In Vivo and In Vitro Neuronal Plasticity Modulation by Epigenetic Regulators

In Vivo and In Vitro Neuronal Plasticity Modulation by Epigenetic Regulators

Prenatal stress (PS) induces molecular changes that alter neural connectivity, increasing the risk for neuropsychiatric disorders. Here we analyzed —in the hippocampus of adult rats exposed to PS— the epigenetic signature mediating the PS-induced neuroplasticity changes. Furthermore, using cultured...

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Veröffentlicht in:Journal of molecular neuroscience 2018-07, Vol.65 (3), p.301-311
Hauptverfasser: Monteleone, Melisa C., Pallarés, María Eugenia, Billi, Silvia C., Antonelli, Marta C., Brocco, Marcela A.
Format: Artikel
Sprache:eng
Schlagworte:
Acetylation
Animals
Biomedical and Life Sciences
Biomedicine
Cell Biology
Cells, Cultured
Chromatin
Chromatin remodeling
Dioxygenases - genetics
Dioxygenases - metabolism
Epigenesis, Genetic
Epigenetics
Female
Gene expression
Hippocampal plasticity
Hippocampus
Hippocampus - cytology
Hippocampus - growth & development
Hippocampus - metabolism
Histone Code
Histone Deacetylase Inhibitors - pharmacology
Histone methyltransferase
Hydroxylase
Male
MEF2 Transcription Factors - genetics
MEF2 Transcription Factors - metabolism
Mental disorders
Methyltransferases - genetics
Methyltransferases - metabolism
Molecular chains
Morphology
Neural networks
Neurochemistry
Neurogenesis
Neurology
Neuromodulation
Neuronal Plasticity
Neurons - cytology
Neurons - drug effects
Neurons - metabolism
Neuroplasticity
Neurosciences
Peptides, Cyclic - pharmacology
Pregnancy
Prenatal experience
Prenatal Exposure Delayed Effects - genetics
Prenatal Exposure Delayed Effects - metabolism
Prenatal Exposure Delayed Effects - physiopathology
Proteomics
Rats
Rats, Sprague-Dawley
Rats, Wistar
Regulators
Repressor Proteins - genetics
Repressor Proteins - metabolism
Stress, Psychological - genetics
Stress, Psychological - metabolism
Stress, Psychological - physiopathology
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Zusammenfassung:Prenatal stress (PS) induces molecular changes that alter neural connectivity, increasing the risk for neuropsychiatric disorders. Here we analyzed —in the hippocampus of adult rats exposed to PS— the epigenetic signature mediating the PS-induced neuroplasticity changes. Furthermore, using cultured hippocampal neurons, we investigated the effects on neuroplasticity of an epigenetic modulator. PS induced significant modifications in the mRNA levels of stress-related transcription factor MEF2A, SUV39H1 histone methyltransferase, and TET1 hydroxylase, indicating that PS modifies gene expression through chromatin remodeling. In in vitro analysis, histone acetylation inhibition with apicidin increased filopodium density, suggesting that the external regulation of acetylation levels might modulate neuronal morphology. These results offer a way to enhance neural connectivity that could be considered to revert PS effects.
ISSN:0895-8696
1559-1166
DOI:10.1007/s12031-018-1101-7