with bretylium enhanced the contractor response to potassium and tyramine.3. Pretreatment of fresh, reserpinized, or cold stored aortic strips with pheniprazine potentiated the contractor response to potassium and tyramine.4. Pretreatment of aortic strips with bretylium or pheniprazine did not potentiate the response to 5-hydroxytryptamine (5-HT).5. The results indicate that both bretylium and pheniprazine
Effects of monoamine oxidase inhibitors on the hypothermia produced in cats by halothane 1. In cats, the effects of intraperitoneal injections of four monoamine oxidase (MAO) inhibitors, tranylcypromine, pheniprazine, pargyline, and nialamide, were examined on rectal temperature and on the hypothermia during anaesthesia produced by a 2 hr period of halothane inhalation.2. A 2 hr period of tranylcypromine (5 mg/kg) caused a rise in rectal temperature and prevented the hypothermia of halothane anaesthesia. This effect lasted for at least 4 hr; 20 hr after the injection, halothane again caused hypothermia.4. An injection of pheniprazine (10 mg/kg) usually caused a small rise in temperature which was not sustained. Pheniprazine not only prevented the hypothermia of halothane anaesthesia during
Restoration of tyramine responses by bretylium, BW392C60, bethanidine and monoamine oxidase inhibitors in reserpine-treated rats 1. Bretylium, BW392C60, bethanidine, nialamide and pheniprazine, but not guanethidine or ouabain, were all capable of restoring the cardiovascular response to tyramine in reserpine pretreated rats anaesthetized with sodium pentobarbitone.2. In parallel
Effects of monoamine oxidase inhibitors and amphetamine on hypothermia produced by halothane 1. In cats, the effects of tranylcypromine and pheniprazine, two monoamine oxidase (MAO) inhibitors with strong amphetamine-like actions, of pargyline, an inhibitor without amphetamine-like actions, and of amphetamine itself, were examined on the hypothermia produced by a 2 hr period of halothane inhalation.2. The hypothermia was prevented by intraperitoneal injections of the three MAO inhibitors. Tranylcypromine and pheniprazine acted in doses of a few milligrams, pargyline in doses of over 100 mg.3. The hypothermia was prevented by injections into the cerebral ventricles of tranylcypromine and pheniprazine, in doses which were effective also on intraperitoneal injection; intraperitoneal
was found to be about twice as potent as pheniprazine, eight times as potent as nialamide and sixty times as potent as pargyline.3. The effect of tranylcypromine was also examined after reserpine had been injected into the cerebral ventricles or after p-chlorophenylalanine, given intraperitoneally. In both conditions tranylcypromine retained its ability to increase the 5-HT output from the perfused
The effect of antidepressive drugs and some related compounds on the levels of adenine nucleotides, inorganic phosphate and phosphocreatine in the rat brain The effects upon levels of adenine nucleotides, phosphocreatine and inorganic phosphate of iproniazid, isoniazid, phenelzine, pheniprazine, tranylcypromine, harmine, imipramine, amitriptyline, orphenadrine, diphenhydramine and cocaine have
mean fall in noradrenaline content of the superior cervical ganglia and in that of the brain, but the effects were not seen in every rabbit. Prolonged administration of the mono-amine oxidase inhibitors pheniprazine and phenylhydrazinobutane raised the noradrenaline content of the brain of rabbits but not that of cats, whereas it raised the noradrenaline of the ganglia of cats but not (or rarely
Effects of cocaine and antidepressant drugs on the nictitating membrane of the cat Cocaine, imipramine and pipradol potentiated the contractions to adrenaline and noradrenaline, but not to tyramine, on the nictitating membrane of the spinal cat. Pheniprazine and dexamphetamine potentiated the responses to adrenaline, noradrenaline and tyramine, whereas nialamide only potentiated the response to tyramine. Potentiation of the response to stimulation of either the preganglionic or the postganglionic sympathetic nerve trunks was observed with imipramine, pipradol, pheniprazine and dexamphetamine. Only dexamphetamine and pheniprazine caused substantial contractions of the membrane when the preganglionic nerve was cut (acutely decentralized), or when the superior cervical ganglion was removed
Relative activity of some inhibitors of monoamine oxidase in potentiating the action of tryptamine in vitro and in vivo Several known inhibitors of mono-amine oxidase (iproniazid, isocarboxazid, nialamide, phenelzine, pheniprazine and tranylcypromine) were tested for their ability to (i) inhibit the mono-amine oxidase activity of a rat brain mitochondrial preparation in vitro; (ii) potentiate
, then the adrenergic neurone blocking agents were ineffective. Tyramine and dopamine were effective on the isolated rabbit ileum but not on the cat's nictitating membrane. Effective antagonism of the adrenergic neurone blocking drugs was also shown by some substances which inhibit mono-amine oxidase but only those which in addition possess sympathomimetic effects. Thus phenelzine, pheniprazine and tranylcypromine