Telmisartan loaded lipid nanocarrier as a potential repurposing approach to treat glioma: Characterization, apoptosis evaluation in U87MG cells, pharmacokinetic and molecular simulation study.

The study explores anticancer potential of telmisartan (TS) loaded lipid nanocarriers (TLNs) in glioma cells as a potential repurposing nanomodality along with estimation of drug availability at rat brain. Experimental TLNs were produced by previously reported method and characterized. In vitro anticancer efficacy of experimental TLNs was estimated by MTT, confocal microscopy, and FACs analysis in glioma cells. Plasma and brain pharmacokinetic (PK) parameters were also analysed by LCMS/MS. Spherical, nanosized, homogenous, unilamellar, TLNs were reported having desirable drug loading (9.5 ± 0.6 %), negative zeta potential and sustained TS release tendency. FITC-TLNs were sufficiently internalized into U87MG cells line within 0.5 h incubation period. IC50 for TLNs was considerably higher than free TS in the tested glioma cell lines. Further, TLNs induced superior apoptotic effect in U87MG cells than TS. PK (plasma/brain) data depicted higher AUC, Vss, MRT with lower Clt for TLNs suggesting improved bioavailability, in vivo residence and sustained drug availability than free TS administration. Docking studies rationalized in vitro/in vivo results as preferably higher binding affinity (docking score:12.4) was detected for TS with glioma proteins. Further, in vivo studies in glioma bearing xenograft model is underway for futuristic clinical validation of TLNs.