Indenes indanones

In order to avoid as far as possible double bond positional isomers, a problem quite common in drugs with indene moieties, N-trityl-2-hydroxymethylmorpholine (23) was reacted with the potassium. salt of 4-hydroxy-1-indanone (24) in DMSO solvent to give condensation product 25 in good yield. Reduction of 25 with LLAIH produced the hydroxyindane which was dehydrated and deprotected with HCl to give indeloxazine (26) [8]. 

Imidazoles 775 /J-Iminosulphones 640 /J-Iminosulphoxides, synthesis of 69 Inclusion compounds 59, 287 Indanols 256 Indanones 338 Indenes 267 Indoles 323... 

The unconventional structure of fulvenes with a unique C=C bond conjugation leads to unusual cycloaddition reactions with other unsaturated systems. For example, alkenylcarbene complexes react with fulvenes leading to indanone or indene derivatives which can be considered as derived from a [6S+3C] cycloaddition process [118] (Scheme 72). The reaction pathway is well explained by an initial 1,2-addition of the fulvene to the carbene carbon followed by [1,2]-Cr(CO)5-promoted cyclisation. 

Dihydro-1-vinylnaphthalene (67) as well as 3,4-dihydro-2-vinylnaphtha-lene (68) are more reactive than the corresponding aromatic dienes. Therefore they may also undergo cycloaddition reactions with low reactive dienophiles, thus showing a wider range of applications in organic synthesis. The cycloadditions of dienes 67 and 68 and of the 6-methoxy-2,4-dihydro-1-vinylnaphthalene 69 have been used extensively in the synthesis of steroids, heterocyclic compounds and polycyclic aromatic compounds. Some of the reactions of dienes 67-69 are summarized in Schemes 2.24, 2.25 and 2.26. In order to synthesize indeno[c]phenanthrenones, the cycloaddition of diene 67 with 3-bromoindan-l-one, which is a precursor of inden-l-one, was studied. Bromoindanone was prepared by treating commercially available indanone with NBS [64]. 

Alkenyl Fischer carbene complexes can serve as three-carbon components in the [6 + 3]-reactions of vinylchro-mium carbenes and fulvenes (Equations (23)—(25)), providing rapid access to indanone and indene structures.132 This reaction tolerates substitution of the fulvene, but the carbene complex requires extended conjugation to a carbonyl or aromatic ring. This reaction is proposed to be initiated by 1,2-addition of the electron-rich fulvene to the chromium carbene followed by a 1,2-shift of the chromium with simultaneous ring closure. Reductive elimination of the chromium metal and elimination/isomerization gives the products (Scheme 41). 

Prepare 6-methoxy-l-indanone (I) (JCS 1986(1962)) using polyphosphoric acid made by diluting 500 g of the commercial acid with 120 g 85% phosphoric acid. 2.5 g (I) in 176 ml ether and reflux one hour with 0.27 g lithium aluminum hydride. Cool and carefully add water and filter when bubbling stops (can use Celite filter aid). Dry and evaporate in vacuum and store twelve hours at -15° (under N2 if possible) to precipitate the white 6-methoxy-l-indanol (II) (recrystallize-n-hexane). 2.5 g (II) in 73 ml benzene and reflux one-half hour with 0.2 g p-toluenesulfonic acid. Cool, add water and separate the phases. Extract the aqueous phase with ether and combine with benzene phase and dry, evaporate in vacuum to get 5-methoxy-indene (III) (can distill 110-45/10). 1.53 g (III) and 1.39 g N.N-diethyl-aminoethyl-Cl.HCI in benzene (prepare the free base in benzene as described previously). Reflux four hours with 0.42 g sodamide, cool, wash with water and dry, evaporate in vacuum to get the indene analog of 6-methoxy DET as a dark liquid (can crystallize as oxalate). Alternatively, dissolve 2.51 g (III) in ether and treat (under N if possible) with 12 ml 1.6M buty-Li in hexane at 0-10°. After two hours cool to -30° and add 12 ml more of butyl-Li. Add ether suspension of 2.5 g N,N-diethylaminoethyl-CI. HCI over one-half hour and warm to room temperature. Filter, evaporate in vacuum to get the 6-methoxy-DET analog. 

Irradiation in air of the deoxycholic acid (DCA, 157) complex of indanone leads to oxidation of both the steroid and the guest, yielding 5- 3-hydroxy-DCA, 158, and optically active 3-hydroxyindanone (241). In the presence of air, irradiation of the DCA clathrates of isochromane, 159, and indene, 161, leads to reaction with oxidation of the host and of the allylic position of the guest to a keto group (e.g., 159 — 160 and 161 — 162).The detailed mechanisms of these oxidations remain to be elucidated. 

Catalytic asymmetric methylation of 6,7-dichloro-5-methoxy-2-phenyl-l-indanone with methyl chloride in 50% sodium hydroxide/toluene using M-(p-trifluoro-methylbenzyDcinchoninium bromide as chiral phase transfer catalyst produces (S)-(+)-6,7-dichloro-5-methoxy-2-methyl-2--phenyl-l-indanone in 94% ee and 95% yield. Under similar conditions, via an asymmetric modification of the Robinson annulation enqploying 1,3-dichloro-2-butene (Wichterle reagent) as a methyl vinyl ketone surrogate, 6,7 dichloro-5-methoxy 2-propyl-l-indanone is alkylated to (S)-(+)-6,7-dichloro-2-(3-chloro-2-butenyl)-2,3 dihydroxy-5-methoxy-2-propyl-l-inden-l-one in 92% ee and 99% yield. Kinetic and mechanistic studies provide evidence for an intermediate dimeric catalyst species and subsequent formation of a tight ion pair between catalyst and substrate. 

Indanone, see Fluorene l-Indanone-7-carboxylic acid, see Acenaphthene Indene, see Di-n-butyl phthalate lodoformaldehyde, see Methyl iodide... 

The medicinal chemistry of Alzheimers is complicated by the fact that the etiology of this disease is still far from clear. Evidence points to an association with decreased levels of acetyl choline in the brain. Many of the drugs that have been introduced to date for treating this disease thus comprise agents intended to raise the deficient levels of that neurotransmitter by inhibiting the loss of existing acetylcholine due to the action of cholinesterase. A compound based on an indene that, perhaps surprisingly, inhibits that enzyme has been proposed for the treatment of Alzheimer s. Aldol condensation of piperidine aldehyde (4-2) with the indanone (4-1) from cyclization of 3,4-dimethoxycinnamic acid leads to the olefin (4-3). Catalytic reduction removes the double bond to afford donepezil (4-4) [3]. 

The indene ( d 5 1.5698, b.p. 74-76°/24 mm.) was obtained from Rutgerswerke, A. G., West Germany, through Terra Chemicals, Inc., 500 Fifth Avenue, New York 36, N. Y. It was faintly yellow, but was used without distillation, since distillation, although it removed the yellow color, did not change the refractive index. When Matheson, Coleman and Bell technical grade indene was used (redistilled, d 5 1-5606, b.p. 177-179°), a 45% yield of 2-indanone was obtained. 

Indanone was first prepared by distillation of the calcium salt of o-phenylenediacetic acid2 3 and, more recently, by the action of acetic anhydride on its potassium salt.4 It has been obtained by the dilute sulfuric acid-catalyzed hydrolysis and decarboxylation of 2-iminoindan-l-carboxylate6 and ethyl 2-indanone-l-carboxylate.6 2-Indanone is commonly obtained by acid-catalyzed dehydration of an indene glycol,7 8 as illustrated in this preparation. Indene glycol has been obtained from indene via the bromohydrin.9-12 The most recent preparation of 2-indanont is by Curtius degradation of 2-indenecarboxylic acid.13... 

In the oxidation of indene, where the double bond is located in the five-membered ring (entry 3), the preference of oxygen for the a-position is even more pronounced, with the ratio of a- to P-indanone being 4.5 1. Presumably, 2-ethenylbenzaldehyde (10%) forms as a result of double bond cleavage. 

Reaction of polyfluorinated indans with concentrated H202 in HF/SbF5 has recently been reported [126]. For example, F-indene at -30 °C was readily oxidized to F-indanone-2, which at higher temperature reacts with H202 to give a mixture of isocumarine 51a and diacid 51b ... 

Racemic substituted aminoindanol 9 was synthesized in a 5-step sequence by nitration of 1-indanone, followed by ketone reduction and dehydration to give 6-nitro-l-indene and subsequent epoxidation of the olefin and final regioselective animation (Scheme 8.5). Optically pure (IR,2R)-and (1 S,2S)-6-nitro-1 -amino-2-indanol 9 were eventually obtained by resolution with mandelic... 

Trost and Latimer reported the clean generation of ketone ,/ -dianion of 6-methoxy-indanone. They used two equivalents of LDA as a base and THF as a solvent6. Alkylation with one equivalent of ethyl iodide gave 89% yield of 3-ethyl-6-methoxy-l-indanone. For the alkylation, the ambident character of the dianion was evident, although negligible, since the formation of 3-ethyl-3-hydroxy-6-methoxy-l-indene was confirmed (Scheme 11). 

Indanyl)-phenol 16 was obtained by reacting p-methoxy-phenyl-acetic acid ethyl ester with benzylchloride to form a-benzyl-p-methoxyphenyl ethyl acetate, saponification into the acid, conversion of the acid with thionylchloride into the chloride, cyclization to 2-p-methoxy-phenyl-l-indanone, NaBH4 reduction to 2-p-methoxyphenyl-l-indanole, dehydration with p-toluene-sulphonic acid in toluene to 2-p-methoxyphenyl-indene, catalytic hydrogenation to 2-p-methoxyphenyl-indene, and treating the ether with HBr [Eq. (5)]. 

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