Metabolism methyl substitution, effect

The proposed pathways for methyl-substituted quinolines differ from those shown in Fig. 23, even for the same culture, and most particularly, the fact that no C—N bond cleavage has been observed in most of the strains. A limited number of methylquinolines can be hydroxylated due to the inhibiting and blocking effect of the methyl group, particularly at position 2. So, neither P. aeruginosa QP nor P. putida QP could metabolize 2-methylquinoline however, a new strain of Pseudomonas (MQP) isolated by Grant and Al-Najjar [328] was reported to be able to transform 2-methylquinoline, yielding... 

Weyand EH, Amin S, Sodhi R, et al. 1991c. Effects of methyl substitution on the metabolism and binding of benz[e]acephenanthrylene. In Garriques P, Lamotte M, eds. Polycyclic aromatic compounds. Synthesis, properties, analytical measurements, occurence, and biological effects. Proceedings of the thirteenth international symposium on polynuclear aromatic hydrocarbons. Philadelphia, PA Gordon and Breach. 

Effects of Methyl and Fluorine Substitution on the Metabolic Activation and Tumorigenicity of Polycyclic Aromatic Hydrocarbons... 

While mescaline is a simple 2-phenethylamine derivative, the addition of an alpha-methyl group to the side chain yields Structure 8 (TMA). This simple hybrid of the structures of mescaline and amphetamine retains the hallucinogenic effects of mescaline but possesses about twice the potency of the latter (174,200). Addition of the alpha-methyl to other 3,4,5-substituted compounds generally brings about an approximately twofold increase in potency. The addition of an alpha-methyl to 2,4,5-substituted compounds, however, may dramatically increase activity. For example, 2-(2,4,5-trimethoxyphenyl) ethylamine apparently is clinically inactive (195). Addition of an alpha-methyl gives TMA-2 (Table 1), with 20 times the potency of mescaline. However, the addition of an alpha-methyl does not significantly increase in vitro receptor affinity in either 3,4,5-or 2,4,5-series (72,78). Thus it is probable that the alpha-methyl may confer metabolic stability in vivo. It could also be speculated that this protection is more important in the 2,4,5-substituted series than in 3,4,5-substituted compounds. 

Racemic methadone (MET) is administered to heroin addicts as a substitution therapy. However, methadone enantiomers possess different pharmacological effects, and the drug has been demonstrated to be enantioselectively metabolized to its two major metabolites, 2-ethylidene-l,5-dimethyl-3,3-diphenylpyrrolidine (EDDP) and 2-ethyl-5-methyl-3,3-diphenyl-l-pyrroline (EMDP). Stereoselective separation of MET, EDDP, and EMDP using an alpha-glycoprotein stationary phase and MS-MS detection was proposed by Kelly et al. [34]. Optimal separation conditions were 20 mM acetic acid isopropanol (93 7, pH 7.4), with a flow rate of 0.9mL/min. 

The principal substrate for glutamylation is free tetrahydrofolate one-carbon substituted folates are poor substrates. Because the main circulating folate, and the main form that is taken up into tissues, is methyl-tetrahydrofolate, demethylation by the action of methionine synthetase (Section 10.3.3) is essential for effective metabolic trapping of folate. In vitamin B12 deficiency, when methionine synthetase activity is impaired, there wUl be impairment of the retention of folate in tissues. 

Pendimethalin is absorbed rapidly and effectively by the oral route but less effectively by the dermal route. Following absorption, 70% of pendimethalin is excreted in the feces and 20% in the urine in 24 h. The maximum tissue concentration of pendimethalin was seen at 6 h in liver, kidney, muscle, and fat. The major portion that is excreted in the feces is the parent compound. Pendimethalin is metabolized in rats mainly through oxidation of the 4-methyl group attached to the benzene ring as well as oxidation of the alkyl side chain of the N-substituted dinitroaniline compound. 

Substitution a to the Basic Nitrogen, Carbon-2. Small alkyl groups, methyl or ethyl, may be present on the carbon adjacent to the amino nitrogen. Such substitution slows metabolism by MAO but has little overall effect on duration of action of catechols because they remain substrates for COMT. Resistance to MAO activity is more important in noncatechol indirect-acting phenylethyl-amines. An ethyl group in this position diminishes a-activity far more than /3-activity, and is present in isoetharine (16). Substitution on this carbon introduces an asymmetric center. 

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