Effect of dithiothreitol on agonist and antagonist actions in frog muscle

Selective enhancement of histamine H1-receptor responses in guinea-pig ileal smooth muscle by 1,4-dithiothreitol

1,4-Dithiothreitol (DTT; 1 mM, 30 min preincubation) produced a small, non-specific potentiation of spasmogenic activity in longitudinal muscle strips of guinea-pig small intestine. A direct comparison of contractile responses elicited by histamine and a range of H1- and non-H1-receptor agonists indicated that DTT produced a significantly greater potentiation of H1-receptor responses. This apparently selective increase in tissue sensitivity to histamine H1-receptor agonists did not appear to be a consequence of the inhibition of histamine N-methyl transferase or diamine oxidase activity. Potentiation of the responses to histamine by DTT was still observed in the presence of SKF 91488 (10 microM) and aminoguanidine (1 microM). The potentiation elicited by DTT was readily reversed by the sulphydryl oxidizing agent dithiobis-(2-nitrobenzoic acid) (DTNB). This suggests that the mechanism of action of DTT involves the reduction of disulphide bonds. Exposure of ileal smooth muscle to DTT following desensitization with histamine (100 X EC50 [- DTT]) resulted in a 6.9 +/- 0.7 fold shift of the concentration-response curve to lower agonist concentrations. Conversely, following potentiation of the response to histamine with DTT, exposure of the tissue to desensitizing concentrations of histamine resulted in a dextral shift of the dose-response curve (dose ratio = 39.5 +/- 1.2) to higher agonist concentrations. The results of this study suggest that DTT may be a useful tool with which to investigate histamine H1-receptor mechanisms in ileal smooth muscle.

The relationship between stimulus-induced antidromic firing and twitch potentiation produced by paraoxon in rat phrenic nerve-diaphragm preparations

The relationship between stimulus-induced repetitive antidromic firing (ADF) in the motor nerve and twitch potentiation produced by the organophosphate anticholinesterase paraoxon, has been investigated in rat diaphragm preparations. Little or no ADF was produced by paraoxon in preparations bathed in a Tyrode solution containing 1 mM calcium and 1 mM magnesium ions although the preparations showed marked twitch potentiation. Increases in the calcium:magnesium ion ratio produced a ratio-dependent increase in the ADF but had no consistent effect on peak twitch potentiation. Dithiothreitol, a disulphide bond reducing agent which decreases the affinity of acetylcholine for nicotinic cholinoceptors, abolished ADF but only modified the time course of twitch potentiation. Dithiothreitol, a disulphide bond reducing agent which decreases the affinity of acetylcholine for nicotinic cholinoceptors, abolished ADF but only modified the time course of twitch potentiation. It is concluded that the initiation of ADF is a consequence of the prolonged action of acetylcholine within the synaptic cleft following inhibition of acetylcholinesterase, and that ADF is not the only mechanism by which twitch potentiation can be produced.