Ionic Mechanism of the Slow Afterdepolarization Induced by Muscarinic Receptor Activation in Rat Prefrontal Cortex

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Ionic Mechanism of the Slow Afterdepolarization Induced by Muscarinic Receptor Activation in Rat Prefrontal Cortex

Samir Haj-Dahmane and Rodrigo Andrade

Department of Psychiatry and Behavioral Neurosciences, Wayne State University School of Medicine, Detroit, Michigan 48201

Haj-Dahmane, Samir and Rodrigo Andrade. Ionic mechanism of the slow afterdepolarization induced by muscarinic receptoractivation in rat prefrontal cortex. J. Neurophysiol. 80: 1197-1210,1998. The mammalian prefrontal cortex receives a dense cholinergicinnervation from subcortical regions. We previously have shownthat cholinergic stimulation of layer V pyramidal neurons of therat prefrontal cortex results in a depolarization and the appearanceof a slow afterdepolarization (sADP). In the current report weexamine the mechanism underlying the sADP with the use of sharpmicroelectrode and whole cell recording techniques in in vitrobrain slices. The ability of acetylcholine (ACh) and carbacholto induce the appearance of an sADP in pyramidal cells of layerV of prefrontal cortex is antagonized in a surmountable mannerby atropine and is mimicked by application of muscarine or oxotremorine.These results indicate that ACh acts on muscarinic receptors toinduce the sADP. In many cell types afterpotentials are triggeredby calcium influx into the cell. Therefore we examined the possibilitythat calcium influx might be the trigger for the generation ofthe sADP. Consistent with this possibility, buffering intracellularcalcium reduced or abolished the sADP but had little effect onthe direct muscarinic receptor-induced depolarization also seenin these cells. These results, coupled to the previous observationthat calcium channel blockers inhibit the sADP, indicated thatthe sADP results from a rise in intracellular calcium secondaryto calcium influx into the cell. The ionic basis for the currentunderlying the sADP (I_sADP) was examined with the use of ion substitutionexperiments. The amplitude of I_sADP was found to be reduced ina graded fashion by replacement of extracellular sodium with N-methyl-D-glucamine(NMDG). In contrast no clear evidence for the involvement of potassiumor chloride channels in the generation of the sADP or I_sADP couldbe found. This result indicated that I_sADP is carried by sodiumions flowing into the cell. However, the dependence of I_sADP onextracellular sodium was less pronounced than expected for a puresodium current. We interpret these results to indicate that thesADP is most likely mediated by nonselective cation channels.Examination of the current underlying the sADP at different voltagesindicated that this current was also voltage dependent, turningoff with hyperpolarization. We conclude that the sADP elicitedby muscarinic receptor activation in rat cortex is mediated predominantlyby a calcium- and voltage-sensitive nonselective cation current.This current could represent an important mechanism through whichACh can regulate neuronal excitability in prefrontal cortex.

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				D. D. Fraser, D. Doll, and B. A. MacVicar Serine/Threonine Protein Phosphatases and Synaptic Inhibition Regulate the Expression of Cholinergic-Dependent Plateau Potentials J Neurophysiol, March 1, 2001; 85(3): 1197 - 1205. [Abstract] [Full Text] [PDF]

				S. Royer, M. Martina, and D. Pare Bistable Behavior of Inhibitory Neurons Controlling Impulse Traffic through the Amygdala: Role of a Slowly Deinactivating K+ Current J. Neurosci., December 15, 2000; 20(24): 9034 - 9039. [Abstract] [Full Text] [PDF]

				M. V. Sanchez-Vives, L. G. Nowak, and D. A. McCormick Cellular Mechanisms of Long-Lasting Adaptation in Visual Cortical Neurons In Vitro J. Neurosci., June 1, 2000; 20(11): 4286 - 4299. [Abstract] [Full Text] [PDF]

				H. Kawasaki, C. Palmieri, and M. Avoli Muscarinic Receptor Activation Induces Depolarizing Plateau Potentials in Bursting Neurons of the Rat Subiculum J Neurophysiol, November 1, 1999; 82(5): 2590 - 2601. [Abstract] [Full Text] [PDF]