Evgeni Nikolaev scite author profile

Temporal lobe epilepsy (TLE) is a devastating disease in which aberrant synaptic plasticity plays a major role. We identify matrix metalloproteinase (MMP) 9 as a novel synaptic enzyme and a key pathogenic factor in two animal models of TLE: kainate-evoked epilepsy and pentylenetetrazole (PTZ) kindling–induced epilepsy. Notably, we show that the sensitivity to PTZ epileptogenesis is decreased in MMP-9 knockout mice but is increased in a novel line of transgenic rats overexpressing MMP-9. Immunoelectron microscopy reveals that MMP-9 associates with hippocampal dendritic spines bearing asymmetrical (excitatory) synapses, where both the MMP-9 protein levels and enzymatic activity become strongly increased upon seizures. Further, we find that MMP-9 deficiency diminishes seizure-evoked pruning of dendritic spines and decreases aberrant synaptogenesis after mossy fiber sprouting. The latter observation provides a possible mechanistic basis for the effect of MMP-9 on epileptogenesis. Our work suggests that a synaptic pool of MMP-9 is critical for the sequence of events that underlie the development of seizures in animal models of TLE.

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Between-subject transfer of emotional information evokes specific pattern of amygdala activation

Knapska

Nikolaev²,

Boguszewski³

et al. 2006

Proc. Natl. Acad. Sci. U.S.A.

149

123

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Emotional states displayed by an animal or a human can seriously affect behavior of their conspecifics. The amygdala plays a crucial role in the processing of emotions. In this study, we describe an experimental rat model of between-subject transfer of emotional information and its effects on activation of the amygdala. The rats were kept in pairs, and one animal (designated as ''demonstrator'') was treated to specific behavioral training of either foot-shockreinforced context conditioning or just exposure to a novel context. We next examined the influence of the demonstrators on the exploratory behavior of their cagemates (called ''observers'') and the observers' performance of the acoustic startle response. We report that we can distinguish both groups of observers from the control animals (as shown by startle-response measure) and distinguish between observers (by means of indexing the exploration), with respect to whether they were paired with demonstrators treated to different experimental conditions. Furthermore, we show that the observers have most of their amygdala activated (as revealed by c-Fos mapping) to the same level as the demonstrators and, in the case of the central amygdala, to an even higher level. Moreover, the level of c-Fos expression in the observers reflected the specific behavioral treatment of the demonstrators with whom they were paired. Thus, in this study, we have shown that undefined emotional information transferred by a cohabitant rat can be evaluated and measured and that it evokes very strong and information-specific activation of the amygdala.c-Fos ͉ emotion ͉ social communication ͉ brain mapping ͉ empathy E motions coordinate homeostasis of an organism in a complex, dynamic environment and participate in regulation of social behaviors. Emotional states displayed by an animal or a human can seriously affect the behavior of conspecifics. This fact has been demonstrated in numerous studies involving simulated and real panic situations, in which the presence of a leader determines the time of achieving the goal of a safe exit (1, 2). The escape panic could happen in life-threatening situations, such as fires in crowded buildings, but sometimes, interestingly, it seems to emerge without any apparent cause. This kind of panic is probably provoked by the specific emotional behavior of some members of the crowd.It is well known that the elaborate emotional systems of social species, such as humans, allow the recognition of very subtle emotional signals. Most of the functional imaging studies in humans have used emotional facial expressions as social signals presented to a subject to associate differences in the social content of stimuli with differences in the activity of the neural structures engaged in the processing of such stimuli (3). The results of these studies clearly pointed to the amygdala being involved in the processing of negatively valenced stimuli of biological importance (4-6). The neuroimaging studies also revealed that fearful faces are especially effective in activa...

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Differential involvement of the central amygdala in appetitive versus aversive learning

Knapska¹,

Walasek²,

Nikolaev³

et al. 2006

Learn. Mem.

112

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Understanding the function of the distinct amygdaloid nuclei in learning comprises a major challenge. In the two studies described herein, we used c-Fos immunolabeling to compare the engagement of various nuclei of the amygdala in appetitive and aversive instrumental training procedures. In the first experiment, rats that had already acquired a bar-pressing response to a partial food reinforcement were further trained to learn that an acoustic stimulus signaled either continuous food reinforcement (appetitive training) or a footshock (aversive training). The first training session of the presentation of the acoustic stimulus resulted in significant increases of c-Fos immunolabeling throughout the amygdala; however, the pattern of activation of the nuclei of the amygdala differed according to the valence of motivation. The medial part of the central amygdala (CE) responded, surprisingly, to the appetitive conditioning selectively. The second experiment was designed to extend the aversive versus appetitive conditioning to mice, trained either for place preference or place avoidance in an automated learning system (INTELLICAGE). Again, much more intense c-Fos expression was observed in the medial part of the CE after the appetitive training as compared to the aversive training. These data, obtained in two species and by means of novel experimental approaches balancing appetitive versus aversive conditioning, support the hypothesis that the central nucleus of the amygdala is particularly involved in appetitively motivated learning processes.

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Matrix Metalloproteinase (MMP) 9 Transcription in Mouse Brain Induced by Fear Learning

Ganguly¹,

Rejmak²,

Mikosz

et al. 2013

Journal of Biological Chemistry

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Background: Matrix metalloproteinase 9 is involved in fear-associated memory formation wherein transcriptional regulation is poorly known. Results: Overexpression and promoter binding activity of AP-1 factors regulate MMP-9 transcription, preceding elevated enzymatic activity in mouse brain. Conclusion: c-Fos and c-Jun AP-1 components positively regulate MMP-9 transcription in fear learning. Significance: The novel tools and approaches in vivo allowed us to explore MMP-9 transcription in mouse brain.

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The Antitumorigenic Response of Neural Precursors Depends on Subventricular Proliferation and Age

Walzlein

Synowitz

Engels

et al. 2008

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Evgeni Nikolaev

Important role of matrix metalloproteinase 9 in epileptogenesis

Between-subject transfer of emotional information evokes specific pattern of amygdala activation

Differential involvement of the central amygdala in appetitive versus aversive learning

Matrix Metalloproteinase (MMP) 9 Transcription in Mouse Brain Induced by Fear Learning

The Antitumorigenic Response of Neural Precursors Depends on Subventricular Proliferation and Age

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