301155-92-0Relevant academic research and scientific papers
Indoline Analogues of Idazoxan: Potent α2-Antagonists and α1-Agonists
Fagan, Gay P.,Chapleo, Christopher B.,Lane, Anthony C.,Myers, Malcolm,Roach, Alan G.,et al
, p. 944 - 948 (1988)
The synthesis and α-adrenergic activity of a series of substituted 2-imidazolinylindolines are described.Substitution in the indoline ring generated compounds with a spectrum of adrenoceptor antagonist/agonist profiles that proved sensitive to both the nature and position of the substituent.Many of the derivatives possess greater presynaptic antagonist potency that the corresponding benzodioxan 1, dihydrobenzofuran 2, and indan 3 analogues; however, this α2-antagonism is often accompanied by α1-agonist activity.It was not possible to separate α2-antagonist from α1-agonist properties in this series.Compounds of most interest proved to be the N-ethyl 6, 5-chloro-N-methyl 18 and 5-chloro-N-ethyl 23 derivatives, all being potent α2-antagonists and α1-agonists.Substitution at the 4- and 7-position of the indoline ring generally gave compounds with nonselective agonist properties.
Unexpected formation of quinolone derivatives in Reissert indole synthesis
Suzuki,Gyoutoku,Yokoo,Shinba,Sato,Yamada,Murakami
, p. 1196 - 1198 (2007/10/03)
The Reissert indole synthesis was found to unexpectedly give 3-hydroxy-1,2,3,4-tetrahydro-2-quinolone derivative 4, sometimes in a high ratio with the expected ethyl indole-2-carboxylate derivatives 3 in a low ratio, depending on the conditions of the catalytic reduction of the intermediate 2-nitrophenylpyruvate 2. This reactivity is characteristic in the preparation of 7-substituted indoles.
