A biomarker-authenticated model of schizophrenia implicating NPTX2 loss of function

Mei Fang Xiao; Seung Eon Roh; Jiechao Zhou; Chun Che Chien; Brendan P. Lucey; Michael T. Craig; Lindsay N. Hayes; Jennifer M. Coughlin; F. Markus Leweke; Min Jia; Desheng Xu; Weiqiang Zhou; Jr Conover Talbot; Don B. Arnold; Melissa Staley; Cindy Jiang; Irving M. Reti; Akira Sawa; Kenneth A. Pelkey; Chris J. McBain; Alena Savonenko; Paul F. Worley

doi:10.1126/sciadv.abf6935

A biomarker-authenticated model of schizophrenia implicating NPTX2 loss of function

Mei Fang Xiao, Seung Eon Roh, Jiechao Zhou, Chun Che Chien, Brendan P. Lucey, Michael T. Craig, Lindsay N. Hayes, Jennifer M. Coughlin, F. Markus Leweke, Min Jia, Desheng Xu, Weiqiang Zhou, Jr Conover Talbot, Don B. Arnold, Melissa Staley, Cindy Jiang, Irving M. Reti, Akira Sawa, Kenneth A. Pelkey, Chris J. McBainAlena Savonenko, Paul F. Worley

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Abstract

Schizophrenia is a polygenetic disorder whose clinical onset is often associated with behavioral stress. Here, we present a model of disease pathogenesis that builds on our observation that the synaptic immediate early gene NPTX2 is reduced in cerebrospinal fluid of individuals with recent onset schizophrenia. NPTX2 plays an essential role in maintaining excitatory homeostasis by adaptively enhancing circuit inhibition. NPTX2 function requires activity-dependent exocytosis and dynamic shedding at synapses and is coupled to circadian behavior. Behavior-linked NPTX2 trafficking is abolished by mutations that disrupt select activity-dependent plasticity mechanisms of excitatory neurons. Modeling NPTX2 loss of function results in failure of parvalbumin interneurons in their adaptive contribution to behavioral stress, and animals exhibit multiple neuropsychiatric domains. Because the genetics of schizophrenia encompasses diverse proteins that contribute to excitatory synapse plasticity, the identified vulnerability of NPTX2 function can provide a framework for assessing the impact of genetics and the intersection with stress.

Original language	English (US)
Article number	eabf6935
Journal	Science Advances
Volume	7
Issue number	48
DOIs	https://doi.org/10.1126/sciadv.abf6935
State	Published - Nov 2021

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Xiao, M. F., Roh, S. E., Zhou, J., Chien, C. C., Lucey, B. P., Craig, M. T., Hayes, L. N., Coughlin, J. M., Markus Leweke, F., Jia, M., Xu, D., Zhou, W., Conover Talbot, J., Arnold, D. B., Staley, M., Jiang, C., Reti, I. M., Sawa, A., Pelkey, K. A., ... Worley, P. F. (2021). A biomarker-authenticated model of schizophrenia implicating NPTX2 loss of function. Science Advances, 7(48), Article eabf6935. https://doi.org/10.1126/sciadv.abf6935

Xiao, MF , Roh, SE , Zhou, J, Chien, CC, Lucey, BP, Craig, MT, Hayes, LN, Coughlin, JM, Markus Leweke, F, Jia, M, Xu, D, Zhou, W, Conover Talbot, J, Arnold, DB, Staley, M, Jiang, C, Reti, IM , Sawa, A, Pelkey, KA, McBain, CJ, Savonenko, A & Worley, PF 2021, 'A biomarker-authenticated model of schizophrenia implicating NPTX2 loss of function', Science Advances, vol. 7, no. 48, eabf6935. https://doi.org/10.1126/sciadv.abf6935

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title = "A biomarker-authenticated model of schizophrenia implicating NPTX2 loss of function",

abstract = "Schizophrenia is a polygenetic disorder whose clinical onset is often associated with behavioral stress. Here, we present a model of disease pathogenesis that builds on our observation that the synaptic immediate early gene NPTX2 is reduced in cerebrospinal fluid of individuals with recent onset schizophrenia. NPTX2 plays an essential role in maintaining excitatory homeostasis by adaptively enhancing circuit inhibition. NPTX2 function requires activity-dependent exocytosis and dynamic shedding at synapses and is coupled to circadian behavior. Behavior-linked NPTX2 trafficking is abolished by mutations that disrupt select activity-dependent plasticity mechanisms of excitatory neurons. Modeling NPTX2 loss of function results in failure of parvalbumin interneurons in their adaptive contribution to behavioral stress, and animals exhibit multiple neuropsychiatric domains. Because the genetics of schizophrenia encompasses diverse proteins that contribute to excitatory synapse plasticity, the identified vulnerability of NPTX2 function can provide a framework for assessing the impact of genetics and the intersection with stress.",

author = "Xiao, {Mei Fang} and Roh, {Seung Eon} and Jiechao Zhou and Chien, {Chun Che} and Lucey, {Brendan P.} and Craig, {Michael T.} and Hayes, {Lindsay N.} and Coughlin, {Jennifer M.} and {Markus Leweke}, F. and Min Jia and Desheng Xu and Weiqiang Zhou and {Conover Talbot}, Jr and Arnold, {Don B.} and Melissa Staley and Cindy Jiang and Reti, {Irving M.} and Akira Sawa and Pelkey, {Kenneth A.} and McBain, {Chris J.} and Alena Savonenko and Worley, {Paul F.}",

year = "2021",

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doi = "10.1126/sciadv.abf6935",

language = "English (US)",

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AU - Lucey, Brendan P.

AU - Craig, Michael T.

AU - Hayes, Lindsay N.

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AU - Markus Leweke, F.

AU - Jia, Min

AU - Xu, Desheng

AU - Zhou, Weiqiang

AU - Conover Talbot, Jr

AU - Arnold, Don B.

AU - Staley, Melissa

AU - Jiang, Cindy

AU - Reti, Irving M.

AU - Sawa, Akira

AU - Pelkey, Kenneth A.

AU - McBain, Chris J.

AU - Savonenko, Alena

AU - Worley, Paul F.

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A biomarker-authenticated model of schizophrenia implicating NPTX2 loss of function

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