An investigation of cholinergic circuitry in cat striate cortex using acetylcholinesterase histochemistry.

The organization of cholinergic inputs to cat striate cortex (area 17) was studied by using a histochemical stain for acetylcholinesterase (AChE). Axons were labelled in all layers of the striate cortex, with distinct plexuses occurring in layer I, lower layer III, layer IVc, and layer VI. In addition to the stained axons, a population of layer V pyramidal cells was intensely AChE-positive. Surgical undercutting eliminated virtually all of the AChE-positive axons in the striate cortex, thus indicating that this innervation arises entirely from an extrinsic source in the cat. To identify this source, cell groups projecting to area 17 were retrogradely labelled with horseradish peroxidase. Cell groups labelled with horseradish peroxidase that were also intensely AChE-positive were considered as possible candidates for providing the cholinergic input to the striate cortex. These included the basal forebrain, several intralaminar nuclei, and the lateral geniculate nucleus. Kainate lesions were then made in each of these structures to assess their individual contributions to the cortical AChE pattern. Cortical AChE was depleted only after lesions of the basal forebrain, suggesting that this is the sole source of AChE-positive axons in area 17. Because the cortically projecting cells in this region have been shown to contain choline acetyltransferase in a number of species, we postulate that the AChE-positive fibers we describe in the cat striate cortex are in fact cholinergic.