Abstract
Sesquiterpene lactones are secondary plant metabolites with sundry biological effects. In plants, they are synthesized, among others, for pesticidal and antimicrobial effects. Two such compounds, archangelolide and trilobolide of the guaianolide type, are structurally similar to the well-known and clinically tested lactone thapsigargin. While trilobolide has already been studied by us and others, there are only scarce reports on the biological activity of archangelolide. Here we present the preparation of its fluorescent derivative based on a dansyl moiety using azide–alkyne Huisgen cycloaddition having obtained the two sesquiterpene lactones from the seeds of Laserpitium archangelica Wulfen using supercritical CO2 extraction. We show that dansyl-archangelolide localizes in the endoplasmic reticulum of living cells similarly to trilobolide; localization in mitochondria was also detected. This led us to a more detailed study of the anticancer potential of archangelolide. Interestingly, we found that neither archangelolide nor its dansyl conjugate did exhibit cytotoxic effects in contrast to the structurally closely related counterparts trilobolide and thapsigargin. We explain this observation by a molecular dynamics simulation, in which, in contrast to trilobolide, archangelolide did not bind into the sarco/endoplasmic reticular calcium ATPase cavity utilized by thapsigargin. Last, but not least, archangelolide exhibited anti-inflammatory activity, which makes it promising compound for medicinal purposes.
Highlights
Sesquiterpene lactones (SLs) have been attracting interest already for some time due to the plethora of biological effects they elicit
For isolation of the major metabolites of L. archangelica, we used 100 g of fine ground seeds (Supporting Information File 1, Figure S2) and the method of supercritical CO2 extraction, which was carried out under pressure of 40 MPa at 40 °C until the extract substances passed from the extracted material
Having developed a method for the isolation of two related sesquiterpene lactones (SL), archangelolide (1) and trilobolide (2), from the seeds of Laserpitium archangelica Wulfen, we extended the knowledge on the first one, so far almost undescribed
Summary
Sesquiterpene lactones (SLs) have been attracting interest already for some time due to the plethora of biological effects they elicit. The inhibition of SERCA by thapsigargin is stoichiometric and irreversible [4] and results in the depletion of the intracellular calcium storage and an elevated cytosolic calcium concentration, which can trigger apoptosis in cells. This ability of thapsigargin to trigger programmed cell death prompted the development of mipsagargin/G202 [5], a thapsigargin-derived prodrug that completed phase-I and phase-II clinical trials [6] for several types of solid tumors. Cytotoxicity posed a considerable limitation for the utilization of compound 2. Soon found that compound 2 may be modified in such a way that its cytotoxicity is reduced while the immunobiological properties are retained [11]
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