Anticancer potential of novel 5-Fluorouracil co-crystals against MCF7 breast and SW480 colon cancer cell lines along with docking studies
Farhat Jubeen, Sana Ijaz, Ishrat Jabeen, Usman Aftab, Wajeeha Mehdi, Awais Altaf, Siham A. Alissa, Hanan Al-Ghulikah, Safa Ezzine, Imen Bejaoui, Munawar Iqbal
Abstract
In the present investigation, 5-Fluorouracil co-crystals with four cyclic dimers of amino acids (Glycine, Tryptophane, Leucine and Alanine conformers are prepared via co-crystallization route, with an aim to improve its anticancer effectiveness and to minimize its associated drawbacks. The prepared co-crystals were characterized by FTIR and PXRD techniques. FTIR revealed the presence of respective functional groups in the prepared co-crystals. Frequencies (v) of NH (3416 cm−1) and carbonyl group (1671 cm−1) in the 5-Fu (FTIR) spectrum were considerably moved in all co-crystal’s spectra exhibiting the development of new interactions. 5-Fu peak at 2θ = 28.48° was visibly transformed in the co-crystal’s graphs of PXRD. MTT assays was studied on MCF7 breast and SW480 colon cancer cell lines using 0.78 to 200 μg mL−1 dose concentration. Co-crystals with Tryptophane and Leucine cyclic dimers revealed highest potential (99 % and 100 %) respectively, against colon cancer cell line Likewise Alanine and Tryptophane dimers furnished promising efficiency (100 %) against MCF7 cell line Genetic Optimization for Ligand Docking/GOLD was applied to evaluate the latent anti-tumor behaviors against the proteins [C-myc. (PDB ID: 6G6K, Thymidylate synthase (PDB ID:1HVY) and protein kinase (PDB ID: 2X18). Results revealed that the developed 5-Fluorouracil co-crystals have promising antitumor efficacy as compared to already reported 5-Fu co-crystals and 5-Fu alone.