5- Azaindole

Azaindoles formation, 2, 599 NMR, 4, 499 1-Azaindolizine nucleophilic attack, 4, 458 1-Azaindolizine, 5-chloro-reaction with alkoxides, 4, 458... 

Pyrrolo[2,3-c]pyridines — see also 6-Azaindoles reaction with O-mesitylhydroxylamine, 4, 508 synthesis, 4, 516, 522 tautomerism, 4, 502 UV spectra, 4, 501... 

Pyrrolo[3,2-6]pyridines — see also 4-Azaindoles hydrogen exchange, 4, 502 quatemization, 4, 503 synthesis, 4, 527... 

Indolization of 3-pyridylhydrazone 65(67) gives 4-azaindole 66(69) as the major product. ... 

When the benzamide derivative of 3-picoline 17 was subjected to the cyclization conditions with -BuLi, the reaction failed to yield the desired indole 18. However, when -BuLi was replaced by LDA, the desired azaindole 18 was isolated in 22% yield." ... 

AHCS1, p. 528). Ab initio (STO-3G) calculations of the geometry, eharge distribution, and gas-phase basieity of azaindoles eoneluded that the strueture of five-membered ring is almost unaffeeted by the position of the aza-N atom (83T2851). 

In agreement with the previous data on the protonation site in azaindoles (76AHCS1, p. 529), an example of monoprotonation of 3-aryl substituted 6-azaindoles at the pyridine ring has been demonstrated by UV speetroseopy [88JCS(P2)1839]. 

Indazoles can be considered as either azaindoles or azaisoindoles depending on the reader s prejudice. Benzydamine (54) represents a drug with this heterocyclic nucleus. Alkylation of the amine of anthranilic acid methyl ester with benzyl chloride in the presence of sodium acetate gives 52. Treatment with nitrous acid leads to the nitrosoamine, which cyclizes spontaneously to the 3-ketoindazole system, 53. This intermediate forms an ether of its enol form on heating the sodium salt with 3-dimethylaminopropyl chloride. There is thus obtained benzydamine (54), a fairly potent nonsteroidal antiinflammatory agent with significant antipyretic and analgesic properties. 

A similar synthesis starting with l-(2-nitrobenzyl)pyrrol-2-aldehyde used ethanol-ethyl acetate as solvent (62). Indoles are prepared in excellent yield by hydrogenation of o-nitrobenzyl ketones over Pd-on-C (i). Azaindoles are correspondingly prepared from nitropyridines (97). 

At its best, the study of solvent kies by the formalism given can be used to learn about proton content and activation in the transition state. For this reason it is known as the proton inventory technique. The kinetics of decay of the lowest-energy electronic excited state of 7-azaindole illustrates the technique.25 Laser flash photolysis techniques (Section 11.6) were used to evaluate the rate constant for this very fast reaction. From the results it was suggested that, in alcohol, a double-proton tautomerism was mediated by a single molecule of solvent such that only two protons are involved in the transition state. In water, on the other hand, the excited state tautomerism is frustrated such that two water molecules may play separate roles. Diagrams for possible transition states that can be suggested from the data are shown, where of course any of the H s might be D s. 

Rate constants" for the excited state decay of 7-azaindole in H/D solvent mixtures... 

This synthetic process is applicable to the preparation of other aromatic nitriles from aldehydes. The submitters have used it to prepare 5-bromoindole-3-carbonitrile, 7-azaindole-3-carboni-trile, j)-chlorobenzonitrile, 3,4,5-trimethoxybenzonitrile, and p-N,N-dimethylaminobenzonitrile.9 There are several advantages to its use. They include (a) readily available and inexpensive reagents, (b) a simple, time-saving procedure, and (c) fair to good yields of nitrile obtained by a one-step method. 

More recently, the utility of the indole group as a scaffold for cannabinoid agonists has been demonstrated by a number of new patent applications appearing in the literature (286)-(290) [187-190]. Of particular note is compound (286) that is reported to have 18-fold selectivity for the CBi receptor (CBp Ki — 0.08 nM CB2 Ki — 1.44nM). In addition to the indole scaffold, a number of patent applications by AstraZeneca claim indole-like scaffolds such as benzimidazoles (289) [191-193] and azaindoles (290) [194]. Although these compounds bind to both CBi and CB2 receptors, the inventors claim that they may be useful in treating diseases without the associated CNS side effects. 

Additional combinatorial variation sites allow the heterocyclic self-assembly units. Thus, it has been shown that heterocycles 11 and 14-17 can serve as A-analogous donor-acceptor ligands self-assembling with the T-analogous acceptor-donor ligands isoquinolone 12 and 7-azaindole 18 (Scheme 30) [92]. All combinations form the heterobidentate ligands exclusively upon simple mixing in the presence of a transition metal salt (proven by X-ray, NMR). 

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