Colorectal cancer (CRC) is the third most common cancer mortality worldwide. Although, 5-Fluorouracil (5-FU)-based chemotherapeutic regimens remain the mainstay for treatment of CRC, intrinsic and acquired resistance to 5-FU is the main reason for treatment failure and relapse. Adjunct or add-on therapy, therefore, should be thought of to enhance responsiveness to 5-FU. Verbascoside (VER) is a phenylethanoid glycoside ingredient present in many Plantago species and was widely used in traditional medicine. VER showed antiproliferative effects in many cancer types including CRC. In the present study, VER in Plantago seeds was identified using UPLC-MS/MS and quantified using newly developed and validated UPLC-DAD followed by investigating its potential sensitization of CRC cells to 5-FU in vitro. The potential impact on PI3K/AKT pathway was also investigated. A synergistic cytotoxic interaction between 5-FU and VER besides G1 cell cycle arrest were detected. Enhanced apoptosis mainly by affecting Bax and Bcl-2 and to a lesser extent Bcl-xL and p53 was also observed. Additionally, 5-FU combined to VER was capable of significantly reducing PI3K and p-AKT/total AKT ratio. Overall, these results suggest a potential role of VER as an adjuvant treatment to decrease the resistance of CRC cells to 5-FU possibly by targeting the PI3K/AKT pathway.
Chiral molecules in relation to particular biological roles are stereoselective. Enantiomers differ significantly in their biochemical responses in biological environment. Despite the current advancement in drug discovery and pharmaceutical biotechnology, the chiral separation of some racemic mixtures continues to be one of the greatest challenges, because the available techniques are too costly and time consuming for the assessment of therapeutic drugs in the early stages of development worldwide.
Various nanoparticles became one of the most investigated and explored nanotechnology‐derived nanostructures especially in chirality where several studies are reported to improve enantiomeric separation of different racemic mixtures. The production of surface‐modified nanoparticles has contributed to these limitations in terms of sensitivity, accuracy, and enantioselectivity that can be optimized and therefore makes these surface‐modified nanoparticles convenient for enantiomeric identification and separation.
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