Nortriptyline influences protein pathways involved in carbohydrate metabolism and actin-related processes in a rat gene–environment model of depression

Abstract Although most available antidepressants increase monoaminergic neurotransmission, their therapeutic efficacy is likely mediated by longer-term molecular adaptations. To investigate the molecular changes induced by chronic antidepressant treatment we analysed proteomic changes in rat pre-fro...

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Bibliographic Details
Published in:European neuropsychopharmacology 2011-07, Vol.21 (7), p.545-562
Main Authors: Piubelli, Chiara, Gruber, Susanne, El Khoury, Aram, Mathé, Aleksander A, Domenici, Enrico, Carboni, Lucia
Format: Article
Language:English
Subjects:
2-D electrophoresis
Actins - metabolism
Adaptations
Animal models
Animals
Antidepressants
Antidepressive Agents - pharmacology
Axons
Brain - drug effects
Carbohydrate metabolism
Carbohydrate Metabolism - drug effects
Carbohydrates
Cortex (frontal)
Cytoskeletal Proteins - metabolism
Cytoskeleton
Depression
Depression - drug therapy
Depression - genetics
Depressive Disorder - drug therapy
Depressive Disorder - genetics
Disease Models, Animal
Environment
Hippocampus
Internal Medicine
Male
Maternal Deprivation
Maternal separation
Medicin och hälsovetenskap
Metabolic pathways
Morphogenesis
Neurotransmission
Nortriptyline
Nortriptyline - pharmacology
Nucleotides
Polymerization
Pre-frontal cortex
Proteome - analysis
Proteome - metabolism
Proteomics
Psychiatry
Rats
Swimming
Synaptic Transmission
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Summary:Abstract Although most available antidepressants increase monoaminergic neurotransmission, their therapeutic efficacy is likely mediated by longer-term molecular adaptations. To investigate the molecular changes induced by chronic antidepressant treatment we analysed proteomic changes in rat pre-frontal/frontal cortex and hippocampus after nortriptyline (NT) administration. A wide-scale analysis of protein expression was performed on the Flinders Sensitive Line (FSL), a genetically-selected rat model of depression, and the control Flinders Resistant Line (FRL). The effect of NT treatment was examined in a gene–environment interaction model, applying maternal separation (MS) to both strains. In the forced swim test, FSL rats were significantly more immobile than FRL animals, whereas NT treatment reduced immobility time. MS alone did not modify immobility time, but it impaired the response to NT in the FSL strain. In the proteomic analysis, in FSL rats NT treatment chiefly modulated cytoskeleton proteins and carbohydrate metabolism. In the FRL strain, changes influenced protein polymerization and intracellular transport. After MS, NT treatment mainly affected proteins in nucleotide metabolism in FSL rats and synaptic transmission and neurite morphogenesis pathways in FRL rats. When the effects of NT treatment and MS were compared between strains, carbohydrate metabolic pathways were predominantly modulated.
ISSN:0924-977X
1873-7862
1873-7862
DOI:10.1016/j.euroneuro.2010.11.003