Abstract

1. In the present study, we examined the cellular mechanism and receptor type responsible for a muscarine-induced inward current (Imi) in neurons of rat dorsolateral septal nucleus (DLSN) using single-microelectrode voltage-clamp and "slice" patch-clamp techniques. 2. Imi was associated with an increase of membrane conductance in 75% of DLSN neurons. There was no voltage-dependence of Imi between -60 and -140 mV; it exhibited a reversal potential of -17.0 +/- 5.3 mV (n = 14) determined by extrapolation of Imi and voltage relationship recorded using whole cell patch recording. Lowering extracellular sodium (26 mM) or potassium (1.4 mM) ions depressed Imi. 3. Imi was concentration dependent; 3 and 100 microM muscarine produced the minimum [22 +/- 4.6 pA, (mean +/- SE) n = 8] and maximum (167 +/- 28 pA, n = 7) responses, respectively. An EC50 was determined to be 15 microM (n = 8). Oxotremorine-methiodide (1-100 microM) also produced an inward current with similar potency compared with muscarine. On the other hand, McN-A-343 and pilocarpine (3-100 microM) did not produce any inward current in DLSN neurons. 4. Atropine (1 microM) completely reduced Im produced by 30 microM muscarine, whereas pirenzepine (PZP) shifted the concentration-response curve for muscarine in a parallel manner to the right. The EC50 for muscarine was shifted to 32, 52, and 204 microM by 0.2, 0.5, and 2 microM PZP, respectively. The apparent Kd value for PZP estimated by Schild plot analysis was 190 nM (n = 5). 5. Methoctramine (1 microM) also competitively depressed Imi; the calculated EC50 values were 26, 41, and 107 microM in concentrations of 0.2, 2, and 10 microM methoctramine, respectively. The apparent Kd for methoctramine was 420 nM. In contrast, AF-DX 116 (1 microM) did not significantly inhibit Imi. 6. Intracellular dialysis with guanosine 5'-O-(3-thiotriphosphate), a nonhydrolyzable analogue of GTP, suppressed irreversibly Imi. Pretreatment of DLSN neurons with pertussis toxin (PTX) did not prevent Imi (n = 8). 7. We suggest that muscarine causes this inward current by activating a M3 subtype of muscarinic receptor, which is coupled to a PTX-insensitive GTP-protein in rat DLSN neurons.

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