Biogenic amines dopamine

As a biogenic amine, dopamine belongs to a group of substances produced in the organism by decarboxylation of amino acids. Besides dopamine and norepinephrine formed from it, this group includes many other messenger molecules such as histamine, serotonin, and y-aminobutyric acid. 

Reserpine. As mentioned earlier, the Rauwolfia alkaloid reserpine is noted for its ability to deplete aromatic biogenic amines in nervous tissue of mammals and insects. One of the more remarkable effects of reserpine in humans is to render individuals indifferent to environmental stimuli. Reserpine appears to have a similar effect on insects, although information is still relatively scanty. In the cockroach, Periplaneta americana, reserpine at 50 vg/g causes strong and long-lasting depletion of the aromatic biogenic amines dopamine, octopamine, and 5-hydroxytryptamine (24). Numerous authors have noted that reserpine has tranquilizing effects on insects, e.g., the ant Formica rufa (30) and . americana (24,31). 

Biogenic amines dopamine, serotonin, octopamine, tyramine... 

Biogenic amines. A general term usually used to describe endogenous amine-containing compounds such as dopamine, 5-hydroxy-tryptamine, and norepinephrine that function as neurotransmitters. 

Catecholamines are biogenic amines with a catechol (o-dihydroxy-benzol) structure. They are synthesized in nerve endings from tyrosine and include dopamine, noradrenaline (norepinephrine) and adrenaline (epinephrine). 

These are four monoamines synthesized and seereted within many mammalian tissues, ineluding various regions in the brain, sympathetic nervous system, enlero-chromafhn cells of the digestive tract, and adrenal mednlla. These biogenic amines (indoleamine and catecholamines — dopamine, norepinephrine, and epinephrine) are synthesized within the cell from their precursor amino acids and have been associated with many physiological and behavioral functions in animals and humans. 

Figure 1. Biosynthetic pathways for biogenic amines. In Drosophila and vertebrates decarboxylation of DOPA and 5-hydroxy-tryptophan is catalyzed by the same enzyme, DDC. In vertebrates this enzyme is called amino acid decarboxylase (AADC). Only vertebrates further metabolize dopamine to norepinephrine and epinephrine. TH, tryosine hydroxylase DDC, DOPA decarboxylase DBH, dopamine b-hydroxylase PNMT, phenylethanolamine N-methyltransferase. Tryp-OH tryptophan hydroxylase.

Figure 3 Putative model for the mechanism by which biogenic amines stimulate CE secretion across the rabbit corneal epithelium. Epn = epinephrine Nep = norepinephrine Tim = Timolol Ser = serotonin Msg = methysergide Dop = dopamine Hal = haloperi-dol (E = (E-adrenoceptor AC = adenylate cyclase. The scheme is consistent with the observation that epithelial responsiveness to serotonin and dopamine can be blocked by their receptor antagonists haloperidol and methysergide, respectively, and by both timolol treatment and sympathectomy. The probable source of serotonin or dopamine is the sympathetic fibers that innervate the cornea. (From Ref. 284.)...

The answers are 321-cT 322-e, 323-i. (Hardman, pp 238-239, 791.) Reserpine is an adrenergic neuronal blocking agent that causes depletion of central and peripheral stores of NE and dopamine Reserpine acts by irreversibly inhibiting the magnesium-dependent ATP transport process that functions as a carrier for biogenic amines from the cytoplasm... 

The chemical structure of histamine has similarities to the structures of other biogenic amines, but important differences also exist. Chemically, histamine is 2-(4-imidazolyl)ethylamine (Fig. 14-1). The ethylamine backbone is a common feature of many of the amine transmitters (e.g. dopamine, norepinephrine and serotonin). However, the imidazole nucleus, absent from other known transmitters, endows histamine with several distinct chemical properties. Among these is prototypic tautomerism, a property that permits it to exist in two different chemical forms (Fig. 14-1). The tautomeric properties of histamine are thought to be critical in the... 

Biogenic amine hypothesis. Depression may be caused by decreased brain levels of the neurotransmitters norepinephrine (NE), serotonin (5-HT), and dopamine (DA). 

Numerous site-directed mutagenesis studies have provided a conclusive picture for the molecular interactions between the receptor-activating biogenic amines (e.g. serotonin, epinephrine, dopamine) and their receptors [23-27] a highly conserved aspartate residue in transmembrane (TM) helix TM3 (Asp 3.32 according to the Ballosteros-Weinstein nomenclature) [28], conserved serine residues in TM5 (e.g. 

Biogenic amines are of great interest to researchers because of their potential roles in several psychiatric and neurological disorders. They include dopamine (DA), noradrenaline (NA), 5-hydroxytryptamine (5-HT, serotonin), histamine, and trace amines such as 2-phenylethylamine (PEA), tyramine, octopamine, phenylethanolamine, and tryptamine (Coutts and Baker, 1982). Although GC assays for DA, NA, and 5-HT are available, HPLC analysis with electrochemical detection has for many years now been the method of choice for analysis of these neurotransmitter amines. 

The use of HPLC to analyze biogenic amines and their acid metabolites is well documented. HPLC assays for classical biogenic amines such as norepinephrine (NE), epinephrine (E), dopamine (DA), and 5-hydroxytryptamine (5-HT, serotonin) and their acid metabolites are based on several physicochemical properties that include a catechol moiety (aryl 1,2-dihydroxy), basicity, easily oxidized nature, and/or native fluorescence characteristics (Anderson, 1985). Based on these characteristics, various types of detector systems can be employed to assay low concentrations of these analytes in various matrices such as plasma, urine, cerebrospinal fluid (CSE), tissue, and dialysate. 

Iproniazid, an MAOI no longer available because of its hepatotoxicity, was the first effective antidepressant to be discovered it was introduced shortly before the discovery of imipramine. All MAOIs are presumed to have a similar mode of action, namely to inhibit the intra- and interneuronal metabolism of the biogenic amine neurotransmitters (noradrenaline, dopamine and serotonin). These amines are primarily metabolized by MAO-A (noradrenaline and serotonin) or MAO-B (dopamine). The irreversible MAOIs are inhibitors of MAO-A while selegiline (deprenyl), used as an adjunctive treatment for Parkinson s disease, is a selective, irreversible inhibitor of MAO-B. 

Another strategy of some interest is to deplete biogenic amines such as OA by inhibiting their biosynthesis. Inhibitors of such enzymes in the biosynthetic pathway as aromatic amino acid decarboxylase which converts tyrosine to tyramine, or dopamine 3 -hydroxylase which converts tyramine to OA are known and have interesting effects in insects (e.g. see 52,53)t but a discussion of this area lies outside the scope of this paper. Nevertheless, it is a particularly interesting one since these or related enzymes are also needed to produce catecholamines for cuticular sclerotiza-tion, thus offering dual routes to the discovery of compounds with selectively deleterious actions on insects. 

Reserpine, an alkaloid from the Rauwolfia plant, abolishes the vesicular storage of biogenic amines (NE, dopamine = DA, serotonin = 5-HT) by inhibiting an ATPase required for the vesicular amine pump. The amount of NE re-Liillmann, Color Atlas of Pharmacology 2000 Thieme All rights reserved. Usage subject to terms and conditions of license. 

Several amino acids are broken down by de-carbo qflation. This reaction gives rise to what are known as biogenic amines, which have various functions. Some of them are components of biomolecules, such as ethanolamine in phospholipids (see p. 50). Cysteamine and T-alanine are components of coenzyme A (see p.l2) and of pantetheine (see pp. 108, 168). Other amines function as signaling substances. An important neurotransmitter derived from glutamate is y-aminobutyrate (GABA, see p.356). The transmitter dopamine is also a precursor for the catecholamines epinephrine and norepinephrine (see p.352). The biogenic amine serotonin, a substance that has many effects, is synthesized from tryptophan via the intermediate 5-hydroxytryptophan. 

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