, 2003; Broser Target Selective Inhibitor Library cell line et al.,
2008b). In addition, increased axonal innervation can be observed in the dysgranular zone (medial column of axons seen on the right side of Fig. 4B), a region immediately surrounding the S1 barrel field proper. The axons within S1 probably mediate the rapid spread of sensory information across the barrel map; this may be of importance during normal whisker sensation, when sensory input from different whiskers must be integrated to build up a representation of the external world. Another region with high axonal density across all layers is observed ∼1 mm lateral of the C2 barrel column, corresponding to the location of S2 (Fig. 4A–C; White & DeAmicis, 1977; Welker et al., 1988; Fabri & Burton, 1991; Hoffer et al., 2003; Chakrabarti & Alloway, 2006). The high density of axonal innervation in S2, originating from S1, and the spatial proximity of S2 and S1 probably underlie the extremely rapid sensory signals that are observed in these regions with voltage-sensitive dye imaging. Indeed, the signal in S2 is only resolved with voltage-sensitive www.selleckchem.com/products/ABT-263.html dye imaging as a separately activated region when the more medially represented E2 whisker is deflected (Fig. 2B and C). Furthermore,
S1 and S2 regions are reciprocally connected, as revealed by retrograde labelling with FG (Fig. 4D) and AAV6-cre in floxed-LacZ cre-reporter mice (Fig. 4E). Approximately 8 ms after the initial sensory response in S1, a second localized region of depolarization is found in the primary motor cortex. This sensory response in M1 depends upon activity in S1, and the simplest signalling
pathway would therefore be through direct monosynaptic excitatory connections from S1 to M1 (White & DeAmicis, 1977; Porter & White, 1983; Miyashita et al., 1994; Izraeli & Porter, 1995; Farkas et al., 1999; Hoffer et al., 2003; Alloway et al., 2004; selleck screening library Ferezou et al., 2007; Chakrabarti et al., 2008). Injection into the mouse C2 barrel column of either BDA (Fig. 5A and B) or Lenti-GFP (Fig. 5C and D; Ferezou et al., 2007) results in an intense labelling of a column of axons terminating in a primary motor cortex region located ∼1 mm lateral from Bregma and spanning ∼0.5–1.5 mm anterior of Bregma. This region corresponds to the whisker primary motor cortex and it colocalizes with the secondary hotspot of depolarization imaged with voltage-sensitive dye, on average located at 1.4 mm anterior and 1.1 mm lateral to Bregma (Ferezou et al., 2007). There are interesting differences in the axonal projections from S1 to M1, when comparing the pattern of axonal output from superficial layers 2/3 pyramidal neurons to the pattern of axonal output from deep layers 5/6 pyramidal neurons. Supragranular S1 layers 2/3 pyramidal neurons showed the densest innervation of deeper layers 5/6 in M1 and stopped short of the outer layer 1 (Fig.