An expeditious route to obtaining cassane-type furan diterpenes starting from (+)-sclareolide, an inexpensive commercially available natural lactone, has been achieved by using a solvent-free Diels−Alder cycloaddition and an unprecedented decarboxylative dienone−phenol rearrangement as key steps. Its applicability is showcased by the first synthesis of (5α)-vouacapane-8( 14),9(11)-diene. The synthesis, which requires no protecting group, is efficient and atom-and stepeconomical (10 steps, 20% global).
A set of thirteen cassane-type diterpenes was synthesized and an expedient synthetic route was used to evaluate 14-desmethyl analogs of the most active tested cassane. The anti-inflammatory activities of these 13 compounds were evaluated on a lipopolysaccharide (LPS)-activated RAW 264.7 cell line by inhibition of nitric oxide (NO) production, some of them reaching 100% NO inhibition after 72 h of treatment. The greatest anti-inflammatory effect was observed for compounds 16 and 20 with an IC50 NO of 2.98 ± 0.04 μg/mL and 5.71 ± 0.14 μg/mL, respectively. Flow-cytometry analysis was used to determine the cell cycle distribution and showed that the inhibition in NO release was accompanied by a reversion of the differentiation processes. Moreover, the anti-cancer potential of these 13 compounds were evaluated in three tumor cell lines (B16-F10, HT29, and Hep G2). The strongest cytotoxic effect was achieved by salicylaldehyde 20, and pterolobirin G (6), with IC50 values around 3 μg/mL in HT29 cells, with total apoptosis rates 80% at IC80 concentrations, producing a significant cell-cycle arrest in the G0/G1 phase, and a possible activation of the extrinsic apoptotic pathway. Additionally, initial SAR data analysis showed that the methyl group at the C-14 positions of cassane diterpenoids is not always important for their cytotoxic and anti-inflammatory activities.
A new strategy for the semisynthesis of the aromatic
cassane-type
diterpene taepeenin F (6) is reported. The introduction
of the methyl group at C-14, characteristic of the target compound,
was achieved via dienone 13, easily prepared from abietic
acid (10), the major compound in renewable rosin. Biological
assays of selected compounds are reported. The antiproliferative activity
against HT29, B16-F10, and HepG2 tumor cell lines has been investigated.
Salicylaldehyde 21 was the most active compound (IC50 = 7.72 μM). Products 16 and 21 displayed apoptotic effects in B16-F10 cells, with total apoptosis
rates of 46 and 38.4%, respectively. This apoptotic process involves
a significant arrest of the B16-F10 cell cycle, blocking the G0/G1
phase. Dienone 16 did not cause any loss of the mitochondrial
membrane potential (MMP), while salicylaldehyde 21 caused
a partial loss of the MMP. The anti-inflammatory activity of the selected
compounds was investigated with the LPS-stimulated RAW 264.7 macrophages.
All compounds showed potent NO inhibition, with percentages between
80 and 99% at subcytotoxic concentrations. Dienone 16 inhibited LPS-induced differentiation of RAW 264.7 cells, by increasing
the proportion of cells in the S phase. In addition, salicylaldehyde 21 had effects on the cell cycle, recovering the cells from
the G0/G1 full arrest produced in response to LPS action.
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