Discovery of direct inhibitor of KRAS oncogenic protein by natural products: a combination of pharmacophore search, molecular docking, and molecular dynamic studies

Hashemi, Seyed Yaser; Sharifi, Amirhossein; Zareei, Sara; Mohamedi, Ghazale; Biglar, Mahmood; Amanlou, Massoud

doi:10.4103/1735-5362.288425

Cited by 9 publications

(1 citation statement)

References 31 publications

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“…Recent studies have reported the certain natural compounds that are effective against the KRAS-linked upstream and down-stream signalling pathways that are directly or indirectly linked with cell proliferation, division, and apoptosis (24,25). We are now developing another compound (named STAR2) that shows low toxicity, and is effective against all mtKRAS cells.…”

Section: Discussionmentioning

confidence: 99%

Growth Suppression of Cancer Spheroids With Mutated KRAS by Low-toxicity Compounds from Natural Products

et al. 2021

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Background/Aim: Among compounds from natural products selectively suppressing the growth of cancer spheroids, which have mutant (mt) KRAS, NP910 was selected and its derivatives explored. Materials and Methods: The area of HKe3 spheroids expressing wild type (wt) KRAS (HKe3-wtKRAS) and mtKRAS (HKe3-mtKRAS) were measured in three-dimensional floating (3DF) cultures treated with 18 NP910 derivatives. The 50% cell growth inhibition (GI50) was determined by long-term 3DF (LT3DF) culture and nude mice assay. Results: We selected NP882 (named STAR3) as the most effective inhibitor of growth of HKe3-mtKRAS spheroids with the least toxicity among NP910 derivatives. GI50s of STAR3 in LT3DF and nude mice assay were 6 μM and 30.75 mg/kg, respectively. However, growth suppression by STAR3 was observed in 50% of cell lines independent of KRAS mutation, suggesting that the target of STAR3 was not directly associated with KRAS mutation and KRAS-related signals. Conclusion: STAR3 is a low-toxicity compound that inhibits growth of certain tumour cells.KRAS is the most frequently mutated oncogene among human cancers (1), with high rates of activating missense mutations in pancreatic cancers (86 to 96%) (2), in colorectal cancers (CRC) (40 to 54%), and in non-small cell lung cancer (NSCLC) (15 to 20%) (3, 4). Once activated, mutated RAS remains "on" persistently, thereby enhancing downstream signalling and leading tumourigenesis. Recently, AMG510, which targets specifically KRAS G12C mutant, was developed and was found to be effective in clinical trials in some patients with NSCLC (5). However, the KRAS G12C mutation occur in about 13% of NSCLCs (6, 7), in 3 to 5% of CRCs, and in 1 to 2% of various other solid cancers (3, 5, 8-10). Therefore, the range of use of AMG510 is limited, and the KRAS mutation is still an "undruggable" target.Canonical anticancer agents, including alkylating drugs, platinum compounds, antimetabolites, topoisomerase inhibitors, and microtubule inhibitors, are highly toxic and cause serious side effects such as myelosuppression (11,12). Recently, molecularly targeted drugs are expected to be the new drugs with low toxicity (13); however, drug resistance is unavoidable (14). Therefore, new types of compounds are indispensable for cancer treatment.Recently, we screened genes that were up-regulated by mtKRAS in a three-dimensional (3D) matrigel culture and found that the phosphodiesterase 4B (PDE4B) levels were higher in clinical tumour samples from CRC patients in comparison to those from healthy control (15). We examined several PDE4 inhibitors, such as pan PDE4 inhibitor, resveratrol, and PDE4 selective inhibitor, apremilast (16, 17), revealing that these compounds are selective for cancer spheroids with mtKRAS, and exhibit high efficacy and low toxicity. Notably, resveratrol, which has similar PDE4inhibitory activity to that of rolipram ( 16), is present in various natural products, suggesting that some compounds from natural products will become low-toxicity anticancer agents.

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Section: Discussionmentioning

confidence: 99%