A novel approach toward mucoadhesive and tumour targeting curcumin nanoparticles for colon cancer treatment
Rayan Sabra
University of Nottingham, Malaysia Campus, Malaysia
: J Nanomater Mol Nanotechnol
Abstract
Colon cancer is a crucial health problem worldwide. The current interventions combining surgery and chemotherapy have only partially addressed the issue of ineffectiveness and recurrence in patients. Traditionally most anticancer drugs are administered intravenously even for remote cases as in colon cancer, where residential presence of the anticancer drug at the colon is an obvious desirability. Thus, encapsulating drug loaded oral formulations that offer cancer-targeting capability are a promising alternative to improving treatment of colon cancer, whereby localised drug concentration is increased and side effects are minimised. Nanoparticles offer a rational choice due to its large surface area to volume ratio, but should withstand the milieu of the upper gut and deliver its cargo at the colon. In this view, we have developed a modified pectin-chitosancurcumin nanoparticle system (MCPCNPs) for targeted delivery of curcumin to the colon. The MCPCNPs presented high mucoadhesion propensity in simulated colonic media and minimal at pH 1.2 (stomach). We further enhanced the MCPCNPs by coupling contamumab antibody that target the death receptor (DR5) present on the tumour surface, through a two-step carbodiimide (EDC) approach. The in vitro evaluation of the conjugation was examined using some available analytical techniques, while the conjugation efficiency was confirmed via the micro-bicinchoninic acid assay. The in vitro cytotoxicity and cellular apoptosis assays of the composite nanoparticle-antibody-curcumin-delivery system are being studied currently. In general, the data obtained so far strongly suggests that the formulated mucoadhesive, targeted curcumin-loaded nanoparticles have the potential to be applied as an orally deliverable colon cancer treatment.
Biography
Rayan Sabra has completed her MRes from Imperial college London and now she is pursuing her PhD at University of Nottingham, Malaysia, with an ultimate goal of replacing the conventional colon cancer treatments with herbal-based nanoparticles. Her biodegradable and cost-effective nanoparticle system creates new pathway for combating colon cancer that guarantees the quality life of patients. She has built this system after years of research and evaluation in educational institutions. She has published her preliminary results and findings in a number of journal and magazines and is in the process of carrying some tests and studies on animal models to prove that this option is superior to current treatments for colon cancer. khyx5rss@nottingham.edu.my