Juan Aparicio-Blanco scite author profile

The therapeutic potential of cannabinoids has been truly constrained heretofore due to their strong psychoactive effects and their high lipophilicity. In this context, precisely due to the lack of psychoactive properties, cannabidiol (CBD), the second major component of Cannabis sativa, arises as the phytocannabinoid with the most auspicious therapeutic potential. Hence, the incorporation of CBD in lipid nanocapsules (LNCs) will contribute to overcome the dosing problems associated with cannabinoids.Herein, we have prepared LNCs decorated and loaded with CBD for glioma therapy and screened in vitro their critical parameters. On the one hand, we have encapsulated CBD into the oily core of LNCs to test their in vitro efficacy as extendedrelease carriers against the human glioblastoma cell line U373MG. The in vitro antitumor effect was highly dependent on the size of LNCs due to its pivotal role in the extent of CBD release. Effectively, a comparison between two differently-sized LNCs (namely, 20-nm and 50-nm sized carriers) showed that the smaller LNCs reduced by 3.0-fold the IC 50 value of their 50-nm sized counterparts. On the other hand, to explore the potential of this phytocannabinoid to target any of the cannabinoid receptors overexpressed in glioma cells, we decorated the LNCs with CBD. This functionalization strategy enhanced the in vitro glioma targeting by 3.4-fold in comparison with their equally-sized undecorated counterparts. Lastly, the combination of CBD-loading with CBD-functionalization further reduced the IC 50 values. Hence, the potential of these two strategies of CBD incorporation into LNCs deserves subsequent in vivo evaluation.

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In vitro screening of nanomedicines through the blood brain barrier: A critical review

Aparicio-Blanco

Martín-Sabroso

Torres-Suárez

2016

Biomaterials

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Cannabidiol Enhances the Passage of Lipid Nanocapsules across the Blood–Brain Barrier Both in Vitro and in Vivo

et al. 2019

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Diseases affecting the central nervous system (CNS) should be regarded as a major health challenge due to the current lack of effective treatments given the hindrance to brain drug delivery imposed by the blood-brain barrier (BBB). Since efficient brain drug delivery should not solely rely on passive targeting, active targeting of nanomedicines into the CNS is being explored. The present study is devoted to the development of lipid nanocapsules (LNCs) decorated with non-psychotropic cannabinoids as pioneering non-immunogenic brain targeting molecules and to the evaluation of their brain targeting ability both in vitro and in vivo. Noticeably, both the permeability experiments across the hCMEC/D3 cell-based in vitro BBB model and the biodistribution experiments in mice consistently demonstrated that the highest brain targeting ability was achieved with the smallest-sized cannabinoiddecorated LNCs. Importantly, the enhancement in brain targeting achieved with the conjugation of CBD to LNCs outperformed by 6-fold the enhancement observed for the G-Technology ® (the main brain active strategy that has already entered clinical trials for the treatment of CNS diseases) As the transport efficiency across the BBB certainly determines the efficacy of the treatments for brain disorders, small cannabinoiddecorated LNCs represent auspicious platforms for the design and development of novel therapies for CNS diseases.

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Glioblastoma chemotherapeutic agents used in the clinical setting and in clinical trials: Nanomedicine approaches to improve their efficacy

Aparicio-Blanco

Sanz-Arriazu

Lorenzoni

et al. 2020

International Journal of Pharmaceutics

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