Colon Cancer Clinical Trial
Official title:
Phase I Clinical Trial Investigating the Ability of Plant Exosomes to Deliver Curcumin to Normal and Malignant Colon Tissue
This clinical trial will investigate the ability of plant exosomes to more effectively deliver curcumin to normal colon tissue and colon tumors. Curcumin is the yellow pigment of turmeric, a natural product with diverse biological activities. Exosomes are small endosome-derived vesicles (50-100 nanometers [nm] in size). Previous clinical trials conducted with oral curcumin have demonstrated only limited bioavailability even at very high doses of 8-12 grams per day. This trial plans to address this problem of curcumin delivery by using plant exosomes to deliver the drug to colon tumors and normal colon tissue.
Curcumin is a constituent of the spice turmeric, which is one of the primary ingredients of curry powder. Curcumin has been shown to interfere with colon carcinogenesis in a variety of chemical and genetic rodent models. It has also been shown to have a strong inhibitory effect on the growth of colon cancer cell lines. There is considerable evidence that the effects of curcumin are mediated by changes in signal transduction. There is an extensive body of work showing effects on several signaling pathways, including the beta-catenin and NF-κB pathways. Although curcumin has been viewed as an ideal chemopreventative agent in colon cancer for many years, its application has been impeded by important issues with drug delivery and bioavailability in the reported clinical trials of this compound. Work from the James Graham Brown Cancer Center published recently suggests that using exosomes as a delivery vehicle leads to overcoming all the major obstacles of using curcumin as an anti-inflammatory agent, including increased stability, solubility, and bioavailability of curcumin. The work was further extended to define the resource that can supply a large quantity of exosomes with a maximum binding capacity of curcumin. Emerging data indicate that exosomes derived from many fruits release exosome-like particles, strongly bind to many hydrophobic drugs including curcumin, and are taken up by the intestine cells as well as the immune cells in the intestine. These results suggest that these fruit-derived exosomes are potentially used as a delivery vehicle to treatment of intestinal diseases. Moreover, both fruit exosomes and curcumin should not generate any side-effects since they are consumed by humans daily. In this clinical trial, the effect of exosomally delivered curcumin on the immune modulation, cellular metabolism, and phospholipid profile of normal and malignant colon cells in subjects who are undergoing surgery for newly diagnosed colon cancer will be characterized. In selected subjects, the effect of exosomally delivered curcumin on the production of cytokines, the changes of immune cells, and glucose metabolism by administration of 13C-glucose prior to surgical resection will also be characterized. ;
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