Nature has been always a great source of possible lead compounds to develop new drugs against several diseases. Here we report the identification of a natural compound, membranoid G, derived from the Antarctic sponge
Dendrilla antarctica
displaying an
in vitro
inhibitory activity against human DNA topoisomerase 1B. The experiments indicate that membranoid G, when pre-incubated with the enzyme, strongly and irreversibly inhibits the relaxation of supercoiled DNA. This compound completely inhibits the cleavage step of the enzyme catalytic mechanism by preventing protein binding to the DNA. Membranoid G displays also a cytotoxic effect on tumour cell lines, suggesting its use as a possible lead compound to develop new anticancer drugs.
Previous chemical investigation of the Irish deep-sea
soft coral Duva florida led to the identification
of tuaimenal A (10), a new merosesquiterpene containing
a highly substituted
chromene core and modest cytotoxicity against cervical cancer. Further
MS/MS and NMR-guided investigation of this octocoral has resulted
in the isolation and characterization of seven additional tuaimenal
analogs, B–H (1–7), as well
as two known A-ring aromatized steroids (8, 9), and additional tuaimenal A (10). Tuaimenals B, F,
and G (1, 5, 6), bearing an
oxygen at the C5 position, as well as monocyclic tuaimenal
H (7), show increased cervical cancer inhibition profiles
in comparison to that of 10. Tuaimenal G further displayed
potent, selective cytotoxicity with an EC50 value of 0.04
μM against the C33A cell line compared to the CaSki cell line
(EC50 20 μM). These data reveal the anticancer properties
of tuaimenal analogs and suggest unique antiproliferation mechanisms
across these secondary metabolites.
Four undescribed sesquiterpenoids, crannenols A–D (1–4), have been isolated from CHCl2 and MeOH extracts of the deep-sea bamboo coral Acanella
arbuscula. The corals were collected from a submarine canyon
on the edge of Ireland’s Porcupine Bank via a remotely operated
vehicle. The structure elucidation of these (Z,E)-α-farnesene derivatives was achieved using a combination
of 1D and 2D NMR, electron impact (1, 2),
and electrospray ionization (3, 4) mass
spectrometry.
Human topoisomerase 1B regulates the topological state of supercoiled DNA enabling all fundamental cell processes. This enzyme, which is the unique molecular target of the natural anticancer compound camptothecin, acts by nicking one DNA strand and forming a transient protein–DNA covalent complex. The interaction of human topoisomerase 1B and dimethylmyricacene, a compound prepared semisynthetically from myricanol extracted from Myrica cerifera root bark, was investigated using enzymatic activity assays and molecular docking procedures. Dimethylmyricacene was shown to inhibit both the cleavage and the religation steps of the enzymatic reaction, and cell viability of A-253, FaDu, MCF-7, HeLa and HCT-116 tumor cell lines.
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