ETHNOPHARMACOLOGICAL RELEVANCE

Achillea fragrantissima (Forssk.) Sch. Bip. is a medicinal plant that has been traditionally used in several Arab countries such as Egypt, Jordan and Saudi Arabia, for cancer treatment. Studies on the plant's extracts and essential oil showed that they exhibited cytotoxic activity against some cancer cells, however, the oil's activity was poorly studied; often involving MTT/SRB cell viability assays only without further mechanism of action studies.

AIM OF THE STUDY

To study the anticancer potential of Achillea fragrantissima essential oil (AFEO), investigate its mechanism of action in detail for the first time and identify its chemical constituents.

MATERIALS AND METHODS

Achillea fragrantissima was obtained from Hail, Saudi Arabia, while its essential oil was collected using a Clevenger apparatus. SRB assay was used to assess AFEO's cytotoxic activity against A549 (lung), HCT116 (colon) and PANC-1 (pancreatic) cancer cells, while cell-cycle and apoptosis assays were performed via flow cytometry. Protein expression was analysed via Western blotting, while GCMS was used to analyse AFEO's chemical composition. p38α MAPK, CDK2 and EGFR enzymatic assays were performed via the corresponding assay kits, and molecular docking was conducted using Maestro software.

RESULTS

AFEO demonstrated its most potent activity against PANC-1 cells followed by HCT116 cells with IC values of 63 μg/ml and 81 μg/ml, respectively, however, no significant activity was observed against A549 cells. The oil also showed lower toxicity towards healthy HSF cells and demonstrated higher selectivity for the cancer cells. Further studies against PANC-1 revealed that AFEO induced necrosis and sub-G1 phase arrest in the cells. Western blotting revealed that AFEO did not alter caspase-3 expression level, further confirming the lack of apoptosis induction in PANC-1 cells by the oil. Moreover, AFEO downregulated β-catenin expression and this is specifically desirable in the case of pancreatic cancer, however, it upregulated phosphorylated ERK (p-ERK) expression indicating ERK pathway activation. AFEO did not change phosphorylated Akt (p-Akt) and PTEN expression, indicating lack of effect on the Akt pathway. Furthermore, AFEO was found to potently inhibit enzymes related to the ERK pathway and cancer progression in general, with IC values of 0.45 μg/ml, 0.23 μg/ml and 0.14 μg/ml against p38α MAPK, CDK2 and EGFR enzymes, respectively. GCMS analysis identified the major bioactive compounds as 3-thujanone (30.51 %), artemisia ketone (4.68 %), eucalyptol (2.57 %) and germacrene D (2.56 %). Finally, molecular docking studies predicted that 3-thujanone would primarily bind to and inhibit p38α MAPK and EGFR, while germacrene D would primarily inhibit CDK2 with binding energies of -7.228 kcal/mol, -5.929 kcal/mol and -5.230 kcal/mol, respectively.

CONCLUSION

AFEO exhibited anti-pancreatic cancer activity via inhibition of β-catenin pathway and activation of ERK signalling pathway, in addition to p38α MAPK, CDK2 and EGFR inhibition. This is the first study that investigated AFEO's anticancer potential in detail, and it highlights the importance of relying on traditional uses of plants as a guide for discovering novel anticancer agents. This work might serve as a crucial step for further isolation studies to develop AFEO, or its constituents, into effective anticancer agents.