Terpestacin and Its Derivatives: Bioactivities and Syntheses.

Abstract

Terpestacin (1), fusaproliferin (2), and their derivatives are a class of sesterterpenes featured by a trans-fused 5/15-membered ring skeleton. There are 45 natural products (1, 2, 4-27, 65-83) isolated from various wild fungi (Fusarium sp., Bipolaris sorokiniana, Arthrinium sp., etc.) or from genetic mutants via biosynthetic gene clusters mining, and 37 derivatives (28-64) produced by semi-synthetic modifications. These compounds show a diverse range of important bioactivities such as antivirus, antimicrobial, cytotoxic, phytotoxic, anti-flammatory, and brine shrimp lethal activities. To date, two racemic and five enantioselective chemical total syntheses of 1 (including 2 and their isomers) have been developed. Over the past decade, a number of biosynthetic gene clusters or their mutants, along with their encoding enzymes responsible for producing sesterterpenes such as terpestacin and its derivatives, have also been identified. This review covers the literature from the year 1993, when 1 was firstly discovered, to May 2024, focusing on the bioactivities and syntheses of 1 and its derivatives or isomers.