Unexpected role of interferon-γ in regulating neuronal connectivity and social behaviour

Adaptive immune dysfunction, in particular interferon-γ, is implicated in disorders characterized by social dysfunction and suggests interferon-γ signalling may provide a co-evolutionary link between social behaviour and an anti-pathogen immune response. A behavioural dimension to interferon-γ It wa...

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Veröffentlicht in:	Nature (London) 2016-07, Vol.535 (7612), p.425-429
Hauptverfasser:	Filiano, Anthony J., Xu, Yang, Tustison, Nicholas J., Marsh, Rachel L., Baker, Wendy, Smirnov, Igor, Overall, Christopher C., Gadani, Sachin P., Turner, Stephen D., Weng, Zhiping, Peerzade, Sayeda Najamussahar, Chen, Hao, Lee, Kevin S., Scott, Michael M., Beenhakker, Mark P., Litvak, Vladimir, Kipnis, Jonathan
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Schlagworte:	631/250/371 631/378/371 64 64/60 Animals Drosophila melanogaster - genetics Female GABAergic Neurons - metabolism Humanities and Social Sciences Interferon Interferon-gamma - physiology letter Male Meninges - cytology Meninges - immunology Mental illness Mice Mice, Inbred C57BL multidisciplinary Neural Pathways Neurons Physiological aspects Prefrontal Cortex - cytology Prefrontal Cortex - metabolism Rats Science Signal Transduction Social Behavior Social behavior in animals T-Lymphocytes - immunology Transcriptome Zebrafish - genetics
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creator	Filiano, Anthony J. Xu, Yang Tustison, Nicholas J. Marsh, Rachel L. Baker, Wendy Smirnov, Igor Overall, Christopher C. Gadani, Sachin P. Turner, Stephen D. Weng, Zhiping Peerzade, Sayeda Najamussahar Chen, Hao Lee, Kevin S. Scott, Michael M. Beenhakker, Mark P. Litvak, Vladimir Kipnis, Jonathan
description	Adaptive immune dysfunction, in particular interferon-γ, is implicated in disorders characterized by social dysfunction and suggests interferon-γ signalling may provide a co-evolutionary link between social behaviour and an anti-pathogen immune response. A behavioural dimension to interferon-γ It was shown recently that immune dysfunction can influence spatial learning and memory. Jonathan Kipnis and colleagues now show that mice deficient in adaptive immunity exhibit defects in social behaviour. They find that interferon-γ controls neural circuits and social behaviour by signalling neurons to tune GABAergic signalling in the prefrontal cortex. This work suggests that interferon-γ signalling may provide a co-evolutionary link between social behaviour and an anti-pathogen immune response. Immune dysfunction is commonly associated with several neurological and mental disorders. Although the mechanisms by which peripheral immunity may influence neuronal function are largely unknown, recent findings implicate meningeal immunity influencing behaviour, such as spatial learning and memory 1 . Here we show that meningeal immunity is also critical for social behaviour; mice deficient in adaptive immunity exhibit social deficits and hyper-connectivity of fronto-cortical brain regions. Associations between rodent transcriptomes from brain and cellular transcriptomes in response to T-cell-derived cytokines suggest a strong interaction between social behaviour and interferon-γ (IFN-γ)-driven responses. Concordantly, we demonstrate that inhibitory neurons respond to IFN-γ and increase GABAergic (γ-aminobutyric-acid) currents in projection neurons, suggesting that IFN-γ is a molecular link between meningeal immunity and neural circuits recruited for social behaviour. Meta-analysis of the transcriptomes of a range of organisms reveals that rodents, fish, and flies elevate IFN-γ/JAK-STAT-dependent gene signatures in a social context, suggesting that the IFN-γ signalling pathway could mediate a co-evolutionary link between social/aggregation behaviour and an efficient anti-pathogen response. This study implicates adaptive immune dysfunction, in particular IFN-γ, in disorders characterized by social dysfunction and suggests a co-evolutionary link between social behaviour and an anti-pathogen immune response driven by IFN-γ signalling.
doi_str_mv	10.1038/nature18626
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A behavioural dimension to interferon-γ It was shown recently that immune dysfunction can influence spatial learning and memory. Jonathan Kipnis and colleagues now show that mice deficient in adaptive immunity exhibit defects in social behaviour. They find that interferon-γ controls neural circuits and social behaviour by signalling neurons to tune GABAergic signalling in the prefrontal cortex. This work suggests that interferon-γ signalling may provide a co-evolutionary link between social behaviour and an anti-pathogen immune response. Immune dysfunction is commonly associated with several neurological and mental disorders. Although the mechanisms by which peripheral immunity may influence neuronal function are largely unknown, recent findings implicate meningeal immunity influencing behaviour, such as spatial learning and memory 1 . Here we show that meningeal immunity is also critical for social behaviour; mice deficient in adaptive immunity exhibit social deficits and hyper-connectivity of fronto-cortical brain regions. Associations between rodent transcriptomes from brain and cellular transcriptomes in response to T-cell-derived cytokines suggest a strong interaction between social behaviour and interferon-γ (IFN-γ)-driven responses. Concordantly, we demonstrate that inhibitory neurons respond to IFN-γ and increase GABAergic (γ-aminobutyric-acid) currents in projection neurons, suggesting that IFN-γ is a molecular link between meningeal immunity and neural circuits recruited for social behaviour. Meta-analysis of the transcriptomes of a range of organisms reveals that rodents, fish, and flies elevate IFN-γ/JAK-STAT-dependent gene signatures in a social context, suggesting that the IFN-γ signalling pathway could mediate a co-evolutionary link between social/aggregation behaviour and an efficient anti-pathogen response. 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A behavioural dimension to interferon-γ It was shown recently that immune dysfunction can influence spatial learning and memory. Jonathan Kipnis and colleagues now show that mice deficient in adaptive immunity exhibit defects in social behaviour. They find that interferon-γ controls neural circuits and social behaviour by signalling neurons to tune GABAergic signalling in the prefrontal cortex. This work suggests that interferon-γ signalling may provide a co-evolutionary link between social behaviour and an anti-pathogen immune response. Immune dysfunction is commonly associated with several neurological and mental disorders. Although the mechanisms by which peripheral immunity may influence neuronal function are largely unknown, recent findings implicate meningeal immunity influencing behaviour, such as spatial learning and memory 1 . Here we show that meningeal immunity is also critical for social behaviour; mice deficient in adaptive immunity exhibit social deficits and hyper-connectivity of fronto-cortical brain regions. Associations between rodent transcriptomes from brain and cellular transcriptomes in response to T-cell-derived cytokines suggest a strong interaction between social behaviour and interferon-γ (IFN-γ)-driven responses. Concordantly, we demonstrate that inhibitory neurons respond to IFN-γ and increase GABAergic (γ-aminobutyric-acid) currents in projection neurons, suggesting that IFN-γ is a molecular link between meningeal immunity and neural circuits recruited for social behaviour. Meta-analysis of the transcriptomes of a range of organisms reveals that rodents, fish, and flies elevate IFN-γ/JAK-STAT-dependent gene signatures in a social context, suggesting that the IFN-γ signalling pathway could mediate a co-evolutionary link between social/aggregation behaviour and an efficient anti-pathogen response. 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Here we show that meningeal immunity is also critical for social behaviour; mice deficient in adaptive immunity exhibit social deficits and hyper-connectivity of fronto-cortical brain regions. Associations between rodent transcriptomes from brain and cellular transcriptomes in response to T-cell-derived cytokines suggest a strong interaction between social behaviour and interferon-γ (IFN-γ)-driven responses. Concordantly, we demonstrate that inhibitory neurons respond to IFN-γ and increase GABAergic (γ-aminobutyric-acid) currents in projection neurons, suggesting that IFN-γ is a molecular link between meningeal immunity and neural circuits recruited for social behaviour. Meta-analysis of the transcriptomes of a range of organisms reveals that rodents, fish, and flies elevate IFN-γ/JAK-STAT-dependent gene signatures in a social context, suggesting that the IFN-γ signalling pathway could mediate a co-evolutionary link between social/aggregation behaviour and an efficient anti-pathogen response. This study implicates adaptive immune dysfunction, in particular IFN-γ, in disorders characterized by social dysfunction and suggests a co-evolutionary link between social behaviour and an anti-pathogen immune response driven by IFN-γ signalling.</abstract><cop>London</cop><pub>Nature Publishing Group UK</pub><pmid>27409813</pmid><doi>10.1038/nature18626</doi><tpages>5</tpages><oa>free_for_read</oa></addata></record>
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subjects	631/250/371 631/378/371 64 64/60 Animals Drosophila melanogaster - genetics Female GABAergic Neurons - metabolism Humanities and Social Sciences Interferon Interferon-gamma - physiology letter Male Meninges - cytology Meninges - immunology Mental illness Mice Mice, Inbred C57BL multidisciplinary Neural Pathways Neurons Physiological aspects Prefrontal Cortex - cytology Prefrontal Cortex - metabolism Rats Science Signal Transduction Social Behavior Social behavior in animals T-Lymphocytes - immunology Transcriptome Zebrafish - genetics
title	Unexpected role of interferon-γ in regulating neuronal connectivity and social behaviour
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