Four classes of structurally unusual peptides from two marine-derived fungi: structures and bioactivities

Abstract The structures and biological properties of peptides produced by two genera of marine-derived fungi, an atypical Acremonium sp., and a Metarrhizium sp., were explored. The Acremonium strain was isolated from a marine sponge and has previously been shown by our group to produce peptides from the efrapeptin and RHM families. The isolation and structural elucidation of the new linear pentadecapeptides efrapeptins Eα ( 1 ) and H ( 2 ) and N -methylated octapeptides RHM3 ( 3 ) and RHM4 ( 4 ) were carried out through a combination of 1D and 2D NMR techniques and tandem MS. Additional known efrapeptins E, F, and G and the known syctalidamides A and B were also isolated. The absolute configurations of 1 – 4 are proposed to be the same as the original compound families. The marine sponge-derived Metarrhizium sp. was shown to produce destruxin cyclic depsipeptides including A, B, B2, desmethyl B, E chlorohydrin, and E2 chlorohydrin. Efrapeptins Eα ( 1 ), F, and G each displayed IC 50 s of 1.3 nM against H125 cells, and destruxin E2 chlorohydrin displayed an IC 50 of 160 nM against HCT-116 cells. An initial therapeutic assessment suggested a continuous (168 h) exposure of at least 2 ng/mL, or a daily (24 h) exposure of at least 300 ng/mL for H125 cells treated with efrapeptin G, and a continuous (168 h) exposure of at least 190 ng/mL for HCT-116 cells treated with destruxin E2 chlorohydrin, will cause 90% tumor cell death in vitro.