Early life adversity targets the transcriptional signature of hippocampal NG2+ glia and affects voltage gated sodium (Nav) channels properties

Giulia Treccani; Hatice Yigit; Thomas Lingner; Vanessa Schleuβner; Franziska Mey; Michael A van der Kooij; Malin Wennström; David P Herzog; Matthias Linke; Markus Fricke; Michael J Schmeisser; Gregers Wegener; Thomas Mittmann; Jacqueline Trotter; Marianne B Müller

doi:10.1016/j.ynstr.2021.100338

Early life adversity targets the transcriptional signature of hippocampal NG2+ glia and affects voltage gated sodium (Nav) channels properties

Giulia Treccani, Hatice Yigit, Thomas Lingner, Vanessa Schleuβner, Franziska Mey, Michael A van der Kooij, Malin Wennström, David P Herzog, Matthias Linke, Markus Fricke, Michael J Schmeisser, Gregers Wegener, Thomas Mittmann, Jacqueline Trotter, Marianne B Müller

Research output: Contribution to journal › Article › Academic › peer-review

Abstract

The precise mechanisms underlying the detrimental effects of early life adversity (ELA) on adult mental health remain still elusive. To date, most studies have exclusively targeted neuronal populations and not considered neuron-glia crosstalk as a crucially important element for the integrity of stress-related brain function. Here, we have investigated the impact of ELA, in the form of a limited bedding and nesting material (LBN) paradigm, on a glial subpopulation with unique properties in brain homeostasis, the NG2+ cells. First, we have established a link between maternal behavior, activation of the offspring's stress response and heterogeneity in the outcome to LBN manipulation. We further showed that LBN targets the hippocampal NG2+ transcriptome with glucocorticoids being an important mediator of the LBN-induced molecular changes. LBN altered the NG2+ transcriptome and these transcriptional effects were correlated with glucocorticoids levels. The functional relevance of one LBN-induced candidate gene, Scn7a, could be confirmed by an increase in the density of voltage-gated sodium (Nav) channel activated currents in hippocampal NG2+ cells. Scn7a remained upregulated until adulthood in LBN animals, which displayed impaired cognitive performance. Considering that Nav channels are important for NG2+ cell-to-neuron communication, our findings provide novel insights into the disruption of this process in LBN mice.

Original language	English
Article number	100338
Pages (from-to)	100338
Journal	Neurobiology of stress
Volume	15
DOIs	https://doi.org/10.1016/j.ynstr.2021.100338
Publication status	Published - Nov 2021
Externally published	Yes

Keywords

Early life stress
Na -channels
NG2+ glia
Scn7a
Transcriptome
Translational psychiatry

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10.1016/j.ynstr.2021.100338

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Treccani, G., Yigit, H., Lingner, T., Schleuβner, V., Mey, F., van der Kooij, M. A., Wennström, M., Herzog, D. P., Linke, M., Fricke, M., Schmeisser, M. J., Wegener, G., Mittmann, T., Trotter, J., & Müller, M. B. (2021). Early life adversity targets the transcriptional signature of hippocampal NG2+ glia and affects voltage gated sodium (Nav) channels properties. Neurobiology of stress, 15, 100338. Article 100338. https://doi.org/10.1016/j.ynstr.2021.100338

@article{1d1914acd1454d2bb955586a1d2fe89a,

title = "Early life adversity targets the transcriptional signature of hippocampal NG2+ glia and affects voltage gated sodium (Nav) channels properties",

abstract = "The precise mechanisms underlying the detrimental effects of early life adversity (ELA) on adult mental health remain still elusive. To date, most studies have exclusively targeted neuronal populations and not considered neuron-glia crosstalk as a crucially important element for the integrity of stress-related brain function. Here, we have investigated the impact of ELA, in the form of a limited bedding and nesting material (LBN) paradigm, on a glial subpopulation with unique properties in brain homeostasis, the NG2+ cells. First, we have established a link between maternal behavior, activation of the offspring's stress response and heterogeneity in the outcome to LBN manipulation. We further showed that LBN targets the hippocampal NG2+ transcriptome with glucocorticoids being an important mediator of the LBN-induced molecular changes. LBN altered the NG2+ transcriptome and these transcriptional effects were correlated with glucocorticoids levels. The functional relevance of one LBN-induced candidate gene, Scn7a, could be confirmed by an increase in the density of voltage-gated sodium (Nav) channel activated currents in hippocampal NG2+ cells. Scn7a remained upregulated until adulthood in LBN animals, which displayed impaired cognitive performance. Considering that Nav channels are important for NG2+ cell-to-neuron communication, our findings provide novel insights into the disruption of this process in LBN mice.",

keywords = "Early life stress, Na -channels, NG2+ glia, Scn7a, Transcriptome, Translational psychiatry",

author = "Giulia Treccani and Hatice Yigit and Thomas Lingner and Vanessa Schleuβner and Franziska Mey and {van der Kooij}, {Michael A} and Malin Wennstr{\"o}m and Herzog, {David P} and Matthias Linke and Markus Fricke and Schmeisser, {Michael J} and Gregers Wegener and Thomas Mittmann and Jacqueline Trotter and M{\"u}ller, {Marianne B}",

note = "Funding Information: This work was supported by a DFF Postdoctoral grant from the The Danish Council for Independent Research ( DFF-5053-00103 ), from the Dr.phil. Ragna Rask-Nielsen Grundforskningsfond and by an intramural research funding from the University Medical Center of the Johannes Gutenberg-University Mainz both to GT, and by funding from the German Research Foundation to TM ( CRC 1080 TP CO2 ), to JT and TM (MI 452/6-1) and from the German Foundation to JT ( CRC 128, TP B07 ) and to MJS ( CRC 1080, TP B10 ). MJS was further supported by the Else Kr{\"o}ner Fresenius Foundation (grant 2018_A78 ), the Volkswagen Foundation and the German Ministry of Education and Research ( GeNeRARe, 01GM1519A ). The support by the IMB Genomics Core Facility in Mainz , the use of its NextSeq 500 ( INST 247/870‐1 FUGG ) and the support by the IMB Microscopy Core Facility are gratefully acknowledged. We are very grateful to Dr Inge Sillaber (Genevention) and Dr Filippo Calzolari for critical discussion and to Anna-Lena Schlegelmilch, Annika Hasch, Verena Opitz, Julia Deuster, Jennifer Kl{\"u}pfel and Dr Konstantin Radyushkin for technical support during the experiments. We thank Roberto Danesi for providing the video editing program. A portion of the work described herein was carried out by Franziska Mey in partial fulfilment of the requirements for a medical doctoral degree at the Johannes Gutenberg University Medical Center Mainz, Germany. Publisher Copyright: {\textcopyright} 2021 The Authors",

year = "2021",

month = nov,

doi = "10.1016/j.ynstr.2021.100338",

language = "English",

volume = "15",

pages = "100338",

}

Treccani, G, Yigit, H, Lingner, T, Schleuβner, V, Mey, F, van der Kooij, MA, Wennström, M, Herzog, DP, Linke, M, Fricke, M, Schmeisser, MJ, Wegener, G, Mittmann, T, Trotter, J & Müller, MB 2021, 'Early life adversity targets the transcriptional signature of hippocampal NG2+ glia and affects voltage gated sodium (Nav) channels properties', Neurobiology of stress, vol. 15, 100338, pp. 100338. https://doi.org/10.1016/j.ynstr.2021.100338

TY - JOUR

T1 - Early life adversity targets the transcriptional signature of hippocampal NG2+ glia and affects voltage gated sodium (Nav) channels properties

AU - Treccani, Giulia

AU - Yigit, Hatice

AU - Lingner, Thomas

AU - Schleuβner, Vanessa

AU - Mey, Franziska

AU - van der Kooij, Michael A

AU - Wennström, Malin

AU - Herzog, David P

AU - Linke, Matthias

AU - Fricke, Markus

AU - Schmeisser, Michael J

AU - Wegener, Gregers

AU - Mittmann, Thomas

AU - Trotter, Jacqueline

AU - Müller, Marianne B

N1 - Funding Information: This work was supported by a DFF Postdoctoral grant from the The Danish Council for Independent Research ( DFF-5053-00103 ), from the Dr.phil. Ragna Rask-Nielsen Grundforskningsfond and by an intramural research funding from the University Medical Center of the Johannes Gutenberg-University Mainz both to GT, and by funding from the German Research Foundation to TM ( CRC 1080 TP CO2 ), to JT and TM (MI 452/6-1) and from the German Foundation to JT ( CRC 128, TP B07 ) and to MJS ( CRC 1080, TP B10 ). MJS was further supported by the Else Kröner Fresenius Foundation (grant 2018_A78 ), the Volkswagen Foundation and the German Ministry of Education and Research ( GeNeRARe, 01GM1519A ). The support by the IMB Genomics Core Facility in Mainz , the use of its NextSeq 500 ( INST 247/870‐1 FUGG ) and the support by the IMB Microscopy Core Facility are gratefully acknowledged. We are very grateful to Dr Inge Sillaber (Genevention) and Dr Filippo Calzolari for critical discussion and to Anna-Lena Schlegelmilch, Annika Hasch, Verena Opitz, Julia Deuster, Jennifer Klüpfel and Dr Konstantin Radyushkin for technical support during the experiments. We thank Roberto Danesi for providing the video editing program. A portion of the work described herein was carried out by Franziska Mey in partial fulfilment of the requirements for a medical doctoral degree at the Johannes Gutenberg University Medical Center Mainz, Germany. Publisher Copyright: © 2021 The Authors

PY - 2021/11

Y1 - 2021/11

N2 - The precise mechanisms underlying the detrimental effects of early life adversity (ELA) on adult mental health remain still elusive. To date, most studies have exclusively targeted neuronal populations and not considered neuron-glia crosstalk as a crucially important element for the integrity of stress-related brain function. Here, we have investigated the impact of ELA, in the form of a limited bedding and nesting material (LBN) paradigm, on a glial subpopulation with unique properties in brain homeostasis, the NG2+ cells. First, we have established a link between maternal behavior, activation of the offspring's stress response and heterogeneity in the outcome to LBN manipulation. We further showed that LBN targets the hippocampal NG2+ transcriptome with glucocorticoids being an important mediator of the LBN-induced molecular changes. LBN altered the NG2+ transcriptome and these transcriptional effects were correlated with glucocorticoids levels. The functional relevance of one LBN-induced candidate gene, Scn7a, could be confirmed by an increase in the density of voltage-gated sodium (Nav) channel activated currents in hippocampal NG2+ cells. Scn7a remained upregulated until adulthood in LBN animals, which displayed impaired cognitive performance. Considering that Nav channels are important for NG2+ cell-to-neuron communication, our findings provide novel insights into the disruption of this process in LBN mice.

AB - The precise mechanisms underlying the detrimental effects of early life adversity (ELA) on adult mental health remain still elusive. To date, most studies have exclusively targeted neuronal populations and not considered neuron-glia crosstalk as a crucially important element for the integrity of stress-related brain function. Here, we have investigated the impact of ELA, in the form of a limited bedding and nesting material (LBN) paradigm, on a glial subpopulation with unique properties in brain homeostasis, the NG2+ cells. First, we have established a link between maternal behavior, activation of the offspring's stress response and heterogeneity in the outcome to LBN manipulation. We further showed that LBN targets the hippocampal NG2+ transcriptome with glucocorticoids being an important mediator of the LBN-induced molecular changes. LBN altered the NG2+ transcriptome and these transcriptional effects were correlated with glucocorticoids levels. The functional relevance of one LBN-induced candidate gene, Scn7a, could be confirmed by an increase in the density of voltage-gated sodium (Nav) channel activated currents in hippocampal NG2+ cells. Scn7a remained upregulated until adulthood in LBN animals, which displayed impaired cognitive performance. Considering that Nav channels are important for NG2+ cell-to-neuron communication, our findings provide novel insights into the disruption of this process in LBN mice.

KW - Early life stress

KW - Na -channels

KW - NG2+ glia

KW - Scn7a

KW - Transcriptome

KW - Translational psychiatry

UR - http://www.scopus.com/inward/record.url?scp=85106222752&partnerID=8YFLogxK

U2 - 10.1016/j.ynstr.2021.100338

DO - 10.1016/j.ynstr.2021.100338

M3 - Article

C2 - 34095364

SN - 2352-2895

VL - 15

SP - 100338

JO - Neurobiology of stress

JF - Neurobiology of stress

M1 - 100338

ER -

Early life adversity targets the transcriptional signature of hippocampal NG2+ glia and affects voltage gated sodium (Nav) channels properties

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Keywords

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