhesus Macaques ◽

Dominance Rank ◽

Chromatin Accessibility ◽

High Status ◽

Cell Gene

Low social status is an important predictor of disease susceptibility and mortality risk in humans and other social mammals. These effects are thought to stem in part from dysregulation of the glucocorticoid (GC)-mediated stress response. However, the molecular mechanisms that connect low social status and GC dysregulation to downstream health outcomes remain elusive. Here, we used an in vitro GC challenge to investigate the consequences of experimentally manipulated social status (i.e., dominance rank) for immune cell gene regulation in female rhesus macaques, using paired control and GC-treated peripheral blood mononuclear cell samples. We show that social status not only influences immune cell gene expression but also chromatin accessibility at hundreds of regions in the genome. Social status effects on gene expression were less pronounced following GC treatment than under control conditions. In contrast, social status effects on chromatin accessibility were stable across conditions, resulting in an attenuated relationship between social status, chromatin accessibility, and gene expression after GC exposure. Regions that were more accessible in high-status animals and regions that become more accessible following GC treatment were enriched for a highly concordant set of transcription factor binding motifs, including motifs for the GC receptor cofactor AP-1. Together, our findings support the hypothesis that social status alters the dynamics of GC-mediated gene regulation and identify chromatin accessibility as a mechanism involved in social stress-driven GC resistance. More broadly, they emphasize the context-dependent nature of social status effects on gene regulation and implicate epigenetic remodeling of chromatin accessibility as a contributing factor.

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