Phthalazine reactions

Upon nitration of phthalazines a nitro group is introduced only into the carbocyclic ring. Side reactions occur frequently. For example, nitration of phthalazine or its 1-methyl analog with potassium nitrate in concentrated sulfuric acid gives the 5-nitro derivative (100) as the main product together with 5-nitrophthalazin-l(2H)-one (101) as a by-producf (Scheme 27). 

Since the pyridazine ring is generally more stable to oxidation than a benzene ring, oxidation of alkyl and aryl substituted cinnolines and phthalazines can be used for the preparation of pyridazinedicarboxylic acids. For example, oxidation of 4-phenylcinnoline with potassium permanganate yields 5-phenylpyridazine-3,4-dicarboxylic acid, while alkyl substituted phthalazines give pyridazine-4,5-dicarboxylic acids under essentially the same reaction conditions. 

In a similar manner to the formation of pyridazines from AT-aminopyrroles, cinnolines or phthalazines are obtainable from the corresponding 1-aminooxindoles or 2-amino-phthalimides. If the relatively inaccessible 1-aminooxindoles are treated with lead tetraacetate, mercuric acetate, r-butyl hypochlorite (69JCS(C)772) or other agents, cinnolones are formed as shown in Scheme 105. The reaction was postulated to proceed via an intermediate... 

Hydroxyphthalazin-l(2//)-one is obtained in a smooth reaction between phthalic anhydride and hydrazine hydrate and this is again the starting compound for many 1-substituted and/or 1,4-disubstituted phthalazines. The transformations of 1,4-dichloro-phthalazine, which is prepared in the usual manner, follow a similar pattern as shown for pyridazines in Scheme 110. On the other hand, phthalonitrile is the preferential starting compound for amino- and hydrazino-phthalazines. The most satisfactory synthesis of phthalazine is the reaction between a,a,a, a -tetrachloro-o-xylene and hydrazine sulfate in sulfuric acid (67FRP1438827), alt iough catalytic dehalogenation of 1-chloro- or 1,4-dichloro-phthalazine or oxidation of 1-hydrazinophthalazine also provides the parent compound in moderate yield. 

Reissert type reaction, 3, 25 Phthalazine, tetrahydro-synthesis, 3, 44 Phthalazinediones in synthesis of (3S,5S)-5-... 

Phthalazine-1,4-diones reactions, 3, 39 Phthalazines applications, 3, 56 isoindoles from, 4, 152 mass spectra, 2, 21 metabolism, 1, 233 N-oxidation, 3, 20 nitration, 3, 22 nucleophilic attack, 3, 25 oxidation, 3, 31... 

Phthalazin-1 (2H)-one, 4-hydroxy-2-methyl-methylation, 3, 17 Phthalazin-l(2H)-one, 4-methoxy-methylation, 3, 17 Phthalazinones in thermography, 1, 392 Phthalazin-l(2H)-ones alkylation, 3, 17 reaction... 

An ingenious synthesis of 1-arylisoindolcs has been developed by Vebor and Lwowski, based upon the reaction of an o-phthalimido-methylbenzophenone (41, R = aryl) with hydrazine (Table IV). The benzophenone is prepared by a Friedel-Crafts reaction with o-phthalimidomethylbenzoyl chloride (40). The mechanism of isoindole formation can be represented sehematically by a sequence involving attack by hydrazine at the imide to give the ring-opened hj drazide (42), followed by cyclization to phthalazine-l,4-dione (44) with displacement of the o-aminomethylbenzophenone (43). Intramolecular condensation of the latter can lead, via the isoindolenine... 

There has been much interest recently in the reaction of a, o)-di-halogenoalkanes. 1,2-Dibromoethane reacts with phthalazine to give ethane 1,2-bis-phthalazinium dibromide (1), none of the mono salt being formed directly, but the same dibromo compound and a, a -dipyridyl give the cyclic compound 2. ... 

The catalytic effect of protons has been noted on many occasions (cf. Section II,D,2,c) and autocatalysis frequently occurs when the nucleophile is not a strong base. Acid catalysis of reactions with water, alcohols, mercaptans, amines, or halide ions has been observed for halogeno derivatives of pyridine, pyrimidine (92), s-triazine (93), quinoline, and phthalazine as well as for many other ring systems and leaving groups. An interesting displacement is that of a 4-oxo group in the reaction of quinolines with thiophenols, which is made possible by the acid catalysis. 

The much more reactive 2,3-dihydro-l,4-phthalazine 248, on reaction with five equivalents of benzylamine, HMDS 2, and (NH4)2S04 for 24 h at 160°C, furnishes the bis-aminated product 249 in 87% yield [27] (Scheme 4.26). 

Subsequently, stoichiometric asymmetric aminohydroxylation was reported.78 Recently, it was found by Sharpless79 that through the combination of chloramine-T/Os04 catalyst with phthalazine ligands used in the asymmetric dihydroxylation reaction, catalytic asymmetric aminohydroxylation of olefins was realized in aqueous acetonitrile or tert-butanol (Scheme 3.3). The use of aqueous rerr-butanol is advantageous when the reaction product is not soluble. In this case, essentially pure products can be isolated by a simple filtration and the toluenesulfonamide byproduct remains in the mother liquor. A variety of olefins can be aminohydroxylated in this way (Table 3.1). The reaction is not only performed in aqueous medium but it is also not sensitive to oxygen. Electron-deficient olefins such as fumarate reacted similarly with high ee values. 

The isomeric pyrimido[2,l-tf]phthalazine 121 and its partly saturated analogue 122 could also be synthesized by a RDA reaction, analogously to 118, starting from 115 and aroylbenzoic acid or fA-2-aroylcyclohexanecarboxylic acid, respectively <2001J(P1)558>. 

Palladium-catalyzed hydroarylation of sterically hindered PTAD adduct 157 with aryl halides in the presence of triphenylarsine, sodium acetate, and DMSO provides a 1 1 mixture of 170 and 171. The same reaction done with sodium fluoride and formic acid provides mixtures containing 171 as the major product. Apparently, the use of sodium fluoride as a base allows the selective formation of the opening products 171 in good yields (Equation 19). Similarly, the 2,3-phthalazine-l,4-dione adduct 172 provides the corresponding products 173 and 174 (Equation 20) <2002AGE3375>. 

It is the combination of exceptional reactivity and reasonable stability, either as a solid or in solution, that makes PTAD such an ideal dienophile. However, PTAD is decomposed to N2, CO and phenyl isocyanate by the action of UV light.61 The cyclic ADC compounds (6-23) all undergo the Diels-Alder reaction, although with the exception of phthalazine-l,4-dione (13, R = H), they have been used only occasionally. l,3,4-Thiadiazole-2,5-dione (11) is of comparable reactivity to PTAD,38 but like the other cyclic compounds (6-23) has the slight disadvantage in that it has to be generated in situ. 

Indene, however, does give four-membered ring adducts with PTAD,69 and phthalazine-t,4-dione.70 The reaction with PTAD proceeds stepwise via the dipolar intermediate 43, which was trapped in the presence of water to give 44, under conditions in which the 1,2-diazetidine (45) was not opened by water to 44 (Scheme 5).69 Hydrolytic cleavage of the triazole ring in 45 using potassium rm-butoxide in wet dimethyl sulfoxide, followed by... 

The diazines pyridazine, pyrimidine, pyrazine, and their benzo derivatives cinnoline, phthalazine, quinazoline, quinoxaline, and phenazine once again played a central role in many investigations. Progress was made on the syntheses and reactions of these heterocycles, and their use as intermediates toward broader goals. Some studies relied on solid-phase, microwave irradiation, or metal-assisted synthetic approaches, while others focused attention more on the X-ray, computational, spectroscopic, and natural product and other biological aspects of these heterocycles. Reports with a common flavor have been grouped together whenever possible. 

Sydnonimimes are prepared in a similar way to sydnones (Section 5.03.9.2) but rely on the availability of the appropriate aminonitrile (Scheme 8) <2002CRV1091>. Substituted dihydro- and tetrahydrophthalazine 122 and 124, formed from phthalazine by modification of the Reissert reaction, were converted to the novel sydnonimines 123 and 125 (Equation 22) <1995JHC643>. 

Similar chemistry was used to synthesize pyridyl(methyl)phthalazines, 193, inhibitors of the VEGF receptor tyrosine kinase. The active inhibitors 193 were formed by condensation of 192 with hydrazine, followed by POCI3 chlorination. <00JMC2310>. Furthermore, a simple substitution reaction with p-chloroaniline gave anilinophthalazine 194. 

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