Reaction of tetraethylammonium with the open and closed conformations of the acetylcholine receptor ionic channel complex.

Adler, Michaël; Oliveira, A. C. B. de; Albuquerque, E X; Mansour, Nabil; Eldefrawi, Amira T.

doi:10.1085/jgp.74.1.129

Cited by 58 publications

(17 citation statements)

References 38 publications

(57 reference statements)

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“…Recently the antibiotics, lincomycin and clindamycin, have been shown to alter miniature e.p.c. decay in a manner consistent with the drugs interacting with the acetylcholine-activated ionic channel (Fiekers, Marshall & Parsons, 1979 (Adler & Albuquerque, 1976;Adams, 1977;Adler et al, 1979;Lambert et al, 1979). Blockade of acetylcholine-activated channels by polymyxin B may explain the non-competitive nature of the antagonism to acetylcholine by polymyxin B reported by Viswanath & Jenkins (1978).…”

Section: Discussionmentioning

confidence: 77%

“…These data are consistent with the antibiotic having an action to block open acetylcholine-activated ionic channels as has been suggested for procaine (Adams, 1977), atropine (Alder & Albuquerque, 1976). tetraethylammonium (Alder, Oliveira, Albuquerque, Mansour & Eldefrawi, 1979) and lobeline (Lambert, Reynolds, Volle & Henderson, 1979). The Tls of e.p.cs recorded from endplates treated with glycerol (Magleby & Stevens, 1972), low concentrations of (+}tubocurarine (Katz & Miledi, 1978) or alpha bungartoxin (Katz & Miledi, 1978) and the T4 of untreated m.e.p.cs (Gage & McBurney, 1975) have been shown to vary with holding potential, becoming longer at more hyperpolarized potentials.…”

Section: Postjunctional Actions Of Polymyxin Bmentioning

confidence: 99%

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The Action of Polymyxin B at the Frog Neuromuscular Junction

Durant

Lambert

1981

British J Pharmacology

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I The effects of polymyxin B at the neuromuscular junction of the frog were studied by conventional electrophysiological and voltage clamp techniques.2 At a concentration of 2.5 jig/ml polymyxin B produced neuromuscular blockade in 10 to 15 min and endplate potentials (e.p.ps) could be recorded. Resting membrane potential was unaffected. The neuromuscular block was characterized by a depressed e.p.p. quantal content (28 ± 7), which was similar to that determined from endplates exposed to 13 mm magnesium (23 + 3), and a low e.p.p. quantal size, which was similar to that determined from endplates exposed to 3 /M (+ -tubocurarine. 3 Polymyxin B (0.25 to 0.75 jg/ml) decreased mean miniature e.p.p. amplitude with little effect on frequency. 4 At a concentration of 5 tg/ml polymyxin B markedly shortened the duration of endplate currents (e.p.cs) and abolished the relationship between holding potential and the time to half-decay at negative potentials greater than -60 mV. This action is consistent with block of open acetylcholine activated ionic channels. 5 4-Aminopyridine (20 jiM) antagonized the depressed e.p.p. quantal content produced by polymyxin B but did not alter the shortened e.p.c. duration. 6 It is concluded that polymyxin B decreases quantal release and produces some degree of postjunctional receptor blockade and a marked and persistent blockade of acetylcholine activated channels. The latter action may explain the difficulty of reversal of polymyxin B-induced neuromuscular blockade and its non-competitive nature.

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Section: Discussionmentioning

confidence: 77%

Section: Postjunctional Actions Of Polymyxin Bmentioning

confidence: 99%

The Action of Polymyxin B at the Frog Neuromuscular Junction

Durant

Lambert

1981

British J Pharmacology

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“…Effects of TEA or Ba2+ on the muscarinic current Extracellular TEA has been found to suppress not only voltage-gated K+ channels (reviewed by Stanfield, 1983) but also the nicotinic cation channel at the frog endplate (TEA used at around 0-1 mM; Adler, Oliveira, Albuquerque, Mansoure & Eldefrawi, 1979). TEA (0-03-3 mM) was added to the standard bath solution, and the response to 1 /LM-oxotremorine was studied.…”

Section: Resultsmentioning

confidence: 99%

Muscarinic receptor is coupled with a cation channel through a GTP‐binding protein in guinea‐pig chromaffin cells.

Inoue

Kuriyama

1991

The Journal of Physiology

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SUMMARY1. The ionic current evoked by muscarinic receptor agonists was investigated in dispersed chromaffin cells of the guinea-pig adrenal medulla using the whole-cell version of the patch-clamp procedure.2. Muscarine or oxotremorine (0-03-10 #M) produced an inward current associated with an increase in current noise at a holding potential of -40 mV. The relationship between current and oxotremorine concentration fitted well to a rectangular hyperbole with an apparent dissociation constant (KA) of 0-23 JiM.3. The muscarinic antagonists pirenzepine (0-1 ftM) and AF-DX 116 (0 3 /LM) shifted the dose-response curve to the right in a parallel manner. Dissociation constants (KB) for pirenzepine and AF-DX 116 were estimated to be 50 and 70 nm, respectively.4. The current-voltage relation for the current induced by muscarine had a negative slope below -30 or -20 mV, and the current reversed its polarity at 0-4 + 0-8 mV (n = 4) in standard salt solution. Removal of Mg2+ or Ca2+ from the perfusate did not modify the muscarinic current-voltage relationship.5. When Na+ in the bath solution was replaced with Tris, the muscarinic current-voltage relationship shifted to the left (the hyperpolarizing direction); the current reversed its polarity at -18-7 + 1-2 mV in a solution containing 72 mM-Na+ (three cells) and at -57-5 + 2-7 mV in nominally Na+-free solution (three cells). When Ca21 was replaced by Mg2+, in Na+-free solution, an inward current was not evoked by muscarinic stimulation.6. Tetraethylammonium (TEA; 0-03-3 mM) reduced the muscarinic current at -40 mV, and the KD value was 0-34 mm with a Hill coefficient of 1. Barium (4 mM) reduced the current to 0-69 + 0-06 of control (n = 3).7. When the recording electrodes contained guanosine-5'-O-(3-thiophosphate) (GTPyS, 100 UM), an inward current developed at -55 mV during the first few minutes after breaking into the cell interior. This inward current was associated with

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“…piperocaine, quinacrine, histrionicotoxin) on the endplate (see Albuquerque et al, 1974;Adler et al, 1979;Tiedt et al, 1979;Adams & Feltz, 1980 a,b; Farley et al, 1981), for which the most usual explanation is binding to closed ionic channels, thus affecting the amplitude but not the time course of endplate currents. In summary, we suggest that the Tc reversal seen with C6 at the mammalian endplate results from (a) a competitive interaction at the receptors as postulated by Ginsborg & Stephenson (1974) and (b) a weak anticholinesterase effect.…”

Section: Discussionmentioning

confidence: 99%

The interaction between hexamethonium and tubocurarine on the rat neuromuscular junction

Rang

Rylett

1984

British J Pharmacology

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1 The ability of hexamethonium (C6) to reverse the neuromuscular blocking action of tubocurarine (Tc) has been reinvestigated at the voltage clamped endplate of the omohyoid muscle of rat. The possibility that a weak anticholinesterase action of C6 could contribute to the paradoxical potentiation of the peak amplitude of the endplate response has been examined. 5 When tested against responses to short ionophoretic pulses of agonists, C6 was less effective against ACh ((EC5o ca. 300 JiM) than against carbachol (CCh) (EC50 100 JIM). When cholinesterase was irreversibly inhibited, C6 blocked responses to both agonists equally (EC50 ca. 100 JiM). 6 The effectiveness of C6 in blocking the action of CCh was reduced 10 fold in the presence of 0.6 JIM Tc, implying that the two antagonists compete for the same binding site. 7 C6 in the presence of Tc (0.6 JM) increased the response to ionophoretically applied ACh but not that to CCh.8 C6 was equipotent in blocking m.e.p.cs and responses to ionophoretically applied ACh whereas Tc was more potent against the exogenously applied agonist.9 C6 was a weak inhibitor of acetylcholinesterase activity in rat muscle homogenates (EC50 1.5 mM).10 The results are discussed in terms of the kinetic hypothesis advanced by Ginsborg & Stephenson (1974) to account for the Tc reversal phenomenon. It is concluded that this theory can explain most of the effect on e.p.cs, but that the weak anticholinesterase action of C6 is also a factor, particularly in the reversal of Tc block of ionophoretic responses.

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Reaction of tetraethylammonium with the open and closed conformations of the acetylcholine receptor ionic channel complex.

Cited by 58 publications

References 38 publications

The Action of Polymyxin B at the Frog Neuromuscular Junction

The Action of Polymyxin B at the Frog Neuromuscular Junction

Muscarinic receptor is coupled with a cation channel through a GTP‐binding protein in guinea‐pig chromaffin cells.

The interaction between hexamethonium and tubocurarine on the rat neuromuscular junction

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