Atropine structure

Whilst tropyltropine (atropine) is mydriatic, this property is of a low order in benz yltropine and is absent in benzoyl- -tropine. The former is a weak and the latter a potent local anaesthetic. This parallelism in the influence of the tropyl and benzoyl radicals in developing mydriatic and local aniesthetic action respectively, has been shown by von Braun and his co-workers to occur through an extensive series of hydroxyalkylamines in addition to tropine. Considerable modification may be made in the structure of tropine without impairing its capacity for yielding mydriatics anaesthetics. Thus von Braun, Muller and Rath found that e tropyl- and benzoyl-esters respectively of liomotropine (I) and of N-hydroxyalkylnortropanes (III) are comparable with atropine and tropacocaine (derived from tropine (II) and 4-tropine (II) ), respectively... 

Trachelantamine, according to Syrneva, has a weak atropine-like action and also produces local anaesthesia. Its hydrolytic product, trache-lantamidine, which is structurally identical with tsoretronecanol, yields a p-aminobenzoyl derivative of -which the crystalline hydrochloride, m.p. 230-2°, is said to be as potent a local anaesthetic as cocaine hydrochloride. The chloro- -heliotridane (p. 606) formed by the aetion of thionyl ehloride on trachelantamidine reacts with 6-methoxy-8-aminoquinoline to form 6-methoxy-8-(pseMdoheliotridylamino)-quinoline,... 

Oxidation of ecgonine (2) by means of chromium trioxide was found to afford a keto acid (3). This was formulated as shown based on the fact that the compound undergoes ready themnal decarboxylation to tropinone (4)The latter had been obtained earlier from degradative studies in connection with the structural determination of atropine (5) and its structure established independently. Confirmation for the structure came from the finding that carbonation of the enolate of tropinone does in fact lead back to ecgonine. Reduction, esterification with methanol followed by benzoylation then affords cocaine. 

The simplification of the local anesthetic phaimacophore of cocaine to an aryl substituted ester of ethanolamine has been described previously. Atropine (S2) is a structurally closely related natural product whose main biologic action depends on inhibition of the parasympathetic nervous system. Among its many other actions, the compound exerts useful spasmolytic effects. 

Esters of tropine have a venerable place in medicinal chemistry. One such compound, cocaine, the object of some current interest, was the natural product lead which led eventually to most of today s local anesthetics. A distantly related analogue is prepared by reaction of tropine (132) with 3,5-dimethylbenzoyl chloride. This leads to an ester structurally related to another ]ii ominent natural product, atropine (133). The product, tropanaerin (134), is described as an iinti.serotonergic agent intended for antimigraine use [34]. 

C17-0021. Identify the acid-base properties of nicotine and atropine, whose structures appear below ... 

FIG. 18 Chemical structures of (a) acetylcholine chloride, (b) carbamylcholine chloride, (c) carba-myl-y8-methylcholine chloride, (d) acetyl-/i-methylcholine chloride, (e) tetramethylammonium chloride, (f) tetraethylamonium chloride, (g) succinylcholine chloride, (h) hexamethonium chloride, (i) scopolamine hydrobromide, 0 atropine sulfate, (k) homatropine hydrochloride, and (1) tubocurar-ine chloride. 

Tropinone is a structural component of several alkaloids, including atropine. The synthesis is based on a double Mannich process with iminium ions as intermediates. The Mannich reaction in itself is a three-component domino process, which is one of the first domino reactions developed by humankind. 

The answer is local anesthetic properties it can block the initiation or conduction of a nerve impulse. It is biotransformed by plasma esterases to inactive products. In addition, cocaine blocks the reuptake of norepinephrine. This action produces CNS stimulant effects including euphoria, excitement, and restlessness Peripherally, cocaine produces sympathomimetic effects including tachycardia and vasoconstriction. Death from acute overdose can be from respiratory depression or cardiac failure Cocaine is an ester of benzoic acid and is closely related to the structure of atropine. 

Regardless of terminology, one should remember that despite differences in intensity and duration of action, all atropine-like compounds have structural similarities and produce a common pattern of pharmacological effects. In other... 

ATROPINE, SCOPOLAMINE AND DITRAN Treatment Studies with Atropine, Scopolamine and Ditran COMPARISONS OF BELLADONNOID PROPERTIES Structures and Names of Belladonnoids Studied... 

Although not usually classified as a glycolate, the structure of atropine (Fig. 57) can be visualized as such, taking certain liberties with the rules of chemical nomenclature. 

By inspection, atropine s effects on cognitive (NF) performance reach a maximum at about 4 hours (Fig. 60). The estimated MED50 is about 90 mcg/kg and the ID50 is about 160 mcg/kg. Onset time (Tonso) and duration (D50) at the IDso.are about 1 and 6 hours respectively. The relative central potency of atropine is the lowest of any of the belladonnoids we studied (Fig. 74). Once again, as is the case with BZ vs. EA 3167 and EA 3443 vs. EA 3580, a minor structural change makes a major difference. 

Sir Henry Dale noticed that the different esters of choline elicited responses in isolated organ preparations which were similar to those seen following the application of either of the natural substances muscarine (from poisonous toadstools) or nicotine. This led Dale to conclude that, in the appropriate organs, acetylcholine could act on either muscarinic or nicotinic receptors. Later it was found that the effects of muscarine and nicotine could be blocked by atropine and tubocurarine, respectively. Further studies showed that these receptors differed not only in their molecular structure but also in the ways in which they brought about their physiological responses once the receptor has been stimulated by an agonist. Thus nicotinic receptors were found to be linked directly to an ion channel and their activation always caused a rapid increase in cellular permeability to sodium and potassium ions. Conversely, the responses to muscarinic receptor stimulation were slower and involved the activation of a second messenger system which was linked to the receptor by G-proteins. 

Fig. 3.13 The ACE50 method demonstrated for a mixture of ligands at 1 tM per component to the M2 receptor at 5 pM concentration. (A) NGD-3350 requires the greatest competitor concentration to be competed from the receptor, indicating that it is the highest affinity ligand. (B) Ratio plots indicate direct binding competition with atropine. (C) Select compound structures. Reprinted from [39] with permission from the American Chemical Society.

Tropane alkaloids have a tropane (C4N skeleton -f) nucleus. Structurally, these alkaloids synthesize as postcursors of pyrrolines (Figure 57). a, /3,

tropane alkaloids (e.g., atropine, hyoscyamine, cocaine, tropinone, tropine, littorine and cuscohy-grine) have a strong biological activity, especially as neurotransmitters. 

Hi-receptor but also at muscarinic cholinoceptors, serotonin receptors, and adrenoceptors. This explains the atropine-like side effects of those drugs. The cationic amphophilic structure of these substances resemble that of antiarrhythmic agents which might explain the arrhythmogenic properties seen with some of these Hi-antagonists. 

The best known of the muscarinic blocking drugs are the belladonna alkaloids, atropine (Atropine) and scopolamine (Scopolamine). They are tertiary amines that contain an ester linkage. Atropine is a racemic mixture of DL-hyoscyamine, of which only the levorotatory isomer is pharmacologically active. Atropine and scopolamine are parent compounds for several semisynthetic derivatives, and some synthetic compounds with little structural similarity to the belladonna alkaloids are also in use. All of the antimuscarinic compounds are amino alcohol esters with a tertiary amine or quaternary ammonium group. 

An alkaloid is a complex organic chemical substance found in plants, which characteristically combines nitrogen with other elements, has a bitter taste, and typically has some toxic, stimulant, analgesic effects. There are many different alkaloids, 30 of which are found in the opium plant. While morphine is the most important alkaloid in opium—for its natural narcotic qualities as well as providing the chemical structure for heroin—another alkaloid, codeine, is also sought after for its medicinal attributes. Other alkaloids include papaverine, narcotine, nicotine, atropine, cocaine, and mescaline. While the concentration of morphine in opium varies depending on where and how the plant is cultivated, it typically ranges from 3 percent to 20 percent. 

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