Human umbilical cord blood-mesenchymal stem cell derived exosomes as an efficient nanocarrier for Docetaxel and miR-125a: Formulation optimization and anti-metastatic behaviour.

Aim: Exosomes, as a nanocarrier for the co-delivery of biologicals and small anticancer molecules is yet in its infancy. Herein, we investigated hUCBMSC derived exosomes as a biogenic nanocarrier for the co-delivery of tumor suppressor miR-125a and microtubule destabilizing Docetaxel (DTX) to target the proliferative and migratory aggressiveness of the murine TNBC 4T1 cells.

Main Methods: In this study, hUCBMSCs from the human umbilical cord blood cells (hUCB) were successfully transfected with miR-125a. Thereafter, DTX was encapsulated into both non-transfected and transfected exosomes by optimized mild sonication-incubation technique. The anticancer efficiency of hUCBMSC Exo-DTX and miR-125a Exo-DTX was compared by MTT and morphometric assay. The prominent anti-metastatic behaviour of the latter was confirmed by in-vitro wound healing and transwell invasion assay. Further, the synergistic effect of miR-125a and DTX was confirmed by F-actin and nuclear degradation by confocal and FESEM assay.

Key Findings: hUCBMSC exosomes exhibited DTX payload of 8.86 ± 1.97 ng DTX/ μg exosomes and miRNA retention capacity equivalent to 12.31 ± 5.73 %. The co-loaded formulation (miR-125a Exo-DTX) exhibited IC at 192.8 ng/ml in 4T1 cells, which is almost 2.36 folds' lower than the free DTX IC (472.8 ng/ml). Additionally, miR-125a Exo-DTX treatment caused wound broadening upto 6.14±0.38 % while treatment with free DTX and miR-125a exosomes alone caused 18.71±4.5 % and 77.36±10.4 % of wound closure respectively in 36 h. miR-125a Exo-DTX treatment further exhibited significantly reduced invasiveness of 4T1 cells (by 3.5 ± 1.8 %) along with prominent cytoskeletal degradation and nuclear deformation as compared to the miR-125a exosomes treated group. The miR-125a expressing DTX loaded exosomal formulation clearly demonstrated the synergistic apoptotic and anti-migratory efficiency of the miR-125a Exo-DTX.

Significance: The synergistic anticancer and anti-metastatic effect of miR-125a Exo-DTX was observed due to presence of both DTX and miR-125a as the cargo of hUCBMSC derived exosomes.