Catecholamine, inhibition

Chang JY, Liu LZ (2000) Catecholamines inhibit microglial nitric oxide production. Brain Res. Bull. 52 525-530. 

Catecholamines inhibit phosphodiesterase from beef heart [44] and guinea-pig lung [45], and so does N, 2 -0-dibutyryl cyclic AMP [47] which has been used to mimic cyclic AMP effects as it is more lipid-soluble and, therefore, assumed to penetrate cell membranes more readily than cyclic AMP [6,46]. A large number of other drugs inhibit the phosphodiesterase activity of rat brain and cat heart [48]. 

COMT) are widely distributed enxymes that caiabolize catecholamines. Inhibition of MAO and COMT ha.s little potentiating effect on responses to sympathetic nerve stimulation or injected catecholamines (norepinephrine, epinephrine) because they are largely maciivaicd by I e uptake. 

A. Amphetamine and related drugs activate the sympathetic nen/ous system via central nervous system (CNS) stimulation, peripheral release of catecholamines, inhibition of neuronal reuptake of catecholamines, and inhibition of monoamine oxidase. Fenfluramine and dexfenfluramine cause serotonin release and block neuronal serotonin uptake. The various drugs have different profiles of action resulting in different levels of CNS and peripheral stimulation. 

Etamsylate (inhibition) catecholamines (inhibition) isoniazide (sensitizing) methotrexate cytarabini hydrochloridum (inhibition)... 

Broad cardiovascular effects (hypotensive, peripheral vasodilatory, increasing peripheral and coronary blood flow volumes, stimulating ADP-induced platelet aggregation, etc.) and catecholamine inhibition. ... 

Adrenal medulla Bovine Release of catecholamines inhibition of nicotinic response in presence of tetrodotoxin (164. 165)... 

Catecholamine biosynthesis begins with the uptake of the amino acid tyrosine into the sympathetic neuronal cytoplasm, and conversion to DOPA by tyrosine hydroxylase. This enzyme is highly localized to the adrenal medulla, sympathetic nerves, and central adrenergic and dopaminergic nerves. Tyrosine hydroxylase activity is subject to feedback inhibition by its products DOPA, NE, and DA, and is the rate-limiting step in catecholamine synthesis the enzyme can be blocked by the competitive inhibitor a-methyl-/)-tyrosine (31). 

Two important pathways for catecholamine metaboHsm are 0-methylation by COMT, which is cytoplasmicaHy localized, and oxidative deamination by the mitochondrial localized enzyme MAO. There are large amounts of MAO in tissues such as the fiver and the heart which are responsible for the removal of most of the circulating monoamine, including some taken in from the diet. Tyramine is found in high concentrations in certain foods such as cheese, and in wine. Normally, this tyramine is deaminated in the fiver. However, if MAO is inhibited, the tyramine may then be converted into octopamine [104-14-37] which may indirecdy cause release of NE from nerve terminals to cause hypertensive crisis. Thus MAO, which is relatively nonspecific, plays an important role in the detoxification of pharmacologically active amines ingested from the diet. 

Halogenated hydrocarbons depress cardiac contractility, decrease heart rate, and inhibit conductivity in the cardiac conducting system. The cardiac-toxicity of these compounds is related to the number of halogen atoms it increases first as the number of halogen atoms increases, but decreases after achieving the maximum toxicity when four halogen atoms are present. Some of these compounds, e.g., chloroform, carbon tetrachloride, and trichloroethylene, sensitize the heart to catecholamines (adrenaline and noradrenaline) and thus increase the risk of cardiac arrhythmia. 

Prenyl amine (66) was long used in the treatment of angina pectoris, in which condition it was believed to act by inhibiting the uptake and storage of catecholamines in heart tissue. Droprenilamine (69), an analogue in which the phenyl ring is reduced, acts as a coronary vasodilator. One of several syntheses involves simple reductive alkylation of 1,1-diphenyl-propylamine (67) with cyclohexyl acetone (68)... 

Most of the widely used antidepressants are tricyclics related to imipramine. A 1-phenyltetrahy-droisoquinoline analogue, nomifensine (60), departs from this structural pattern. Hiarmacologi-cally it inhibits the reuptake of catecholamines such as dopamine at neurons. It can be synthesized by alkylation of 2-nitrobenzyl-methylamine with phenacyl bromide followed by catalytic reduction of the nitro group (Pd-C) and then hydride reduction of the keto moiety to give 59. Strong acid treatment leads to cyclodehydration to nomifensine (60) [17]. 

Cocaine and desipramine inhibit the reuptake of monoamine neurotransmitters whereas amphetamine, which is a phenylalkylamine - similar in structure to the catecholamines, see Fig. 4 - competes for uptake and more importantly, evokes efflux of the monoamine neurotransmitters. All of them exert antidepressant effects. Cocaine and amphetamine are addictive whereas tricyclic antidepressants and their modern successors are not. The corollaty of the addictive properties is interference with DAT activity. Blockade of DAT by cocaine or efflux elicited by amphetamine produces a psychostimulant effect despite the different mechanisms even the experienced individual can hardly discern their actions. Because of the risk associated with inhibiting DAT mediated dopamine clearance the antidepressant effects of psychostimulants has not been exploited. 

Methylphenidate like cocaine largely acts by blocking reuptake of monoamines into the presynaptic terminal. Methylphenidate administration produces an increase in the steady-state (tonic) levels of monoamines within the synaptic cleft. Thus, DAT inhibitors, such as methylphenidate, increase extracellular levels of monoamines. In contrast, they decrease the concentrations of the monoamine metabolites that depend upon monoamine oxidase (MAO), that is, HVA, but not catecholamine-o-methyltransferase (COMT), because reuptake by the transporter is required for the formation of these metabolites. By stimulating presynaptic autoreceptors, methylphenidate induced increase in dopamine transmission can also reduce monoamine synthesis, inhibit monoamine neuron firing and reduce subsequent phasic dopamine release. 

Inhibition of acetylcholine stimulated medullary catecholamine release... 

Liu PS, Kao LS, Lin MK. 1994. Organophosphates inhibit catecholamine secretion and calcium influx in bovine adrenal chromaffin cell. Toxicology 90 81-91. 

As the rate-limiting enzyme, tyrosine hydroxylase is regulated in a variety of ways. The most important mechanism involves feedback inhibition by the catecholamines, which compete with the enzyme for the pteridine cofactor. Catecholamines cannot cross the blood-brain barrier hence, in the brain they must be synthesized locally. In certain central nervous system diseases (eg, Parkinson s disease), there is a local deficiency of dopamine synthesis. L-Dopa, the precursor of dopamine, readily crosses the blood-brain barrier and so is an important agent in the treatment of Parkinson s disease. 

Neff, NH and Costa, E (1966) The influence of monoamine oxidase inhibition on catecholamine synthesis. Life Sci. 5 951-959. 

The inhibition of firing of catecholamine neurons resulting from amphetamine administration is likely due to activation of somatodendritic autoreceptors. This causes a hyperpolarization of the somatodendritic membrane of both locus coeruleus noradrenergic and substantia nigra dopamine neurons, probably as a consequence of an increase in potassium conductance (Lacey et al. 1987 Williams et al. 1985). 

Mechanism of Action Lithium s pharmacologic mechanism of action is not well understood and probably involves multiple effects. Possibilities include altered ion transport, increased intraneuronal catecholamine metabolism, neuroprotection or increased brain-derived neurotrophic factor, inhibition of second messenger systems, and reprogramming of gene expression.29... 

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