Activation of a wide-spread network of inhibitory neurons in barrel cortex.

The one-to-one correspondence of whiskers to barrels in layer IV of rodent somatosensory cortex can be demonstrated by a precise match between columns of heavy 2-deoxyglucose (2DG) label in layer IV barrels and other layers which correspond to stimulated whiskers. While there is specificity of peripheral-to-central mapping, the extent to which integration and/or modulation are generated by circuitry within or interactions between the barrel-defined whisker columns is not clear. Following stimulation of selected whiskers, large cells at the layer IV-V boundary throughout the barrel field are heavily labeled by 2-deoxyglucose (2DG) at high resolution. Many of these cells are outside the barrel columns of the stimulated whiskers. Further, the number of cells labeled is not directly related to the number of activated barrel columns. These neurons are not labeled in animals anesthetized before 2DG injection and are not as heavily labeled in barrel fields of somnolent animals. Most of the heavily labeled neurons immunolabel for glutamate decarboxylase (GAD) and are presumed to be inhibitory, while a smaller number of labeled neurons, presumed to be excitatory, immunolabel for glutamate (Glu). Similar populations of large, heavily 2DG-labeled neurons are found in other cortical areas. These relatively few neurons are exceptionally active and may modulate integrative functions of cerebral cortex.