Selective uptake into inflamed human intestinal tissue and immune cell targeting by wormlike polymer micelles

Abstract

AbstractOver the 21st century, inflammatory bowel disease (IBD) has become a global disease with no causal therapeutic options. Selective targeting of inflamed areas in the gastrointestinal tract could be an effective treatment circumventing severe side effects for healthy tissue. Our study demonstrates that the shape of polymeric nanostructures represents so far rarely addressed key to required tissue selectivity in the intestine. Ex vivo experiments on human colonic biopsies revealed that crosslinked wormlike micelles featuring a dense poly(ethylene oxide) (PEO) shell exclusively enter the inflamed human mucosa without affecting healthy tissue. Similarly designed spherical micelles (∼25 nm) or vesicles (∼120 nm) penetrate both tissues or were barely uptaken at all, respectively. Moreover, it was found that the particles colocalize with immune cells in the lamina propria facilitating a specific targeting of the main pro-inflammatory cells within the diseased human mucosa. These findings demonstrate an untapped potential in particle design and enable new vistas for an effective treatment of IBD.