Pyrazoles diketones

From Hydrazines and P-Bifunctional Compounds. One of the oldest examples in this class is the reaction of a p-diketone with a substituted hydrazine to give a pyrazole (eq. 1). 

Pyrazoles are formed when the diazo compounds react with alkynes or with functionalized alkenes, viz. the enols of /3-diketones. Pyrazolenines (353 Section 4.04.2.2.1) are isolated from disubstituted diazomethanes. Many pyrazoles, difficult to obtain by other methods, have been prepared by this procedure, for example 3-cyanopyrazole (616) is obtained from cyanoacetylene and diazomethane (7iJCS(C)2i47), 3,4,5-tris(trifiuoromethyl)pyrazole (617) from trifluorodiazoethane and hexafluoro-2-butyne (8lAHC(28)l), and 4-phenyl-3-triflylpyrazole (618 R =H) from phenyltriflylacetylene and diazomethane (82MI40402). An excess of diazomethane causes iV-methylation of the pyrazole (618 R = H) and the two isomers (618 R = Me) and (619) are formed in a ratio of 1 1. 

Hydrazoyl halides are useful reagents for the synthesis of pyrazolines and pyrazoles (80JHC833). The elimination of HX, usually with triethylamine, is now the preferred method for the generation of the nitrilimine (621) in situ. Although in some cases it is not clear if the mechanism involves a nitrilimine (621) (as for example in the Fusco method in which sodium salts of /3-diketones are used), in other reactions it is the most reasonable possibility. For example, the synthesis of pyrazolobenzoxazine (633) from the hydrazoyl halide (631) probably occurs via the nitrilimine (632). Trifluoromethylpyrazoles (634) have been prepared by the reaction of a hydrazoyl halide and an alkynic compound in the presence of triethylamine (82H(19)179). 

In these types of 1,3-dipolar cycloaddition only one of two possible isomers is obtained and the pyrazole functions have different orientations by the two methods. Another classical synthesis of pyrazoles (Section 4.04.3.2.l(ii)), the reaction between hydrazines and )3-diketones, has been used with success to prepare high molecular weight polypyrazoles (Scheme 65) (81MI40400). A-Arylation (Section 4.04.2.1.3(ix)) of 4,4 -dipyrazolyl with 1,4-diiodobenzene also yields polymeric pyrazoles (69RRC1263). 

Diketones with Diamines—qiiinazolines 11. Diketones with NH OH—isoxazolines 12. Diketones with NH NH,—pyrazoles 13. Diketones with semi-carbazide—pyrazoles 14. Diketones with ammonia—pyrazoles 15. Carbon disulfide with ammoacetamide—thiazolone 16. Nitriles and ethylene diamines—imidazolines D D D D D A D ... 

A recent paper by Singh et al. summarized the mechanism of the pyrazole formation via the Knorr reaction between diketones and monosubstituted hydrazines. The diketone is in equilibrium with its enolate forms 28a and 28b and NMR studies have shown the carbonyl group to react faster than its enolate forms.Computational studies were done to show that the product distribution ratio depended on the rates of dehydration of the 3,5-dihydroxy pyrazolidine intermediates of the two isomeric pathways for an unsymmetrical diketone 28. The affect of the hydrazine substituent R on the dehydration of the dihydroxy intermediates 19 and 22 was studied using semi-empirical calculations. ... 

A solventless synthesis of pyrazoles, a green chemistry approach, has been described where an equimolar amount of the diketone and the hydrazine are mixed in a mortar with a drop of sulfuric acid and ground up. After an appropriate length of time ( 1 h) the product is purified to provide clean products. Even acyl pyrazoles 42 were obtained under the solvent-less reaction conditions in good yields. 

Sanofi-Synthelabo researchers discovered pyrazole 53 and analogs to have potent Cannabinoid receptor-1 (CB-1) antagonist/inverse agonist activity and have progressed 53 into development for treatment of obesity and alcohol dependence. The synthesis of 53 was accomplished by heating the diketone sodium salt 51 with the aryl hydrazine hydrochloride in acetic acid to provide the intermediate 52, which was further derivatized... 

Application of the Knorr pyrazole synthesis has also been demonstrated on solid support. ° To prepare trisubstituted pyrazoles, the diketone was linked to the solid support to make 57 using a linker with an amide bond. Alkylation of the diketone followed by condensation of the hydrazine with the resulting diketone gave the desired pyrazoles as mixtures of isomers. Subsequent cleavage of the amide bond linker then provided the pyrazole amides 59. ... 

A similar strategy has been used to prepare pyrimidines, as well as pyra-zoles and isoxazoles by reacting the enamine intermediate with a variety of bidentate nucleophiles [78]. Microwave irradiation of a cyclic 1,3-diketone 49 and acetal 45 in water generated the corresponding enaminoketone 50 in situ which reacted with amidines, substituted hydrazines or hydroxylamine in only 2 min in a one-pot process to give 4-acylpyrimidines, pyrazoles or isoxazoles, respectively (Scheme 20). 

Different approaches towards pyrazoles have been described using microwave-accelerated cyclizations. A classical approach to pyrazoles is the cyclization of a j6-diketone with hydrazines. A series of 5-trichloromethyl-pyrazoles 58 and pyrazolium chlorides 59 were synthesized by reaction of a 4-methoxy-trihalo-3-alken-one 57 with differently substituted hydrazines (Scheme 19). The use of microwave and conventional heating for making pyrazoles gave... 

Osazones are particularly important in carbohydrate chemistry. In contrast to this behavior, P-diketones and P-keto esters give pyrazoles and pyrazolones, respectively (illustrated for P-keto esters) ... 

Synthesis of pyrazole 3 by the Medicinal Chemistry route was straightforward from N-Boc isonipecotic acid (45), so we utilized the route after some optimizations, as summarized in Table 2.4. The key 1,3-diketone intermediate 48 was prepared from 45 without issues. A minor problem in the original route was the exothermic nature of the Claisen condensation between methyl ketone 47 and methyl phenylacetate. Slow addition of l.lequiv of methyl phenylacetate to a mixture of 47, 0.2equiv of MeOH, and 2.5equiv of NaH in THF at room temperature solved this exothermic issue and reduced the amount of self-condensation of... 

More recently, Molteni and co-workers have described the three-component, one-pot synthesis of fused pyrazoles by reacting cyclic 1,3-diketones with N,N-dimethyl-... 

A somewhat related approach was followed by Molteni and coworkers, who have described the three-component, one-pot synthesis of fused pyrazoles by reacting cyclic 1,3-diketones with DMFDMA and a suitable bidentate nucleophile, such as a hydrazine derivative (Scheme 6.195) [357]. Again, the reaction proceeds by initial formation of an enamino ketone as the key intermediate from the 1,3-diketone and DMFDMA precursors, followed by a tandem addition-elimination/cydodehydration step. The details of this reaction, carried out in superheated water as solvent, have been described in Section 4.3.3.1. 

Szczepaikiewicz et al. [85] reported the synthesis of pyrazoles (e.g., 167) from the diketone 168 with hydrazine hydrate, shown in Scheme 43. Nigram et al. executed a similar synthetic sequence [86]. 

Carbon disulphide should not be used as the solvent for alkylation of fS-diketones, as the carbanion reacts preferentially with the solvent to generate the dithiocarboxyl-ate derivative, which undergoes mono- and dialkylation (Scheme 6.9) [95]. Ketene thioacetals have also been isolated from acetophenones (60-80%) and cyclopenta-diene (80%) using an ultrasound technique in carbon disulphide [96] and, in a similar manner, pyrazol-5-ones form pyrazole-4-dithiocarboxylic esters [97]. 

An intramolecular aza-Wittig reaction of 1,3-diketones (134) and hydra-zinobis(iminophosphoranes) (133) gives pyrazole (135) on elimination of two equivalents of triphenylphosphane oxide, as shown in Scheme 53 (75CB623). 

Dioximes are known to generate isoxazoles and related compounds when oxidized with IBTA. However, these reactions are of limited use because of formation of side products. For example, oxidation of dioximes of /B-diketones 159 gives rise to a mixture of 3,5-disubstituted oxazoles 160 and pyrazole-di-N-oxides 161 (82MI1). In another case, oxidation of dioximes 162 affords a mixture of the isomeric dihydroisoxazolo-isoxazoles 163 and pyridazine dioxides 164 (76S837 79JOC3524 82MI1). 

The reactivity of the keto group is not influenced by the substitution the reaction of 3-(trifluoromethylmercapto)-2-butanone with hydroxyl-amine hydrochloride gives the corresponding oxime in good yield. Cyclization of diketones and keto esters to pyrazole derivatives succeeds by the well-known method using phenylhydrazine ... 

Pyrazoles were obtained from corresponding 2-hydroxy(or aIkoxy-)imino-1,3-diketones or related ketoesters and hydrazine . Thus, reaction of oximes 112 with hydrazine in ethanol afforded aminopyrazoles 113 in 48-95% yields (equation 48) . Interaction of... 

The resin-bound 1,3-oxazinium salt 116, obtained by oxidation of 4//-l,3-oxazines 115 with 2,3-dicyano-5,6-dichloro-p-benzoquinone (DDQ), behaved as /3-diketone equivalents and formed pyrazoles 117 through a functionalizing release process on treatment with hydrazines (Scheme 18). When the hydrazines were substituted (R = Me, Ph), the oxazinium salts reacted selectively to afford one regioisomer 117 <2004JC0846>. 

These methods are limited in scope. Direct thiation has been reported for the transformation of vicinal diketones to [3,4]-annelated thiophenes <1996CHEC-II(7)49>. Thionations and selenations of vicinal halomethyl ketones with thioacetamide or iV,iV-diethylselenopropionamide as sulfur and selenium donors, respectively, have also been reported <1996CHEC-II(7)49>. In a recent example, thieno[3,4-f]pyrazoles 160 were readily prepared from aryl 5-bromomethyl-l//-l-phenylpyrazole-4-yl ketones 159 by reaction with thioacetamide (Equation 35) <1998JHC71>. Additionally, an example of an amination cyclization by reaction of 161 with benzylamine to afford pyrrolo[3,4-i/ thiazole 162 has been described (Equation 36) <1998JHC71>. 

A range of fluorinated pyrazolo[3,4- ]pyridines have been prepared by cyclization of pyrazoles with P-diketones (Equation 55 Table 31) <2004SC4359>. 

Amino-l-(p-toluenesulfonyl)pyrazole condenses with -diketones to yield acylaminocrotonate derivatives. These cyclize to pyrazolo[l,5-a]pyrimidines... 

Isoxazole and pyrazole synthesis While 1,3-diketones undergo condensation with hydroxylamine to produce isoxazoles, with hydrazine they yield corresponding pyrazoles. 

The most widely used method for the synthesis of 4//-pyrazoles employs 2,2-disubstituted 1,3-diketones and hydrazine. Other useful methods include the reaction between l//-pyrazoIes and electrophiles, the transformation of pyrazolone derivatives, and thermal rearrangements of 3//-pyrazoles. 

The reaction between 1,3-dicarbonyl compounds 1 and hydrazines is the most general method for preparing l//-pyrazoles 2 (Scheme 2).2-4,5 If a 2,2-disubstituted 1,3-diketone is employed (1 R3, R4 H), reaction with hydrazine hydrate gives instead a 4//-pyrazole 3, as was first reported by Knorr.Sa Generally, the reactants are heated under reflux in a solvent such as methanol, ethanol, benzene, or carbon tetrachloride yields range from 50% to quantitative. 

---