Marine macrolides that selectively disrupt cell cycle events continue to occupy a central position as lead compounds in the ongoing search for novel anticancer agents, [1,2] highlighted by the recent FDA approval of Halaven (eribulin mesylate, a fully synthetic analogue of the halichondrins) for the treatment of advanced breast cancer. [3] Lithistid sponges have proven to be a particularly fertile source [4] of such biologically relevant polyketide metabolites, including dictyostatin [5] and discodermolide. [5d, 6] As part of a continued program aimed at the discovery of novel bioactive natural products from deepwater marine invertebrates, we have examined the relatively unexplored [7] lithistid sponge Leiodermatium. A crude extract of Leiodermatium sp. was found to exhibit substantial activity in an assay which identifies antimitotic agents through detection of phosphonucleolin, a marker of mitosis. [8] Bioassay-guided fractionation led to the isolation of leiodermatolide (1, Figure 1), whose unprecedented 16-membered macrolide skeleton, featuring an unsaturated side chain terminating in a d-lactone, has been elucidated through a combination of extensive NMR spectroscopic analysis, comparative DFT GIAO NMR shift calculations, and molecular modeling. Leiodermatolide was found to exhibit potent and selective antimitotic activity (IC 50 < 10 nm) against a range of human cancer cell lines by inducing G2/M cell cycle arrest, and represents a promising new lead for anticancer drug discovery.A specimen of Leiodermatium (1.04 kg) was collected at a depth of 401 m off the coast of Fort Lauderdale, Florida, using the Johnson Sea Link submersible. The frozen sponge was exhaustively extracted using a mixture of EtOAc/EtOH (9:1) followed by partitioning of the dried extract residue between EtOAc and H 2 O. Vacuum column chromatography of the organic partition on a silica gel stationary phase followed by reverse-phase HPLC of the active fraction led to the isolation of leiodermatolide (11.8 mg, 0.0011 % wet weight) as an amorphous white powder with ½a 24 D ¼À84.2 (c = 0.34, MeOH). [9] HRDART MS analysis of leiodermatolide (1) provided a [M+H] + ion at m/z 602.3705, appropriate for a molecular formula of C 34 H 51 NO 8 (calcd for [M+H], 602.3693, D = 1.2 mmu), requiring 10 sites of unsaturation. [10] Optimum NMR signal dispersion was realized in CD 2 Cl 2 ; inspection of the 13 C NMR spectrum revealed a total of 34 resonances in agreement with the HRMS formula. 13 C NMR resonances attributable to two ester groups (d C = 172.4, 170.4 ppm), one carbamate (d C = 157.6 ppm), and 10 olefinic carbons (d C = 137.9, 137.5, 134.2, 131.8, 130.0, 128.8, 128.5, 126.4, 125.9, 124.7 ppm) accounted for eight of the 10 sites of unsaturation, suggesting the presence of two rings.Interpretation of the 2D DQF-COSY spectrum coupled with the edited g-HSQC spectrum led to the assignment of seven isolated spin systems (A-G, Figure 2). These spin systems and their connectivity with the remaining atoms enabled assembly into the final planar struct...
