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1.
Cereb Cortex ; 31(9): 4259-4273, 2021 07 29.
Article in English | MEDLINE | ID: mdl-33987642

ABSTRACT

Through the corpus callosum, interhemispheric communication is mediated by callosal projection (CP) neurons. Using retrograde labeling, we identified a population of layer 6 (L6) excitatory neurons as the main conveyer of transcallosal information in the monocular zone of the mouse primary visual cortex (V1). Distinct from L6 corticothalamic (CT) population, V1 L6 CP neurons contribute to an extensive reciprocal network across multiple sensory cortices over two hemispheres. Receiving both local and long-range cortical inputs, they encode orientation, direction, and receptive field information, while are also highly spontaneous active. The spontaneous activity of L6 CP neurons exhibits complex relationships with brain states and stimulus presentation, distinct from the spontaneous activity patterns of the CT population. The anatomical and functional properties of these L6 CP neurons enable them to broadcast visual and nonvisual information across two hemispheres, and thus may play a role in regulating and coordinating brain-wide activity events.


Subject(s)
Corpus Callosum/physiology , Neurons/physiology , Photic Stimulation/methods , Primary Visual Cortex/physiology , Visual Pathways/physiology , Animals , Corpus Callosum/chemistry , Corpus Callosum/cytology , Mice , Mice, Inbred C57BL , Mice, Transgenic , Microscopy, Fluorescence, Multiphoton/methods , Neurons/chemistry , Primary Visual Cortex/chemistry , Primary Visual Cortex/cytology , Visual Pathways/chemistry , Visual Pathways/cytology
2.
J Comp Neurol ; 529(11): 2827-2841, 2021 08 01.
Article in English | MEDLINE | ID: mdl-33576496

ABSTRACT

During development, the visual system maintains a high capacity for modification by expressing characteristics permissive for plasticity, enabling neural circuits to be refined by visual experience to achieve their mature form. This period is followed by the emergence of characteristics that stabilize the brain to consolidate for lifetime connections that were informed by experience. Attenuation of plasticity potential is thought to derive from an accumulation of plasticity-inhibiting characteristics that appear at ages beyond the peak of plasticity. Perineuronal nets (PNNs) are molecular aggregations that primarily surround fast-spiking inhibitory neurons called parvalbumin (PV) cells, which exhibit properties congruent with a plasticity inhibitor. In this study, we examined the development of PNNs and PV cells in the primary visual cortex of a highly visual mammal, and assessed the impact that 10 days of darkness had on both characteristics. Here, we show that labeling for PV expression emerges earlier and reaches adult levels sooner than PNNs. We also demonstrate that darkness, a condition known to enhance plasticity, significantly reduces the density of PNNs and the size of PV cell somata but does not alter the number of PV cells in the visual cortex. The darkness-induced reduction of PV cell size occurred irrespective of whether neurons were surrounded by a PNN, suggesting that PNNs have a restricted capacity to inhibit plasticity. Finally, we show that PV cells surrounded by a PNN were significantly larger than those without one, supporting the view that PNNs may mediate trophic support to the cells they surround.


Subject(s)
Darkness , Nerve Net/growth & development , Neurons/physiology , Parvalbumins/physiology , Primary Visual Cortex/growth & development , Age Factors , Animals , Cats , Nerve Net/chemistry , Neurons/chemistry , Parvalbumins/analysis , Primary Visual Cortex/chemistry , Primary Visual Cortex/cytology
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