Dorota Nowicka scite author profile

The ability to undergo experience-dependent plasticity in the neocortex is often limited to early development, but also to particular cortical loci and specific experience. In layers II-IV of the barrel cortex, plasticity evoked by removing all but one vibrissae (univibrissa rearing) does not have a time limit except for layer IV barrels, where it can only be induced during the first postnatal week. In contrast, deprivation of every second vibrissa (chessboard deprivation) removes time limits for plasticity. The mechanism permitting plasticity in response to chessboard deprivation and halting it in reply to univibrissa rearing is unknown. Condensation of chondroitin sulfate proteoglycans into perineuronal nets and an increase in intracortical inhibition mediated by parvalbumin-containing interneurons are implicated in closing the critical period for ocular dominance plasticity. These factors could also be involved in setting up the critical period in barrels in a way that depends on a particular sensory experience. We therefore examined changes in density of parvalbumin-containing cells and perineuronal nets during development of mouse barrel cortex and after brief univibrissa and chessboard experience in adolescence. We observed a progressive increase in the density of the two markers across cortical layers between postnatal day 10 and 20, which was especially pronounced in the barrels. Univibrissa rearing, but not chessboard deprivation, increased the density of perineuronal nets and parvalbumin-containing cells in the deprived barrels, but only those that immediately neighbour the undeprived barrel. These data suggest the involvement of both tested factors in closing the critical period in barrels in an experience-dependent manner.

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Exercise-induced motor improvement after complete spinal cord transection and its relation to expression of brain-derived neurotrophic factor and presynaptic markers

Macias

Nowicka

Czupryn

et al. 2009

BMC Neurosci

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BackgroundIt has been postulated that exercise-induced activation of brain-derived neurotrophic factor (BDNF) may account for improvement of stepping ability in animals after complete spinal cord transection. As we have shown previously, treadmill locomotor exercise leads to up-regulation of BDNF protein and mRNA in the entire neuronal network of intact spinal cord. The questions arise: (i) how the treadmill locomotor training, supplemented with tail stimulation, affects the expression of molecular correlates of synaptic plasticity in spinal rats, and (ii) if a response is related to BDNF protein level and distribution.We investigated the effect of training in rats spinalized at low thoracic segments on the level and distribution of BDNF immunoreactivity (IR) in ventral quadrants of the lumbar segments, in conjunction with markers of presynaptic terminals, synaptophysin and synaptic zinc.ResultsTraining improved hindlimb stepping in spinal animals evaluated with modified Basso-Beattie-Bresnahan scale. Grades of spinal trained animals ranged between 5 and 11, whereas those of spinal were between 2 and 4. Functional improvement was associated with changes in presynaptic markers and BDNF distribution. Six weeks after transection, synaptophysin IR was reduced by 18% around the large neurons of lamina IX and training elevated its expression by over 30%. The level of synaptic zinc staining in the ventral horn was unaltered, whereas in ventral funiculi it was decreased by 26% postlesion and tended to normalize after the training. Overall BDNF IR levels in the ventral horn, which were higher by 22% postlesion, were unchanged after the training. However, training modified distribution of BDNF in the processes with its predominance in the longer and thicker ones. It also caused selective up-regulation of BDNF in two classes of cells (soma ranging between 100-400 μm2 and over 1000 μm2) of the ventrolateral and laterodorsal motor nuclei.ConclusionOur results show that it is not BDNF deficit that determines lack of functional improvement in spinal animals. They indicate selectivity of up-regulation of BDNF in distinct subpopulations of cells in the motor nuclei which leads to changes of innervation targeting motoneurons, tuned up by locomotor activity as indicated by a region-specific increase of presynaptic markers.

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Neuronal Excitation-driven and AP-1-dependent Activation of Tissue Inhibitor of Metalloproteinases-1 Gene Expression in Rodent Hippocampus

Jaworski¹,

Biedermann²,

Lapinska³

et al. 1999

Journal of Biological Chemistry

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Understanding of biological function of AP-1 transcription factor in central nervous system may greatly benefit from identifying its target genes. In this study, we present several lines of evidence implying AP-1 in regulating expression of tissue inhibitor of metalloproteinases-1 (timp-1) gene in rodent hippocampus in response to increased neuronal excitation. Such a notion is supported by the findings that timp-1 mRNA accumulation occurs in the rat hippocampus after either kainate-or pentylenetetrazole-evoked seizures with a delayed, in comparison with AP-1 components, time course, as well as with spatial overlap with c-Fos protein (major inducible AP-1 component) expression. Furthermore, AP-1 sequence derived from timp-1 promoter is specifically bound by hippocampal AP-1 proteins after treating the rats with either pro-convulsive agent. Finally, timp-1 promoter responds to excitatory activation both in vivo, in transgenic mice harboring the timp-LacZ gene construct, and in vitro in neurons of the hippocampal dentate gyrus cultures. These findings suggest that the AP-1 transcription factor may exert its role in the brain through affecting extracellular matrix remodeling.

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Disturbance of perineuronal nets in the perilesional area after photothrombosis is not associated with neuronal death

Karetko-Sysa

Skangiel-Kramska

Nowicka

2011

Experimental Neurology

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Effective chemo-immunotherapy of L1210 leukemiain vivo using interleukin-12 combined with doxorubicin but not with cyclophosphamide, paclitaxel or cisplatin

et al. 1998

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Dorota Nowicka

Parvalbumin‐containing neurons, perineuronal nets and experience‐dependent plasticity in murine barrel cortex

Exercise-induced motor improvement after complete spinal cord transection and its relation to expression of brain-derived neurotrophic factor and presynaptic markers

Neuronal Excitation-driven and AP-1-dependent Activation of Tissue Inhibitor of Metalloproteinases-1 Gene Expression in Rodent Hippocampus

Disturbance of perineuronal nets in the perilesional area after photothrombosis is not associated with neuronal death

Effective chemo-immunotherapy of L1210 leukemiain vivo using interleukin-12 combined with doxorubicin but not with cyclophosphamide, paclitaxel or cisplatin

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