In rodents, the barrel cortex is a specialized area within the somatosensory cortex that processes signals from the mystacial whiskers. We investigated the normal development of myelination in the barrel cortex of mice, as well as the effects of sensory deprivation on this pattern. Deprivation was achieved by trimming the whiskers on one side of the face every other day from birth. In control mice, myelin was not present until postnatal day 14 and did not show prominence until postnatal day 30; adult levels of myelination were reached by the end of the second postnatal month. Unbiased stereology was used to estimate axon density in the interbarrel septal region and barrel walls as well as the barrel centers. Myelin was significantly more concentrated in the interbarrel septa/barrel walls than in the barrel centers in both control and sensory-deprived conditions. Sensory deprivation did not impact the onset of myelination but resulted in a significant decrease in myelinated axons in the barrel region and decreased the amount of myelin ensheathing each axon. Visualization of the oligodendrocyte nuclear marker Olig2 revealed a similar pattern of myelin as seen using histochemistry, but with no significant changes in Olig2+ nuclei following sensory deprivation. Consistent with the anatomical results showing less myelination, local field potentials revealed slower rise times following trimming. Our results suggest that myelination develops relatively late and can be influenced by sensory experience.
The properties of specific cortical cell types enable greater understanding of how cortical microcircuits process and transmit sensory, motor, and cognitive information. Previous reports have characterized the intrinsic properties of the inverted pyramidal cell (IPC) where the most prominent dendrite is orientated towards the cortical white matter. Using whole cell patch clamp recordings from rat and mouse somatosensory cortex in conjunction with electric microstimulation of the white matter we characterized the synaptic inputs onto IPCs and the more common upright pyramidal cell (UPC) in the infragranular layers. Both classes of pyramidal cells received monosynaptic glutamatergic input following white matter stimulation, but varied on a number of parameters. Most prominently, UPCs displayed higher amplitude responses and showed greater rates of depression compared to IPCs. These data reinforce the view that IPCs are a separate functional class of cortical neuron.
The 27th annual Barrels meeting highlighted the latest advances in this rapidly growing field. The Barrels meeting annually focuses on the role of the posterior medial thalamus in somatosensation, dendritic processing, and the cortical dynamics involved during touch perception. Speakers utilized diverse molecular, physiological, computational techniques to understand the development, sensory processing, and motor commands that are involved with the rodent mystacial vibrissae. The meeting was held Thursday, 13 November through Friday, 14 November 2014 on the Homewood campus of Johns Hopkins University, Baltimore, MD.
The twenty-first annual Barrels meeting, sponsored by NINDS, was held on 12-14 November 2008 on the campus of Johns Hopkins University, near the site of the original discovery of barrels almost 40 years ago. The longest running satellite meeting to the Society for Neuroscience Annual Meeting focuses on the development, physiology, and behavior of the rodent whisker-to-barrel sensorimotor system. This year's event focused on what aspects of the sensory world are encoded by neurons within the system and how specifically the posterior medial nucleus can play a role in information processing. Other highlighted topics included the possible role(s) the cerebellum may have and the cues governing the patterning and development of thalamocortical inputs into the barrel cortex.
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