Publications by authors named "Nina N Karpova"

Escalated or abnormal aggression induced by early adverse experiences is a growing issue of social concern and urges the development of effective treatment strategies. Here we report that synergistic interactions between psychosocial and biological factors specifically ameliorate escalated aggression induced by early adverse experiences. Rats reared in isolation from weaning until early adulthood showed abnormal forms of aggression and social deficits that were temporarily ameliorated by re-socialization, but aggression again escalated in a novel environment.

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Neuronal network and plasticity change as a function of experience. Altered neural connectivity leads to distinct transcriptional programs of neuronal plasticity-related genes. The environmental challenges throughout life may promote long-lasting reprogramming of gene expression and the development of brain disorders.

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The in utero exposure to common chemical stressors, environmental pollutant methylmercury and antidepressant fluoxetine, results in behavioral impairments persistent into adulthood. Modulation of critical periods in brain development may alter proper network formation and lastingly impair brain function. To investigate whether early-life stressors can modulate critical periods, we analyzed the development of parvalbumin (PV) and perineuronal nets (PNNs) in the dentate gyrus and CA1 area of the hippocampus and the basolateral amygdala in mice perinatally exposed to either fluoxetine or methylmercury.

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Developmental exposure to low dose of methylmercury (MeHg) has a long-lasting effect on memory and attention deficits in humans, as well as cognitive performance, depression-like behavior and the hippocampal levels of the brain-derived neurotrophic factor (Bdnf)in mice. The Bdnf receptor TrkB is a key player of Bdnf signaling. Using transgenic animals, here we analyzed the effect of the full-length TrkB overexpression (TK+) on behavior impairments induced by perinatal MeHg.

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Brain-derived neurotrophic factor (Bdnf) regulates neuronal plasticity, slow wave activity and sleep homeostasis. Environmental stimuli control Bdnf expression through epigenetic mechanisms, but there are no data on epigenetic regulation of Bdnf by sleep or sleep deprivation. Here we investigated whether 5-methylcytosine (5mC) DNA modification at Bdnf promoters p1, p4 and p9 influences Bdnf1, Bdnf4 and Bdnf9a expression during the normal inactive phase or after sleep deprivation (SD) (3, 6 and 12 h, end-times being ZT3, ZT6 and ZT12) in rats in two brain areas involved in sleep regulation, the basal forebrain and cortex.

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Several behavioral interventions, based on social enrichment and observational learning are applied in treatment of neuropsychiatric disorders. However, the mechanism of such modulatory effect and the safety of applied methods on individuals involved in social support need further investigation. We took advantage of known differences between inbred mouse strains to reveal the effect of social enrichment on behavior and neurobiology of animals with different behavioral phenotypes.

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The antidepressant fluoxetine induces synaptic plasticity in the visual and fear networks and promotes the structural remodeling of neuronal circuits, which is critical for experience-dependent plasticity in response to an environmental stimulus. We recently demonstrated that chronic fluoxetine administration together with extinction training in adult mice reduced fear in a context-independent manner. Fear conditioning and extinction alter excitatory and inhibitory transmissions within the fear circuitry.

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Brain-derived neurotrophic factor (BDNF) is a key mediator of the activity-dependent processes in the brain that have a major impact on neuronal development and plasticity. Impaired control of neuronal activity-induced BDNF expression mediates the pathogenesis of various neurological and psychiatric disorders. Different environmental stimuli, such as the use of pharmacological compounds, physical and learning exercises or stress exposure, lead to activation of specific neuronal networks.

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Article Synopsis
  • - Antidepressants and psychotherapy together are more effective for mood disorders than either treatment alone, but the reasons for this are not fully understood.
  • - In a study with mice, combining a treatment called fluoxetine with fear-extinction training resulted in a lasting decrease in fear responses, while using either treatment separately did not.
  • - Fluoxetine enhanced brain synaptic plasticity and modified fear-related brain circuits, suggesting that antidepressants can help reshape memory processes when paired with psychological therapy.
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During early postnatal phase, the environment deeply affects developmental trajectories through epigenetic mechanisms that control the levels of key molecules for brain function, such as neurotrophins. Indeed, it has been shown that adverse early experiences induce epigenetic modifications leading to decreased brain derived neurotrophic factor (BDNF) levels at adulthood. However, no data about the effects of enriching early experiences are available.

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Neuronal activity regulates the expression of brain-derived neurotrophic factor (BDNF) in brain. In darkness, reduced neuronal activity in the visual cortex markedly decreases total BDNF transcription level in adult rats. Epigenetic mechanisms are crucially involved in the regulation of gene expression in response to environmental stimuli.

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There is evidence that antidepressant drug treatment during a critical period of postnatal development renders mice susceptible to depression- and anxiety-related behaviour in adulthood. The mechanism of how early antidepressant treatment brings about long-term effects in emotional behaviour is not yet understood, but neurotrophins, particularly brain-derived neurotrophic factor (BDNF), have been implicated in this context. We examined the long-term effects of a transient early postnatal fluoxetine treatment on depression- and anxiety-related behaviours as well as gene expression of BDNF and its receptor TrkB in C57BL/6J mice.

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Mobile genetic elements constitute a substantial part of eukaryotic genome and play an important role in its organization and functioning. Co-evolution of retrotransposons and their hosts resulted in the establishment of control systems employing mechanisms of RNA interference that seem to be impossible to evade. However, "active" copies of endogenous retrovirus gypsy escape cellular control in some cases, while its evolutionary elder "inactive" variants do not.

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Long terminal repeat (LTR) retrotransposon gtwin was initially discovered in silico, and then it was isolated as gypsy-homologous sequence from Drosophila melanogaster strain, G32. The presence of ORF3 suggests, that gtwin, like gypsy, may be an endogenous retrovirus, which can leave the cell and infect another one. Therefore, in this study we decided to investigate the distribution of gtwin in different species of the melanogaster subgroup in order to find out whether gtwin can be transferred horizontally as well as vertically.

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