Bardoxolone methyl (1) is the archetypal member of triterpenoid cyanoacrylates, an emerging class of bioactive compounds capable of transient covalent binding to thiols. The mechanistic basis for this unusual “pulsed reactivity” profile and the mode of its biological translation are unknown. To provide clues on these issues, a series of 1-dehydrooleanolates bearing an electron-withdrawing group at C-2 (7a-m) were prepared from oleanolic acid (3a), +and comparatively investigated in terms of reactivity with thiols and bioactivity against a series of electrophile-sensitive transcription factors (Nrf2, NF-B, STAT3). The emerging picture suggests that the triterpenoid scaffold sharply decreases the reactivity of the enone system by steric encoumbrance, and that only strongly electrophilic and sterically undemanding substituents like a cyanide or a carboxylate group can re-establish Michael reactivity, albeit in a transient way for the cyanide group. In general, a substantial dissection between the thiol trapping ability and the modulation of biological end-points sensitive to thiol alkylation was observed, highlighting the role of shape complementarity for the activity of triterpenoid thia-Michael acceptors.
Electrophilic Triterpenoid Enones: A Comparative Thiol-Trapping and Bioactivity Study / Del Prete, Danilo; TAGLIALATELA SCAFATI, Orazio; Minassi, Alberto; Sirignano, Carmina; Cruz, Cristina; Bellido, Maria L.; Munoz, Eduardo; Appendino, Giovanni. - In: JOURNAL OF NATURAL PRODUCTS. - ISSN 0163-3864. - 80:8(2017), pp. 2276-2283. [10.1021/acs.jnatprod.7b00271]
Electrophilic Triterpenoid Enones: A Comparative Thiol-Trapping and Bioactivity Study
TAGLIALATELA SCAFATI, ORAZIO;SIRIGNANO, CARMINA;
2017
Abstract
Bardoxolone methyl (1) is the archetypal member of triterpenoid cyanoacrylates, an emerging class of bioactive compounds capable of transient covalent binding to thiols. The mechanistic basis for this unusual “pulsed reactivity” profile and the mode of its biological translation are unknown. To provide clues on these issues, a series of 1-dehydrooleanolates bearing an electron-withdrawing group at C-2 (7a-m) were prepared from oleanolic acid (3a), +and comparatively investigated in terms of reactivity with thiols and bioactivity against a series of electrophile-sensitive transcription factors (Nrf2, NF-B, STAT3). The emerging picture suggests that the triterpenoid scaffold sharply decreases the reactivity of the enone system by steric encoumbrance, and that only strongly electrophilic and sterically undemanding substituents like a cyanide or a carboxylate group can re-establish Michael reactivity, albeit in a transient way for the cyanide group. In general, a substantial dissection between the thiol trapping ability and the modulation of biological end-points sensitive to thiol alkylation was observed, highlighting the role of shape complementarity for the activity of triterpenoid thia-Michael acceptors.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.