Acyl compounds reaction with lithium aluminum hydride

Compound (72) underwent an acid-catalyzed addition reaction with methanol to give the methoxy compound (292). The methoxy group in position 3 was cleaved under acidic conditions, and the crude mixture was acylated. Reaction with lithium aluminum hydride then gave 3-hydroxyretinol (22), which has been detected in the form of the diester in freshwater fish (Barua et aL, 1977 Barua and Verma, 1977). In the presence of an acid, 3,4-didehydroretinol (289) gave the hydrocarbon (293) (Henbest et aL, 1955). 3,4-Didehydroretinol (289) has been detected in human skin (Vahlquist, 1980). 

In this series, too, replacement of the N-methyl by a group such as cyclopropylmethyl leads to a compound with reduced abuse potential by virtue of mixed agonist-antagonist action. To accomplish this, reduction of 24 followed by reaction with tertiary butylmagnesium chloride gives the tertiary carbinol 27. The N-methyl group is then removed by the classic von Braun procedure. Thus, reaction with cyanogen bromide leads to the N-cyano derivative (28) hydrolysis affords the secondary amine 29. (One of the more efficient demethylation procedures, such as reaction with ethyl chloroformate would presumably be used today.) Acylation with cyclopropylcarbonyl chloride then leads to the amide 30. Reduction with lithium aluminum hydride (31) followed by demethylation of the phenolic ether affords buprenorphine (32).9... 

A similar sequence starting with the acylation product (76) from metachlorophenylacetonitrile gives the halogenated tricyclic ketone 83. Condensation of that intermediate with ethyl bromoacetate in the presence of zinc (Reformatsky reaction) gives the hydroxyester 84. This product is then in turn dehydrated under acid conditions (85), saponified to the corresponding acid (86), and converted to the dimethyl-amide (87) by way of the acid chloride. The amide function is then reduced to the amine (88) with lithium aluminum hydride catalytic hydrogenation of the exocyclic double bond completes the synthesis of closiramine (89). This compound also exhibits antihistaminic activity. 

Oxymercuration of simple alkyl- and acyl-substituted cyclopropenes generally results in ring opening.Addition of mercury(II) acetate to 3-methyl-3-phenylcyclopropene, however, gave a low yield of a cyclopropane containing organomercury compound (15-20%), which was converted into an isomeric mixture of 1 -methoxy-2-methyl-2-phenylcyclopropanes by reduction with lithium aluminum hydride. Reaction of 5 with mercury trifluoroacetate in methanol and then sodium hydroxide led predominantly to one cylopropane. ... 

N-Acylation of dihydro-1,4-benzothiazines is, however, a smooth process, and most of the usual reagents and reaction conditions have been successfully employed.21,50,55,64,152 Reduction of the acyl derivatives with lithium aluminum hydride affords the corresponding N-alkyl compounds.54,152... 

Two unselective approaches to the two alkaloids are illustrated in Scheme 50. A straightforward synthesis by King relied on acid-induced intramolecular Mannich reaction of ammoketone 396, prepared from 5-aminopentanal diethyl acetal and pent-3-en-2-one, to give a mixture of ( )-394 (55%) and ( )-395 (20%) (367). The synthesis by Pilli et at. involved a one-pot trimethylsilyl triflate-catalyzed condensation between pent-3-en-2-one and the acyliminium ion derived fium JV-Boc-2-ethoxypiperidine (397) (368,369). Under the reaction conditions, the intermediate 398 underwent spontaneous V-deprotection and cyclization to give a 5.5 1 mixture of ( )-394 and ( )-395 (67%). In the same Scheme is also shown the much shorter stereoselective synthesis of ( )-394 by Beckwith et al, who used a radical-mediated cyclization on the V-acylated 2,3-dihydropyridin-4-one 399 to give the bicyclic product 400 as the sole diastereomer (91%) (370). Compound 400 was readily converted into the target alkaloid by reduction of both carbonyl groups with lithium aluminum hydride followed by reoxidation of the secondary alcohol at C-2. 

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