Synthesis of Carbolines via Microwave‐Assisted Cadogan Reactions of Aryl‐Nitropyridines

Limbach, Daniel; Geffe, Mario; Detert, Heiner

doi:10.1002/slct.201702964

Cited by 16 publications

(8 citation statements)

References 77 publications

(5 reference statements)

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“…Interestingly, the obtained compounds 6 – 32 were found to have no bromine atom at the 5-position of the thiazole ring. A reasonable explanation is that the bromine at the 5-position was reduced in the Arbuzov reaction procedure due to the known reducibility of triethyl phosphite [ 29 ]. Taking intermediate 4b (X = Cl) as an example to confirm this result, the corresponding phosphonate 5b bearing no bromine atom at the 5-position of thiazole was isolated and identified.…”

Section: Resultsmentioning

confidence: 99%

Design, Synthesis and Cytotoxicity of Thiazole-Based Stilbene Analogs as Novel DNA Topoisomerase IB Inhibitors

et al. 2022

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A series of new thiazole-based stilbene analogs were designed, synthesized and evaluated for DNA topoisomerase IB (Top1) inhibitory activity. Top1-mediated relaxation assays showed that the synthesized compounds possessed variable Top1 inhibitory activity. Among them, (E)-2-(3-methylstyryl)-4-(4-fluorophenyl)thiazole (8) acted as a potent Top1 inhibitor with high Top1 inhibition of ++++ which is comparable to that of CPT. A possible binding mode of compound 8 with Top1–DNA complex was further provided by molecular docking. An MTT assay against human breast cancer (MCF-7) and human colon cancer (HCT116) cell lines revealed that the majority of these compounds showed high cytotoxicity, with IC50 values at micromolar concentrations. Compounds 8 and (E)-2-(4-tert-butylstyryl)-4-(4-fluorophenyl)thiazole (11) exhibited the most potent cytotoxicity with IC50 values of 0.78 and 0.62 μM against MCF-7 and HCT116, respectively. Moreover, the preliminary structure–activity relationships of thiazole-based stilbene analogs was also discussed.

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Section: Resultsmentioning

confidence: 99%

Design, Synthesis and Cytotoxicity of Thiazole-Based Stilbene Analogs as Novel DNA Topoisomerase IB Inhibitors

et al. 2022

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“…The possible route for the formation of naphthonitriles 6 could be explained based on the investigation done by Wentrup, [19] suggesting this formation could be due to the exchange of endo‐ and exocyclic nitrogen atoms in α‐pyridylnitrenes ( 3 a ). Further, based on his study, it can be proposed that the formation of such compound happen via nitrene intermediate ( 3 b ) leading to the opening of pyridine ring to produce a cyanobutadiene fragment with a nitrene substituent ( 3 d ), followed by addition of triethyl phosphate to form phosphineimine ( 3 e ) [20] . Thereafter, an intramolecular cyclization of butadienylbenzene takes place to produce cyanonaphthalene skeleton ( 3 f ), which finally undergoes the elimination of the iminophosphorane leading to the formation of naphthonitriles ( 6 ) as shown in Scheme 2.…”

Section: Mechanismmentioning

confidence: 99%

A Minireview on the Scope of Cadogan Cyclization Reactions Leading to Diverse Azaheterocycles

Kaur

Kumar

2022

Asian J Org Chem

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From the last two decades, Cadogan cyclization reaction is considered as one of the best routes for the preparation of various azaheterocycles comprising carbazoles, indoles, coumarins, carbolines, pyrazoloquinoxalines, S,N‐heterotetracenes from the nitro‐based substrates by using a variety of tetravalent phosphorus‐based reagents. To date the majority of Cadogan reactions are found to be intramolecular reactions, however, interestingly, a case of intermolecular Cadogan reaction is also reported, resulting in the widening of the reaction scope for futuristic perspectives. We report the Cadogan cyclization reactions for the synthesis of azaheterocycles from 2018 to present according to multiple classes of chemical frameworks including its scope (FDA approved drugs), along with the possibilities and mechanistic developments for unexpected products.

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“…An attempt was also made for the synthesis of α‐carbolines 181–18 4 from α‐nitro‐biarylpyridines (Scheme ), but the substrate was found to be inappropriate. However, naphthonitriles were obtained as main products along with small amount of dimethoxy‐α‐carbolines due to greater electron density and supposed to form via nitrene pathway …”

Section: Synthesis Of Heterocyclesmentioning

confidence: 99%

“…However, naphthonitriles were obtained as main products along with small amount of dimethoxy-a-carbolines due to greater electron density and supposed to form via nitrene pathway. [63]…”

Section: Construction Of Other Heterocyclesmentioning

confidence: 99%

C‐N and N‐N bond formation via Reductive Cyclization: Progress in Cadogan /Cadogan‐Sundberg Reactionǂ

Kaur

Kumar

2018

ChemistrySelect

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Cadogan/Cadogan‐Sundberg cyclization reaction has been reported as one of the most efficient routes for the synthesis of a wide variety of N‐heterocycles from the easily accessible starting materials such as o‐nitrobiaryls or o‐nitroarenes, o‐nitrostyrenes by treating with tetravalent phosphorus compounds (trialkyl or triaryl phosphines or trialkyl phosphites). The reaction has been successfully employed in Carbon‐Carbon as well as Carbon‐Nitrogen bond formation for the scaffolds like carbazole, indoles, coumarins, and indazoles. To the best of authors’ knowledge, the present review is the first compilation of the literature from almost two decades (2000 to present) on Cadogan/Cadogan‐Sundberg cyclization reaction, its scope, mechanistic aspects, and limitations.

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Synthesis of Carbolines via Microwave‐Assisted Cadogan Reactions of Aryl‐Nitropyridines

Cited by 16 publications

References 77 publications

Design, Synthesis and Cytotoxicity of Thiazole-Based Stilbene Analogs as Novel DNA Topoisomerase IB Inhibitors

Design, Synthesis and Cytotoxicity of Thiazole-Based Stilbene Analogs as Novel DNA Topoisomerase IB Inhibitors

A Minireview on the Scope of Cadogan Cyclization Reactions Leading to Diverse Azaheterocycles

C‐N and N‐N bond formation via Reductive Cyclization: Progress in Cadogan /Cadogan‐Sundberg Reactionǂ

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