Cyclopentenone derivative

The growing importance of cyclopropane derivatives (A. de Meijere, 1979), as synthetic intermediates originates in the unique, olefin-like properties of this carbocycle. Cyclopropane derivatives with one or two activating groups are easily opened (see. p. 69f.). Some of these reactions are highly regio- and stereoselective (E. Wenkert, 1970 A, B E. J. Corey, 1956 A, B, 1975 see p. 70). Many appropriately substituted cyclopropane derivatives yield 1,4-difunctional compounds under mild nucleophilic or reductive reaction conditions. Such compounds are especially useful in syntheses of cyclopentenone derivatives and of heterocycles (see also sections 1.13.3 and 4.6.4). 

Oxidative rearrangement takes place in the oxidation of the 1-vinyl-l-cyclo-butanol 31, yielding the cyclopentenone derivative 32[84], Ring contraction to cyclopropyl methyl ketone (34) is observed by the oxidation of 1-methylcyclo-butene (33)[85], and ring expansion to cyclopentanone takes place by the reaction of the methylenecyclobutane 35. [86,87]... 

The chemoselective desilylation of one of the two different silyi enoi ethers in 10 to give the monosilyl enol ether II is realized by the Pd-catalyzed reaction of Bu3SnF. The chemoselectivity is controlled by steric congestion and the relative amount of the reagent[7,8]. An interesting transformation of the 6-alkoxy-2,3-dihydro-6//-pyran-3-one 12 into the cyclopentenone derivative 13 proceeds smoothly with catalysis by Pd(OAc)2 (10 mol%)[9]. 

In the case of cyclopentenone derivatives introduction of a substituent at the 2-position reduces the yield of 1,4-adduct. 

Conjugate addition of enolate anions to a, jS-unsaturated sulphoxides followed by a sulphoxide- ketone transformation were used for the preparation of 1,4-dicarbonyl compounds and cyclopentenone derivatives (equation 355)648. 

When methyltriflone 248 was treated with two equivalents of n-butyllithium at — 50 °C in THF, a, a-dianion 249 is formed. After methylation of this dianion, further treatment with two equivalents of n-butyllithium gives the a, a -dianion 250. This dianion can be alkylated at the terminal carbon atom, like the dianions from ketosulfones. On reaction with three equivalents of n-butyllithium, 248 gives a, a, a -trianion 251 which, upon methylation with methyl iodide, afforded methylated product 252. Hendrickson and Palumbo328 prepared cyclopentenone derivatives using 248 as the starting material. 

Table 5 Selected examples of cyclopentenone derivatives 107 and 108 formed from complexes 100a,b in moist solvents (see Scheme 22)...

Diastereoselective and enantioselective [3C+2S] carbocyclisations have been recently developed by Barluenga et al. by the reaction of tungsten alkenylcarbene complexes and enamines derived from chiral amines. Interestingly, the regio-chemistry of the final products is different for enamines derived from aldehydes and those derived from ketones. The use of chiral non-racemic enamines allows the asymmetric synthesis of substituted cyclopentenone derivatives [77] (Scheme 30). 

Another example of a [4S+1C] cycloaddition process is found in the reaction of alkenylcarbene complexes and lithium enolates derived from alkynyl methyl ketones. In Sect. 2.6.4.9 it was described how, in general, lithium enolates react with alkenylcarbene complexes to produce [3C+2S] cycloadducts. However, when the reaction is performed using lithium enolates derived from alkynyl methyl ketones and the temperature is raised to 65 °C, a new formal [4s+lcj cy-clopentenone derivative is formed [79] (Scheme 38). The mechanism proposed for this transformation supposes the formation of the [3C+2S] cycloadducts as depicted in Scheme 32 (see Sect. 2.6.4.9). This intermediate evolves through a retro-aldol-type reaction followed by an intramolecular Michael addition of the allyllithium to the ynone moiety to give the final cyclopentenone derivatives after hydrolysis. The role of the pentacarbonyltungsten fragment seems to be crucial for the outcome of this reaction, as experiments carried out with isolated intermediates in the absence of tungsten complexes do not afford the [4S+1C] cycloadducts (Scheme 38). 

Other examples of [2C+2S+1C0] cycloaddition reactions have been described by Herndon et al. by the use of chromium cyclopropyl(methoxy)carbenes. These complexes react with alkynes releasing ethene and forming cyclopenta-dienone derivatives, which evolve to cyclopentenone derivatives in the presence of chromium(O) and water [122] (Scheme 76). This reaction has been extended to intramolecular processes and also to the synthesis of some natural products [123]. These authors have also described another process involving a formal [2C+2S+1C0] cycloaddition reaction. Thus, the reaction of methyl and cyclo-propylcarbene complexes with phenylacetylene derivatives does not afford the expected benzannulated products, and several regioisomers of cyclopentenone derivatives are the only products isolated [124] (Scheme 76). 

Chromium cyclopropylcarbene complexes react with alkynes to provide cyclopentenone derivatives in a formal [2c+2s+lCo] cycloaddition process (see Sect. 3.2). However, tungsten and molybdenum cyclopropylcarbene complexes... 

It should be noted that the kinetics were first-order over at least three half-lives (with the exception of the dicyclopropylcarbonium ion), but the reaction products were not well defined in some cases— probably due to relatively fast consecutive reactions of the unsatmated oxocarbonium ions formed. In the case of the oxocarbonium ions formed from the allyl cations a novel quantitative eyclization to give cyclopentenone derivatives was observed (Hogeveen and Gaasbeek, 1970) ... 

The reaction of alkenes with alkenes or alkynes does not always produce an aromatic ring. An important variation of this reaction reacts dienes, diynes, or en-ynes with transition metals to form organometallic coordination complexes. In the presence of carbon monoxide, cyclopentenone derivatives are formed in what is known as the Pauson-Khand reaction The reaction involves (1) formation of a hexacarbonyldicobalt-alkyne complex and (2) decomposition of the complex in the presence of an alkene. A typical example Rhodium and tungsten ... 

One of the best methods to synthesize cyclopentenone derivatives is the Pauson-Khand procedure. However, Shindo s group have recently developed a domino process consisting of a [2+2] cycloaddition of a ketone with anynolate, followed by a Dieckmann condensation to give a 3-lactone as 4-190 which is decarboxylated under reflux in toluene in the presence of silica gel to afford cyclopentenones [64a]. Thus, the reaction of 4-188 and 4-189 led to 4-190, which on heating furnished the linear cucumin 4-191 (Scheme 4.41). This natural product has been isolated from the mycelial cultures of the agaric Macrocystidia cucumis [65, 66]. The domino procedure described was also used to synthesize dihydrojasmone and a-cuparenone. Moreover, the [2+2] cycloaddition can be combined with a Michael reaction [64b]. 

The Michael addition of nitromethane to cyclopentenone derivatives is used for synthesis of prostaglandins (Scheme 4.20).158 Here, the anion of nitromethane is used as a formyl anion synthon. 

Because the a-nitroketones are prepared by the acylation of nitroalkanes (see Section 5.2), by the oxidation of (3-nitro alcohols (Section 3.2.3), or by the nitration of enol acetates (Section 2.2.5), denitration of a-nitro ketones provides a useful method for the preparation of ketones (Scheme 7.10). A simple synthesis of cyclopentenone derivatives is shown in Eq. 7.66.76... 

Allyl methylcarbonate reacts with norbornene following a ruthenium-catalyzed carbonylative cyclization under carbon monoxide pressure to give cyclopentenone derivatives 12 (Scheme 4).32 Catalyst loading, amine and CO pressure have been optimized to give the cyclopentenone compound in 80% yield and a total control of the stereoselectivity (exo 100%). Aromatic or bidentate amines inhibit the reaction certainly by a too strong interaction with ruthenium. A plausible mechanism is proposed. Stereoselective CM-carboruthenation of norbornene with allyl-ruthenium complex 13 followed by carbon monoxide insertion generates an acylruthenium intermediate 15. Intramolecular carboruthenation and /3-hydride elimination of 16 afford the -olefin 17. Isomerization of the double bond under experimental conditions allows formation of the cyclopentenone derivative 12. 

Among many other excellent methods, convergent three-component coupling, the consecutive linking of the a- and co-side chains to an unsaturated 4-hydroxy-2-cyclopentenone derivative, is the most direct and effective synthesis. 

In another example (Scheme 8), the intramolecular cycloaddition of an azido functionality onto an enone group afforded bicyclic derivatives with bridgehead iV atoms. The cyclopentenone derivative 28 afforded the indolizidinone 30 through the proposed compound 29 which might react through a diradical intermediate or through a betaine intermediate <2002TL5385>. 

D-Ribonolactone is a convenient source of chiral cyclopentenones, acyclic structures, and oxacyclic systems, useful intermediates for the synthesis of biologically important molecules. Cyclopentenones derived from ribono-lactone have been employed for the synthesis of prostanoids and carbocyclic nucleosides. The cyclopentenone 280 was synthesized (265) from 2,3-0-cyclohexylidene-D-ribono-1,4-lactone (16b) by a threestep synthesis that involves successive periodate oxidation, glycosylation of the lactol with 2-propanol to give 279, and treatment of 279 with lithium dimethyl methyl-phosphonate. The enantiomer of 280 was prepared from D-mannose by converting it to the corresponding lactone, which was selectively protected at HO-2, HO-3 by acetalization. Likewise, the isopropylidene derivative 282 was obtained (266) via the intermediate unsaturated lactone 281, prepared from 16a. Reduction of 281 with di-tert-butoxy lithium aluminum hydride, followed by mesylation, gave 282. 

This enzyme [EC 5.3.99.6] catalyzes the conversion of (9Z)-(135 )-12,13-epoxyoctadeca-9,ll,15-trienoate to (15Z)-12-oxophyto-10,15-dienoate. The allene oxides which are formed by the action of allene-oxide synthase [EC 4.2.1.92] are converted into cyclopentenone derivatives. 

The synthesis of thiiranes with subsequent elimination of sulfur is an important procedure for the creation of C=C bonds, especially for sterically crowded systems (47,48), in analogy to the Eschenmoser-sulfide-contraction reaction (116). The spontaneous elimination of sulfur was observed in the rhodium-catalyzed reaction of diazo compound 62, which gave rise to the formation of cyclopentenone derivative 63 (117) (Scheme 5.24). A synthesis of indolizomycin was published by Danishefsky and co-workers (118) and involved a similar annulation step. In this case, however, the desulfurization reaction was achieved by treatment with Raney Ni. 

Scheme 3 illustrates retrosynthetic analysis of the E and F series of PGs. The widely used Corey synthesis (2) takes notice of the presence of the two olefinic bonds in the side chains of PGF2a. The actual synthesis consists of a two-fold Wittig-type chain extension of a chiral dialdehyde equivalent with four defined stereogenic centers derived from cyclopentadiene via a series of bicyclic intermediates. A similar sequential synthesis has been developed at Upjohn Co. (la). These chemical syntheses are much more economical than enzymatic methods and are used for commercial synthesis of certain PGs. An alternative pathway pioneered by Sih is the conjugate addition approach (3). Nucleophilic addition of an E-olefinic co side-chain unit to a cyclopentenone in which the a side chain is already installed leads directly to PGE-type compounds. Untch and Stork used an co chain unit with a Z-olefinic bond (4). The most direct and flexible synthesis is the convergent three-component coupling synthesis via consecutive linking of the two side chains to unsubstituted 4-hydroxy-2-cyclopentenone derivatives (5, 6). 

The asymmetric Diels-Alder reaction of diene and cyclopentenone derivatives can be promoted by a chiral titanium catalyst prepared in situ from (Pr 0)2TiCl2 and a tartrate-derived o.,a,a, a -tetraalkyl-l,3-dioxolane-4,5-dimethanol [54] (Eq. 8A.31). The resulting adducts can easily be tranformed to estrogens and progestogens. 

Weidler M, Rether J, Anke T, Erkel G, Sterner O (2001) New Bioactive Cyclopentenone Derivatives as Inhibitors of the IL-6 Dependent Signal Transduction. J Antibiot 54 679... 

Insertion of CO to the metallacyclopentenes 197 and 198 formed from enynes and metal complexes offers a useful synthetic route to the cyclopentenone derivatives 199 and 200. This [2+2+1] cycloaddition mediated by Co2(CO)8 is called the Pauson-Khand reaction [80], Both inter- and intramolecular versions are known. 

Facile addition of either alcohols or amines to carbene complex 288 produces the / -am i n o-a, /i-unsaturated carbene complexes 289, which are useful for the preparation of cyclopentenone derivatives. Insertion of alkyne to 289 gives the 1,3-dienylcarbene complex 290, and its formal [3+2] cycloaddition gives cyclopentadiene 291. Under different conditions, [2+2+1] cycloaddition of vinylketene 292 produces the 5-methylene-2-cyclopentenone derivative 293 [88], The cyclopentenone 295, isomeric to 293, was obtained by the reaction of complex 294 with trimethylsilylacetylene, and oudenone (296) was synthesized by its hydrolysis [89]. 

Kaida, Y. and Okamoto, Y. (1992) Efficient optical resolution of 4-hydroxy-2-cyclopentenone derivatives by HPLC on 1-phenylethylcarbamates of cellulose and amylose, Chem. Lett., 85-88. 

Butyrolactones are used in the synthesis of cyclopentenone derivatives 362 364). 3-Phenyl-1-propanol can be produced from styrene and formaldehyde 366). 

Cycloaddition under thermolytic conditions is another route to tricyclic /3-lactams. The 1,3-dipolar cycloaddition of oxazolidinone 98 with /V-phenylmaleimide to give 100 has been described (see Section 2.04.6.3). In a sealed tube at 100 °C the oxazolidinone 98 reacts with a cyclopentenone derivative to give the tricyclic isomers 378 and 379 in the yield ratio of 4 1 (Equation 52) <1999JHC1365>. 

Murakami and Ito have highlighted the utility of cationic Me-DuPhos-Rh catalysts for novel asymmetric (4 + 1) cycloaddition reactions between vinylallenes and carbon monoxide.68 Complex cyclopentenone derivatives such as 64 have been constructed in a single step and with enantiose-lectivities up to 95% in this process (Scheme 13.22). 

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