Hippuric acid, reaction with

Thiazolecarboxaldehydes exhibit many reactions typical of aldehydes. However, they give no aldolization reaction (no a-hydrogen), but they do react with different compounds such as acetic anhydride, hippuric acid, acetylglycine, and so for (37, 101, 102). Thus 2-phenyl-4-fonnylthiazole (31) mixed with hippuric acid and treated with AcOa and anhydrous NaOAc gives the azalactone (32) (Scheme 32). 

Erlenmeyer reaction is the condensation of aromatic aldehydes with hippuric acid to form aziactones (important intermediates in the preparation of amino- and keto-acids)... 

The azlactones of a-benzoylaminocinnamic acids have traditionally been prepared by the action of hippuric acid (1, Ri = Ph) and acetic anhydride upon aromatic aldehydes, usually in the presence of sodium acetate. The formation of the oxazolone (2) in Erlenmeyer-Plochl synthesis is supported by good evidence. The method is a way to important intermediate products used in the synthesis of a-amino acids, peptides and related compounds. The aldol condensation reaction of azlactones (2) with carbonyl compounds is often followed by hydrolysis to provide unsaturated a-acylamino acid (4). Reduction yields the corresponding amino acid (6), while drastic hydrolysis gives the a-0X0 acid (5). ... 

In 1959, Crawford and Little reported superior yields of 3 in reactions of aromatic aldehydes by using isolated, crystalline 2-phenyloxazol-5-one (2, Ri = Ph) compared to direct reaction with hippuric acid (1, Ri = Ph). An early report by Boekelheide and Schramm on the use of ketones in the Erlenmeyer azlactone synthesis includes treatment... 

Several improved methods for the preparation of known unsaturated azlactones as well as some interesting new compounds of this type have been reported. Crawford and Little observed that the direct use of 2-phenyl-5-oxazolone (1) in the Erlenmeyer reaction gave much improved yields (35-74%) of unsaturated azlactones with aliphatic aldehydes and with ketones such as acetone and cyclohexanone [Eq, (1)], The usual procedure of mixing a carbonyl compound, hippuric acid, acetic anhydride, and sodium (or lead) acetate affords poor yields in the aliphatic series. 

The reaction of hippuric acid with a three-fold excess of trifluoro-acetic anhydride gives a 90% yield of 2-phenyl-4-(2, 2, 2 -trifluoro-l -hydroxyethylidene)-5-oxazolone (2). This compound is also obtained... 

The isolation of several pairs of geometric isomers of 4-unsaturated-5-oxazolones has been described. Generally, only one isomer is obtained when an aldehyde reacts with hippuric acid in the presence of acetic anhydride. Occasionally, mixtures have been separated in base-catalyzed reactions. In acetic anhydride-sulfuric acid or in 100% sulfuric acid, a mixture is obtained, and it has been suggested that sulfuric acid inhibits mutarotation of the intermediate addition product 53, which is a mixture of diastereomers (see, e.g., compound... 

Acetic anhydride, condensation with and acetylation of glycine, 46, 1 in cyclization of c-formylphenoxy-acetic acid to coumarone, 46, 28 in cyclization of hippuric acid to 2-phenyl-5-oxazolone, 47, 101 reaction with N-nitroso-N-phenyl-glycine to yield 3-phenylsydnone, 46,96... 

Hippuric acid, cyclization to 2 phenyl-5 oxazolone with acetic anhydride, 47,101 Holarrhimine, 46, 61 Hydrazine, reaction with cinnamalde-hyde, 47, 99... 

Condensation of 1,3-diphenyl[ 1,2,4]triazin-6-one 360, obtained from reaction of hippuric acid and phenylhydrazine, with aromatic aldehydes... 

Figure 31-1. Biosynthesis of hippurate. Analogous reactions occur with many acidic drugs and catabolites.

The methylene groups of hippuric acid and malonic acid are much more reactive than that of acetic acid. They may be caused, therefore, to condense with aldehydes under much milder conditions, e.g. by the action of pyridine. The use of malonic acid forms an extension of Perkin s reaction to the aliphatic series (Doebner), e.g. 

When treated with the reaction product of hippuric acid and DMF-DMA, 3-aminopyridazine was transformed into a derivative of the pyridazino-pyrimidine system 117. The same result was achieved when 3-aminopyridazine was reacted first with DMF-DMA and thereafter with the protected cyclic glycine derivative (88H903 90JHC359). 

When benzaldehyde is condensed with hippuric acid in the presence of acetic anhydride a Perkin s reaction takes place and benzoyl-a-amido-cinnamic acid is formed —... 

Erlenmeyer jun., and Halsey, in 1899, synthesised tyrosine by the condensation of hippuric acid with p-oxybenzaldehyde in the presence of acetic anhydride. The reactions are the same as those described by Erlenmeyer for the synthesis of phenylalanine, except that the hydroxyl group of the p-oxybenzaldehyde becomes acetylated in the process —... 

Alkylation of saturated 5(4//)-oxazolones at C-4 is a well-known reaction that can be achieved under a wide variety of conditions. Numerous articles have described this reaction as a means to prepare 4,4-dialkyl-5(477)-oxazolones 147 that are valuable intermediates to prepare ot,ot-disubstituted a-amino acids. For instance,2-phenyl-5(4//)-oxazolone 146 readily obtained from hippuric acid and A,A -dicyclohexylcarbodiimide (DCC), is alkylated at C-4 with allyl, benzyl, or phenacyl halides if the reaction is conducted in dipolar aprotic solvents in the presence of weak bases. Hydrolysis of the resulting 5(477)-oxazolones leads to a,a-dialkylglycines 148 (Scheme 7.43). 

Similarly, reaction of 2-dimethylaminomethylene-3-oxoalkanoates or 2-di-methylaminomethylene-1,3-cyclohexanediones with 2-phenyl-5(4/7)-oxazolone 146, generated in situ from hippuric acid, affords 6-substituted 3-(benzoyl-amino)-2-oxo-2//-pyran-5-carboxylates 204 and 3-(benzoylamino)-7,8-dihydro-2//-l-benzopyran-2,5(6//)-diones 206, respectively. These compounds showed strong local anesthetic activity (Scheme 7.62). ... 

Reaction of hippuric acid and A, A -dimethylacetamide in the presence of phosphorous oxychloride affords 4-[l-(dimethylamino)ethylidene]-2-phenyl-5(4//)-oxazolone 424 " ° that is converted to 4-benzoylaminopyrazolones 425 via ring opening and cyclization with hydrazines (Scheme 7.139). " ° 4-(A, Af-Dimethyl-aminomethylene)-2-substituted-5(477)-oxazolones react similarly. 

Condensation of A -acylglycines with carbonyl compounds, the Erlenmeyer synthesis, continues to be exploited to prepare of a wide variety of unsaturated-5(47/)-oxazolones. The reaction is performed in the presence of a cyclodehydrating agent and recently bismuth(lll) acetate has been evaluated in this capacity. Alternatively, unsaturated 5(47/)-oxazolones can be obtained from hippuric acid and a carbonyl compound or from the appropriate dehydroamino acid derivative using 3-(aIkoxycarbonyl)benzotriazole-l-oxides as the cyclodehydrating agent. 

The condensation of furo[3,2- ]pyrrole-type aldehydes 8g and 265-267 with hippuric acid was carried out in dry acetic anhydride catalyzed by potassium acetate as is shown in Scheme 26. The product methyl and ethyl 2-[( )-(5-oxo-2-phenyl-l,3-oxazol-5(4//)-ylidene)methyl]furo[3,2- ]pyrrol-5-carboxylates 268a-d were obtained. The course of the reaction was compared with the reaction of 5-arylated furan-2-carbaldehydes with hippuric acid. It was found that the carbonyl group attached at G-2 of the fused system 8 is less reactive than the carbonyl group in 5-arylated furan-2-carbaldehydes in this reaction <2004MOL11>. The configuration of the carbon-carbon double bond was determined using two-dimensional (2-D) NMR spectroscopic measurements and confirmed the (E) configuration of the products. 

The preparation of the first unsaturated azlactone was reported in 1883 by Plochl/40 who condensed benzaldehyde with hippuric acid in presence of acetic anhydride. This approach was later used by Erlenmeyer/41 who extended the procedure to include other aldehydes and also established the usefulness of azlactones as intermediates in the synthesis of DHAs. The method involves the condensation of an A-acylglydne 4 with aldehydes and ketones in the presence of acetic anhydride and anhydrous sodium acetate (Scheme 2)J41 t5l Other catalysts such as copper(II) acetate/46 lead acetate/47,48 potassium carbonate/49 or potassium hydrogen carbonate 50 have also been used. The reaction proceeds via formation of an azlactone 5, which then condenses with the appropriate aldehyde or ketone to give unsaturated azlactone 6. Reaction of 6 with a nucleophile such as OH, OR, or NHR leads to the corresponding A-acyl-DHA derivatives 7. Reaction with the sodium salt of an amino acid gives a DHA containing dipeptide acid. 51 ... 

An experiment with an irreversible inhibitor should carry with it a control experiment involving the addition of a substrate if the location of the reaction with inhibitor is at the active site, then the addition of a substrate will slow down the rate of inhibition. For example, the reactivity of papain (5 pM) with a 1.71 pM solution of 4-toluenesulphonylamidomethyl chloromethyl ketone suffers a drop of 1.68-fold when the substrate (methyl hippurate) is changed from 12.7 to 21.1 mM. The inhibitor which reacts covalently with the enzyme should carry either a radioactive or spectroscopic tag which would enable the location of the altered amino acid to be determined in the sequence, and hence in the three-dimensional X-ray crystallographic map of the enzyme. An alternative approach is to design an inhibitor with groups (analogous to those attached to the substrate) which force it to bind at the active site (Scheme 11.18). 

The condensation reactions of 2-formylfuro[2,3-Z ]pyrrole-5-carboxylates 214b,d with hippuric acid were carried out in dry acetic anhydride catalyzed by potassium acetate, providing 233b (66%) and 233d (70%) (Fig. 13) [22], The reaction... 

In Approach (B), aniline is converted into the corresponding nitrogen mustard, which is formylated to the benzaldehyde nitrogen mustard V. The alanine moiety is constructed via the Erlenmeyer reaction with hippuric acid, reduction, and hydrolysis [23,34—38]. 

The main metabolic reaction is the deamination of amphetamine with the formation of phenylacetone, which is subsequently oxidized to benzoic acid, then conjugated with glycine to form hippuric acid. Side reactions include aromatic hydroxylation to form 4-hydroxyamphetamine (an active metabolite), the stereoselective [i-hydroxy-lation for the isomer (+) of amphetamine leading to the formation of norephedrine (phenylpropanolamine) and finally the N-oxidation leading to the formation of a hydroxylamine derivative. The products of the hydroxyl and aromatic N-oxides can be conjugated with sulfate or glucuronic acid [18]. 

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