Alkyl hydroxylation, metabolic

The 4-piperazinyl nitrogen in pipemidic acid (69) has been alkylated, acylated and sulfonylated in the search for enhanced antibacterial activity, whilst the 3-pyrrolidinyl position in piromidic acid (68) is hydroxylated metabolically and enzymically to (74) (75MI21503), from which acyloxy derivatives have been prepared. 

GEMO) for hydroxylation of the a-carbon atom of the lipid carbon chain of glyceryl ether to form ct-hydroxyalkyl glycerol. The significance of GEMO in humans and rodents has been well documented however, there is no record about the consequences of BH4 deficiency on the alkyl ethers metabolism. 

Oxidative Reactions. The majority of pesticides, or pesticide products, are susceptible to some form of attack by oxidative enzymes. For more persistent pesticides, oxidation is frequendy the primary mode of metabolism, although there are important exceptions, eg, DDT. For less persistent pesticides, oxidation may play a relatively minor role, or be the first reaction in a metaboHc pathway. Oxidation generally results in degradation of the parent molecule. However, attack by certain oxidative enzymes (phenol oxidases) can result in the condensation or polymerization of the parent molecules this phenomenon is referred to as oxidative coupling (16). Examples of some important oxidative reactions are ether cleavage, alkyl-hydroxylation, aryl-hydroxylation, N-dealkylation, and sulfoxidation. 

C-Alkyl hydroxylations are of very common occurrence in plants notable species differences exist, however, which are of significance with respect to selectivity. The tolerance of certain broadleaf species to chlorsul-furon (5) results from hydroxylation of the 4-methyl substituent on the triazine ring to produce 6, followed by glycosylation (Figure 10.4), rather than 5 ring hydroxylation, as in the case of graminaceous crops. The fact that 6 retained herbicidal activity implies that for this metabolic route the... 

Yet another nonsedating zwitterionic H-1 antihistamine consists of the product from metabolism of the terminal hydroxyl of the potent antihistamine hydroxyzine terminating in hydroxymethyl instead of a carboxylic acid. This compound, cetirzine (123), can be obtained in straightforward fashion by alkylation of the monosubstituted piperazine 120 with halide 121, via the amide 122 [27]. 

It has become clear that benzoate occupies a central position in the anaerobic degradation of both phenols and alkylated arenes such as toluene and xylenes, and that carboxylation, hydroxylation, and reductive dehydroxylation are important reactions for phenols that are discussed in Part 4 of this chapter. The simplest examples include alkylated benzenes, products from the carboxylation of napthalene and phenanthrene (Zhang and Young 1997), the decarboxylation of o-, m-, and p-phthalate under denitrifying conditions (Nozawa and Maruyama 1988), and the metabolism of phenols and anilines by carboxylation. Further illustrative examples include the following ... 

The complexity of the metabolism of alachlor, acetochlor, butachlor, and propachlor has led to the development of degradation methods capable of hydrolyzing the crop and animal product residues to readily quantitated degradation products. Alachlor and acetochlor metabolites can be hydrolyzed to two major classes of hydrolysis products, one which contains aniline with unsubstituted alkyl groups at the 2- and 6-positions, and the other which contains aniline with hydroxylation in the ring-attached ethyl group. For alachlor and acetochlor, the nonhydroxylated metabolites are hydrolyzed in base to 2,6-diethylaniline (DBA) and 2-ethyl-6-methylaniline (EMA), respectively, and hy-droxylated metabolites are hydrolyzed in base to 2-ethyl-6-(l-hydroxyethyl)aniline (HEEA) and 2-(l-hydroxyethyl)-6-methylaniline (HEMA), respectively. Butachlor is metabolized primarily to nonhydroxylated metabolites, which are hydrolyzed to DEA. Propachlor metabolites are hydrolyzed mainly to A-isopropylaniline (NIPA). The base hydrolysis products for each parent herbicide are shown in Eigure 1. Limited interference studies have been conducted with other herbicides such as metolachlor to confirm that its residues are not hydrolyzed to the EMA under the conditions used to determine acetochlor residues. Nonhydroxylated metabolites of alachlor and butachlor are both hydrolyzed to the same aniline, DEA, but these herbicides are not used on the same crops. 

Alkyl groups larger than Me can be expected to prevent hydrolysis, as observed for /V,/V-dicthylcaproamidc (4.52). That /V,/V-bis(2-hydroxycthyl)laur-amide (4.53), which is used in cosmetics as an emollient, thickener, and foam stabilizer, is not converted to 2,2 -iminodiethanol in rats may be rationalized by steric factors. This A,A-bis(2-hydroxyethyl )amide of a fatty acid is mainly metabolized via hydroxylation [33]. 

The anticonvulsant agent primidone (4.246) is the 2-dihydro derivative of phenobarbital (4.247), which is one of its metabolites. The second major metabolite, 2-ethyl-2-phenylmalondiamide (4.248), is produced by a double C-N cleavage [160]. The profile of plasma levels in rats strongly suggests that 2-ethyl-2-phenylmalondiamide is not derived from the metabolite phenobarbital, but directly from primidone. Indeed, a C(2)-hydroxylated metabolite serves as an intermediate for both detected metabolites (see also Chapt. 6 in [21]). N-Alkyl derivatives of primidone yield a greater proportion of ring-opened metabolites, an observation explained by their higher susceptibility to oxidative metabolism at C(2) [161]. 

The in vivo metabolism of a homologous series of alkyl carbamates (7.2, Fig. 7.3) has yielded some informative results [13]. The hydrolysis of these esters liberates carbamic acid (7.3, Fig. 7.3), which breaks down spontaneously to C02 and NH3, allowing the extent of hydrolysis to be determined conveniently and specifically by monitoring C02 production. When such substrates were administered to rats, there was an inverse relationship between side-chain hydroxylation and ester-bond hydrolysis. Thus, for compounds 12 the contribution of hydrolysis to total metabolism (90 - 95% of dose) decreased in the series R=Et (ca. 85-90%), Bu (ca. 60-65%), hexyl (ca. 45 - 50%), and octyl (ca. 30%). Ethyl carbamate (urethane) is of particular toxicological interest, being a well-established carcinogen in experimental animals. In vitro studies of adduct formation have confirmed the competition between oxidative toxification mediated by CYP2E1 and hydrolytic detoxification mediated by carboxylesterases [14]. 

In a number of barbiturates, the 5-alkyl side chain is known to undergo metabolic hydroxylation at C(2 ) and/or C(3 ). Examples include allobarbi-... 

Abbreviations BSO, D.L-buthionine-. i -sulfoxime L , lipid alkyl radicals LH, lipid LO, Upid alkoxyl radicals LOO, Upid peroxyl radicals L-NAME, yV -nitro-L-arginine-methyl ester MBl, methylene bridge index (mean number of h -aUytic methylene positions per fatty add) NO, nitric oxide NOS, nitric oxide synthase NO, nitrite N02, nitrogen dioxide NO2CI, nitryl chloride O2 , superoxide OH, hydroxyl radical OL, epoxyaUyhc radical OLOO, epoxyperoxyl radical 0=NOO , peroxynitrite SNAP, S-nitroso-iV-acetyl-D.L-penicillamine SOD, superoxide dismutase contd. onp. 98, Subcellular Biochemistry, Volume 36 Phospholipid Metabolism in Apoptosis. 

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