Poly(lactide-co-glycolide)-rifampicin nanoparticles efficiently clear Mycobacterium bovis BCG infection in macrophages and remain membrane-bound in phago-lysosomes.
Raja Kalluru, Federico Fenaroli, David Westmoreland, Lilia Ulanova, Atoosa Maleki, Norbert Roos, Marie Paulsen Madsen, Gerbrand Koster, Wolfgang Egge-Jacobsen, Steven Wilson, Hanna Roberg-Larsen, Gopal K Khuller, Amandeep Singh, Bo Nyström, Gareth Griffiths
Department of Molecular Biosciences, University of Oslo, 0316 Oslo, Norway.
Journal of cell science 2013 Jul 15Nanoparticles (NPs) are increasingly used as biodegradable vehicles to selectively deliver therapeutic agents such as drugs or antigens to cells. The most widely used vehicle for this purpose is based on copolymers of lactic acid and glycolic acid (PLGA) and has been extensively used in experiments aimed at delivering antibiotics against Mycobacterium tuberculosis in animal models of tuberculosis. Here, we describe fabrication of PLGA NPs containing either a high concentration of rifampicin or detectable levels of the green fluorescent dye, coumarin-6. Our goal here was twofold: first to resolve the controversial issue of whether, after phagocytic uptake, PLGA NPs remain membrane-bound or whether they escape into the cytoplasm, as has been widely claimed. Second, we sought to make NPs that enclosed sufficient rifampicin to efficiently clear macrophages of infection with Mycobacterium bovis BCG. Using fluorescence microscopy and immuno-electron microscopy, in combination with markers for lysosomes, we show that BCG bacteria, as expected, localized to early phagosomes, but that at least 90% of PLGA particles were targeted to, and remained in, low pH, hydrolase-rich phago-lysosomes. Our data collectively argue that PLGA NPs remain membrane-enclosed in macrophages for at least 13 days and degrade slowly. Importantly, provided that the NPs are fabricated with sufficient antibiotic, one dose given after infection is sufficient to efficiently clear the BCG infection after 9-12 days of treatment, as shown by estimates of the number of bacterial colonies in vitro.
Citation
Raja Kalluru, Federico Fenaroli, David Westmoreland, Lilia Ulanova, Atoosa Maleki, Norbert Roos, Marie Paulsen Madsen, Gerbrand Koster, Wolfgang Egge-Jacobsen, Steven Wilson, Hanna Roberg-Larsen, Gopal K Khuller, Amandeep Singh, Bo Nyström, Gareth Griffiths. Poly(lactide-co-glycolide)-rifampicin nanoparticles efficiently clear Mycobacterium bovis BCG infection in macrophages and remain membrane-bound in phago-lysosomes. Journal of cell science. 2013 Jul 15;126(Pt 14):3043-54
PMID: 23687375
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