Total synthesis and biological evaluation of oscillatoxins D, E, and F

The Asymmetric Total Synthesis and Configuration Confirmation of Aplysiaenal and Nhatrangin A, Truncated Derivatives of Aplysiatoxin and Oscillatoxin

Asymmetric total syntheses of aplysiaenal (1) and nhatrangin A (2), truncated derivatives of the aplysiatoxin/oscillatoxin family of marine natural products, from configurationally defined intermediates are described. NMR spectra of our synthesized nhatrangin A did not match with either those obtained from authentic samples of the natural product or material obtained via two other total syntheses, but were similar to that obtained from a sample obtained in a third total synthesis. By independently synthesizing the fragments used in its total syntheses, we were able to confirm the configuration of nhatrangin A and clarified that the discrepancy in the spectroscopic data is due to salt formation of the carboxylic acid moiety.

Structure Elucidation of Two Intriguing Neo-Debromoaplysiatoxin Derivatives from Marine Cyanobacterium Lyngbya sp. Showing Strong Inhibition of Kv1.5 Potassium Channel and Differential Cytotoxicity

Two aplysiatoxin derivatives, neo-debromoaplysiatoxin I (1) and neo-debromoaplysiatoxin J (2), were isolated from marine cyanobacterium Lyngbya sp. collected from the South China Sea. Their structures including absolute configurations were assigned by spectroscopic analysis, in combination with GIAO NMR shift calculation and DP4+ analysis. Structures of neo-debromoaplysiatoxin I and neo-debromoaplysiatoxin J contained a decahydro-5H-pyrano [2,3,4-de] chromen-5-one 6/6/6 ring skeleton and an intriguing peroxide bridge group, respectively, which are unprecedented structure scaffold and motif in aplysiatoxins. Two compounds displayed comparable inhibitory activities against Kv1.5 K⁺ channel with IC₅₀ values of 2.59 ± 0.37 μM (1) and 1.64 ± 0.15 μM (2); however, they presented differential cytotoxic effects. It is worth noting that neo-debromoaplysiatoxin J, containing a peroxide bridge, showed remarkable cytotoxicity against four cancer cell lines including SW480, SGC7901, LoVo and PC-9 compared to the human normal cell line.

Marine natural products

Covering: January to December 2021This review covers the literature published in 2021 for marine natural products (MNPs), with 736 citations (724 for the period January to December 2021) referring to compounds isolated from marine microorganisms and phytoplankton, green, brown and red algae, sponges, cnidarians, bryozoans, molluscs, tunicates, echinoderms, mangroves and other intertidal plants and microorganisms. The emphasis is on new compounds (1425 in 416 papers for 2021), together with the relevant biological activities, source organisms and country of origin. Pertinent reviews, biosynthetic studies, first syntheses, and syntheses that led to the revision of structures or stereochemistries, have been included. An analysis of the number of authors, their affiliations, domestic and international collection locations, focus of MNP studies, citation metrics and journal choices is discussed.

Collective Synthesis of Aplysiatoxin/Oscillatoxin Analogues by a Bioinspired Strategy

Interest in the marine cyanobacteria natural products aplysiatoxin (ATX) and oscillatoxin (OTX) has been renewed recently due to the discovery of many new analogues, some exhibiting intriguing biological activities. We sought to develop a collective synthesis of these natural products, hypothesizing that ATX could serve as a common biosynthetic precursor. Herein, we reveal that the core structure of ATX has unique multiple reactivities giving access to the distinct ring structures of five of the analogues, depending upon the specific conditions used. Based on these findings, syntheses of the O-Me derivative of five analogues neo-deBr-ATX-B, OTX-H, OTX-D, neo-deBr-ATX-H, and OTX-I were achieved from the main fragment of ATX as a common intermediate in a few steps. These synthetic studies also led us to revise the relative configuration in the elucidated structures of neo-deBr-ATX-B and OTX-H, and obtain unnatural 8- and 12-membered lactones from the same intermediate.