In vivo synergistic anti-tumor effect of lumefantrine combined with pH responsive behavior of nano calcium phosphate based lipid nanoparticles on lung cancer

Abstract

Conventional treatment options for lung cancer treatment were restricted due to non-specific nature and side effects, with this associated problem and to overcome this we had developed lumefantrine with nano calcium phosphate loaded lipid nanoparticles (LF- CaP- Ls) affording pH sensitive mechanism. Herein, the present study the in vivo anti-cancer property of LF-CaP-Ls was checked in mice models. Further, reduced lung cancer progression of lumefantrine with nano calcium phosphate loaded lipid nanoparticles (LF-CaP-Ls) treated mice were assessed by measuring the 5-methyltetrahydrofolate (MTHF) in serum. Moreover, LF-CaP-Ls showed substantially a anticancer effect compared to that of lumefantrine loaded lipid nanoparticles (LF-Ls) and free lumefantrine (LF) by exhibiting higher effects in lung tumor bearing mice model as confirmed by reduced tumor progression. Histopathological examination of lungs supported with H&E staining proved the reduced tumor vasculature and reduced inflammatory cells for LF-CaP-Ls compared to that of free LF and LF-Ls. Further, visual inspection with acetic acid test confirmed the reduced tumor progression for LF-CaP-Ls compared to that of free LF and LF-Ls. Altogether, the overall results suggested that the developed LF-CaP-Ls may acts as a better therapeutic molecule for lung cancer due to its maintenance of increased level of 5-MTHF levels, reduced tumor weight. Further, hematological and biochemical parameters were measured and supports our in-vivo therapeutic effect of LF-CaP-Ls.