A distinct transcriptional signature of antidepressant response in hippocampal dentate gyrus granule cells

A distinct transcriptional signature of antidepressant response in hippocampal dentate gyrus granule cells

Abstract Major depressive disorder is the most prevalent mental illness worldwide, still its pharmacological treatment is limited by various challenges, such as the large heterogeneity in treatment response and the lack of insight into the neurobiological pathways underlying this phenomenon. To deco...

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Main Authors: David P. Herzog, Diego Pascual Cuadrado, Giulia Treccani, Tanja Jene, Verena Opitz, Annika Hasch, Beat Lutz, Klaus Lieb, Inge Sillaber, Michael A. van der Kooij, Vijay K. Tiwari, Marianne B. Müller
Format: Article
Language:English
Published: Nature Publishing Group 2021-01-01
Series:Translational Psychiatry
Online Access:https://doi.org/10.1038/s41398-020-01136-2
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spelling doaj-f54f9a5d110049398b92c8801e35fdeb2021-01-10T13:00:33ZengNature Publishing GroupTranslational Psychiatry2158-31882021-01-0111111210.1038/s41398-020-01136-2A distinct transcriptional signature of antidepressant response in hippocampal dentate gyrus granule cellsDavid P. Herzog0Diego Pascual Cuadrado1Giulia Treccani2Tanja Jene3Verena Opitz4Annika Hasch5Beat Lutz6Klaus Lieb7Inge Sillaber8Michael A. van der Kooij9Vijay K. Tiwari10Marianne B. Müller11Department of Psychiatry and Psychotherapy, Johannes Gutenberg University Medical Center MainzInstitute of Physiological Chemistry, Johannes Gutenberg University Medical Center MainzDepartment of Psychiatry and Psychotherapy, Johannes Gutenberg University Medical Center MainzDepartment of Psychiatry and Psychotherapy, Johannes Gutenberg University Medical Center MainzDepartment of Psychiatry and Psychotherapy, Johannes Gutenberg University Medical Center MainzDepartment of Psychiatry and Psychotherapy, Johannes Gutenberg University Medical Center MainzFocus Program Translational Neurosciences, Johannes Gutenberg University Medical Center MainzDepartment of Psychiatry and Psychotherapy, Johannes Gutenberg University Medical Center MainzGenevention GmbHDepartment of Psychiatry and Psychotherapy, Johannes Gutenberg University Medical Center MainzInstitute of Molecular Biology, Johannes Gutenberg University MainzDepartment of Psychiatry and Psychotherapy, Johannes Gutenberg University Medical Center MainzAbstract Major depressive disorder is the most prevalent mental illness worldwide, still its pharmacological treatment is limited by various challenges, such as the large heterogeneity in treatment response and the lack of insight into the neurobiological pathways underlying this phenomenon. To decode the molecular mechanisms shaping antidepressant response and to distinguish those from general paroxetine effects, we used a previously established approach targeting extremes (i.e., good vs poor responder mice). We focused on the dentate gyrus (DG), a subregion of major interest in the context of antidepressant mechanisms. Transcriptome profiling on micro-dissected DG granule cells was performed to (i) reveal cell-type-specific changes in paroxetine-induced gene expression (paroxetine vs vehicle) and (ii) to identify molecular signatures of treatment response within a cohort of paroxetine-treated animals. We identified 112 differentially expressed genes associated with paroxetine treatment. The extreme group comparison (good vs poor responder) yielded 211 differentially expressed genes. General paroxetine effects could be distinguished from treatment response-associated molecular signatures, with a differential gene expression overlap of only 4.6% (15 genes). Biological pathway enrichment and cluster analyses identified candidate mechanisms associated with good treatment response, e.g., neuropeptide signaling, synaptic transmission, calcium signaling, and regulation of glucocorticoid secretion. Finally, we examined glucocorticoid receptor (GR)-dependent regulation of selected response-associated genes to analyze a hypothesized interplay between GR signaling and good antidepressant treatment response. Among the most promising candidates, we suggest potential targets such as the developmental gene Otx2 or Htr2c for further investigations into antidepressant treatment response in the future.https://doi.org/10.1038/s41398-020-01136-2
collection DOAJ
language English
format Article
sources DOAJ
author David P. Herzog
Diego Pascual Cuadrado
Giulia Treccani
Tanja Jene
Verena Opitz
Annika Hasch
Beat Lutz
Klaus Lieb
Inge Sillaber
Michael A. van der Kooij
Vijay K. Tiwari
Marianne B. Müller
spellingShingle David P. Herzog
Diego Pascual Cuadrado
Giulia Treccani
Tanja Jene
Verena Opitz
Annika Hasch
Beat Lutz
Klaus Lieb
Inge Sillaber
Michael A. van der Kooij
Vijay K. Tiwari
Marianne B. Müller
A distinct transcriptional signature of antidepressant response in hippocampal dentate gyrus granule cells
Translational Psychiatry
author_facet David P. Herzog
Diego Pascual Cuadrado
Giulia Treccani
Tanja Jene
Verena Opitz
Annika Hasch
Beat Lutz
Klaus Lieb
Inge Sillaber
Michael A. van der Kooij
Vijay K. Tiwari
Marianne B. Müller
author_sort David P. Herzog
title A distinct transcriptional signature of antidepressant response in hippocampal dentate gyrus granule cells
title_short A distinct transcriptional signature of antidepressant response in hippocampal dentate gyrus granule cells
title_full A distinct transcriptional signature of antidepressant response in hippocampal dentate gyrus granule cells
title_fullStr A distinct transcriptional signature of antidepressant response in hippocampal dentate gyrus granule cells
title_full_unstemmed A distinct transcriptional signature of antidepressant response in hippocampal dentate gyrus granule cells
title_sort distinct transcriptional signature of antidepressant response in hippocampal dentate gyrus granule cells
publisher Nature Publishing Group
series Translational Psychiatry
issn 2158-3188
publishDate 2021-01-01
description Abstract Major depressive disorder is the most prevalent mental illness worldwide, still its pharmacological treatment is limited by various challenges, such as the large heterogeneity in treatment response and the lack of insight into the neurobiological pathways underlying this phenomenon. To decode the molecular mechanisms shaping antidepressant response and to distinguish those from general paroxetine effects, we used a previously established approach targeting extremes (i.e., good vs poor responder mice). We focused on the dentate gyrus (DG), a subregion of major interest in the context of antidepressant mechanisms. Transcriptome profiling on micro-dissected DG granule cells was performed to (i) reveal cell-type-specific changes in paroxetine-induced gene expression (paroxetine vs vehicle) and (ii) to identify molecular signatures of treatment response within a cohort of paroxetine-treated animals. We identified 112 differentially expressed genes associated with paroxetine treatment. The extreme group comparison (good vs poor responder) yielded 211 differentially expressed genes. General paroxetine effects could be distinguished from treatment response-associated molecular signatures, with a differential gene expression overlap of only 4.6% (15 genes). Biological pathway enrichment and cluster analyses identified candidate mechanisms associated with good treatment response, e.g., neuropeptide signaling, synaptic transmission, calcium signaling, and regulation of glucocorticoid secretion. Finally, we examined glucocorticoid receptor (GR)-dependent regulation of selected response-associated genes to analyze a hypothesized interplay between GR signaling and good antidepressant treatment response. Among the most promising candidates, we suggest potential targets such as the developmental gene Otx2 or Htr2c for further investigations into antidepressant treatment response in the future.
url https://doi.org/10.1038/s41398-020-01136-2
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