Total synthesis of homo- and heterodimeric bispyrrolidinoindoline dioxopiperazine natural products
DATE:
2021-06-25
UNIVERSAL IDENTIFIER: http://hdl.handle.net/11093/2868
EDITED VERSION: https://pubs.acs.org/doi/10.1021/acs.jnatprod.0c01273
UNESCO SUBJECT: 2306.92 Síntesis y Estructura de Productos Naturales
DOCUMENT TYPE: article
ABSTRACT
Total synthesis and structural confirmation of homo- and heterodimeric bispyrrolidinoindoline dioxopiperazine alkaloids isolated from fungi and bacteria, namely, ditryptoleucine A, ditryptoleucine B (11), the N,N′-bis-demethylated analogue (+)-12, (−)-dibrevianamide F (13), (−)-SF-5280-451 (14), tetratryptomycin A (15), (−)-tryprophenaline (17), and (−)-SF-5280-415 (18), has been carried out starting from the corresponding bispyrrolidinoindolines derived from tryptophan. Our efforts to synthesize all possible diastereomers of the natural ditryptoleucine isolates uncovered structural factors that determine the rate and efficiency of dioxopiperazine ring formation, leading in some cases to mixtures of diastereomers by concomitant epimerization, to the formation of their putative monomeric dioxopiperazine dipeptide biogenetic precursors, and to the alternative formation of a dimer with a fused 1,3,5-triazepan-6-one heterocycle.