1) The experience-induced decrease in TC axonal length therefore

1). The experience-induced decrease in TC axonal length therefore appears to reflect an absolute reduction in afferent synapses, perhaps via pruning of specific branches. Individual axons span multiple functionally distinct zones, such as different cortical layers (Figure 3A) and somatotopic columns (Figure 3C). We therefore considered how the effects of

experience on synaptic connectivity might depend on cortical location. As in the visual and possibly auditory systems (Ferster and LeVay, 1978 and Smith et al., 2012), TC axons were mainly “bistratified,” with two distinct sets of collaterals at depths of 600–1,000 and 1,300–1,500 μm from the pia, corresponding FRAX597 to L4 and L5B-L6A, respectively (Figure 3B; Figure S1). Sensory deprivation impacted the total length of axon most noticeably at these depths, with both decreases being statistically significant (p values = 0.024). We additionally subdivided each axon according to the locations of its branches relative to the column defined by the L4 barrel it targeted (Figures 3A and 3C). On average,

a control TC axon had 57% of its branches in its targeted barrel column, 19% across multiple adjacent barrel columns, and 24% in the septal space between barrel columns. Inside the column (red), trimming significantly decreased total axonal length and branching (Figures 3D and 3E; from 30.8 ± 2.7 to 20.5 ± 3.3 mm, p = 0.012; from 161 ± 20 to 92 ± 16 branch points, p = 0.007). The absolute total length change inside the column derived mainly click here from a tuclazepam 37% reduction of axon in L4 (Figure 3D; from 19.8 ± 6.8 to 12.5 ± 7.7 mm; p = 0.015). Branches in L2/3 and L5/6 exhibited proportionally similar reductions (35% and 23%, respectively), although these reductions accounted for less of the absolute change within the column

(from 3.2 ± 2.6 to 2.1 ± 2.0 mm for L2/3, from 7.7 ± 2.6 to 5.9 ± 3.2 mm for L5/6) and were either statistically insignificant or trend level (Figure 3D; p = 0.14 for L2/3, p = 0.055 for L5/6). In contrast, branches lying beyond the column (Figures 3A and 3C; black and gray) displayed little or no change. In particular, axons lying in L4 outside the column are almost identical in length and branching between control and deprived groups (<1% difference; Figures 3F and 3G; p values > 0.1). Length reductions were again only trend level within L5/6 (26%; p = 0.08) and not significant in L2/3 (24%; p = 0.22). Thus, experience-induced restructuring of TC axons appears highly topographic within L4. If L2/3 and L5/6 are also indeed plastic, restructuring appears more distributed, not being restricted to the column. These results indicate that, rather than being cell autonomous, plasticity of TC axonal branches depends on how they interact with specific cortical subnetworks. Such substantial localized changes in thalamocortical connectivity would be expected to alter the functional properties of L4 neurons.

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