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Arch Physiol Biochem. 1997 Sep;105(5):421-8.
Effect of potassium channel openers on the firing rate of hippocampal pyramidal cells and A10 dopaminergic neurons in vitro.

Scuvee-Moreau J, Seutin V, Vrijens B, Pirotte B, De Tullio P, Massotte L, Albert A, Delarge J, Dresse A.

Laboratory of Pharmacology, University of Liege, Sart-Tilman, Belgium.

The effect of four KATP channel openers (KCOs) on the firing rate of CA1 pyramidal cells and A10 dopaminergic neurons was investigated using extracellular recording techniques in rat brain slices. Pinacidil, lemakalim, diazoxide and a new compound, BPDZ44, had an inhibitory effect on the electrical activity of CA1 pyramidal cells. They all had a similar potency. Only BPDZ44 and diazoxide inhibited the firing rate of A10 dopamine neurons. The sulfonylurea glipizide (1 microM) antagonized the effect of BPDZ44 and diazoxide on A10 neurons but failed to antagonize the effect of KCOs on CA1 pyramidal cells. These results show that differences exist among KCOs in their ability to decrease the electrical activity of various populations of central neurons.

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J Neurophysiol. 1998 Mar;79(3):1239-45.
Whole cell patch-clamp recordings of rat midbrain dopaminergic neurons isolate a sulphonylurea- and ATP-sensitive component of potassium currents activated by hypoxia.

Guatteo E, Federici M, Siniscalchi A, Knopfel T, Mercuri NB, Bernardi G.

Istituto di Ricovero e Cura a Carattere Scientifico Santa Lucia, Laboratorio di Neurologia Sperimentale, Rome, Italy.

The effects of brief (2-4 min) hypoxia on presumed dopaminergic "principal" neurons of the rat ventral mesencephalon were investigated by using either intracellular or whole cell patch-clamp recordings in in vitro conditions. Under single-electrode voltage clamp, with sharp microelectrode (Vh -60 mV), a brief hypoxia caused an outward current (hypoOUT) of 110.2 +/- 15.2 (SE) pA (n = 18), which was followed by a posthypoxic outward current (posthypoOUT) of 149.6 +/- 10.6 pA (n = 18). Although the hypoOUT reversed at -83.7 +/- 3.8 mV (n = 18), the posthypoOUT did not reverse. The K+ATP-blocking sulphonylureas tolbutamide (100 microM) and glibenclamide (30 microM), significantly reduced the peak of the hypoOUT by 47.6 +/- 7.7% (n = 16) and 54.18 +/- 7.5% (n = 3), respectively. In contrast, they did not affect the posthypoOUT. Extracellular barium (300 microM to 1 mM) almost abolished the hypoOUT, leaving the posthypoOUT unchanged. The large K+ channel blocker charybdotoxin (10-50 nM), depressed the hypoOUT after tolbutamide treatment. To investigate whether or not cytosolic factors might control the development of the hypoOUT, we dialyzed the principal neurons by patch-clamp recordings (Vh -60 mV). Under whole cell recordings hypoxia evoked an hypoOUT of 70.2 +/- 14.5 pA that reversed polarity at -87.9 +/- 5.1 mV (n = 8). A small posthypoxic response was detected upon reoxygenation in a few neurons (4 out of 14). Three different sulphonylureas, tolbutamide (100 microM), glibenclamide (10-30 microM), and glipizide (100 nM) completely blocked the hypoOUT in patch-clamped neurons. The hypoOUT was also abolished by extracellular BaCl2 (300 microM). When the content of ATP in the dialyzate was raised from 2 to 10 mM no outward current/hyperpolarization was evoked by hypoxia. These data suggest that the hypoOUT, in principal neurons, is a complex response sustained by at least two barium-sensitive components: 1) an ATP-dependent, sulphonylurea-sensitive K+ conductance which could be isolated by the patch-clamp techniques and 2) a K+ conductance remaining after tolbutamide in intracellularly recorded neurons, which is sensitive to charybdotoxin and dependent on dialyzable cytosolic factors.

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Brain Res. 2001 Jan 26;890(1):118-29.
ATP-sensitive potassium channels (K(ATP)) in retina: a key role for delayed ischemic tolerance.

Ettaiche M, Heurteaux C, Blondeau N, Borsotto M, Tinel N, Lazdunski M.

Institut de Pharmacologie Moleculaire et Cellulaire, CNRS, UPR 411, 660 route des Lucioles, Sophia Antipolis, 06560 Valbonne, France.

The objectives of the present study were to determine the localization of K(ATP) channels in normal retina and to evaluate their potential roles in ischemic preconditioning (IPC) in a rat model of ischemia induced by increased intraocular pressure (IOP). Brown Norway rats were subjected to sublethal 3-, lethal 20- and 40-min ischemia and the functional recovery was evaluated using electroretinography. The time interval between ischemic insults ranged from 1 to 72 h. The effects of K(ATP) channel blockade on IPC protection were studied by treatment with 0.01% glipizide. IPC was mimicked by injection of K(ATP) channel openers of 0.01% (-)cromakalim or 0.01% P1060 72 h before 20-min ischemia. Co-expression of K(ATP) channel subunits Kir6.2/SUR1 was observed in the retinal pigment epithelium, inner segments of photoreceptors, outer plexiform and ganglion cell layers and at the border of the inner nuclear layer. In contrast to a 20- or 40-min ischemia, a 3-min ischemia induced no alteration of the electroretinogram (ERG) and constituted the preconditioning stimulus. An ischemic challenge of 40 min in preconditioned rats induced impairment of retinal function. However, animals preconditioned 24, 48 and 72 h before 20-min ischemia had a significant improvement of the ERG. (-)Cromakalim and P1060 mimicked the effect of IPC. Glipizide significantly suppressed the protective effects of preconditioning. In conclusion, activation of K(ATP) channels plays an important role in the mechanism of preconditioning by enhancing the resistance of the retina against a severe ischemic insult.

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