Atropine-sensitive and -insensitive components of the somatosensory evoked potential

Abstract

The evoked potential in primary somatosensory cortex changes with time. Short puffs of air administered to the nose of awake, quietly resting adult rats elicited potentials that could be altered by one of several treatments (saline, atropine methyl nitrate or atropine sulfate). The change produced by blocking muscarinic receptors in the central nervous system with atropine sulfate (100 mg/kg) was the largest, but control substances also altered the potential, suggesting that the gradual changes observed in the evoked potential 30 min after intraperitoneal injection may also be affected by factors such as the stress associated with injection itself and the blockade of peripheral muscarinic receptors. The changes observed in the evoked potential when central cholinergic receptors are blocked include a large shift towards positivity in the early components (between 18 and 64 ms with maxima at 20 and 47 ms) and a similarly significant shift towards negativity in the later components (between 90 and 208 ms with maxima at 115 and 157 ms). The actual changes observed during inactivation of central muscarinic receptors suggest that the role of acetylcholine during arousal is more than to simply bias the cortex towards greater excitability. Rather, the muscarinic receptors on inhibitory interneurons or on the dendritic terminals of pyramidal cells in superficial layers of cortex enhance the first intracortical synaptic events but reduce the population response at later times during the first 250 ms following a tactile stimulus.