Preparation and characterization of full-spectrum cannabis extract loaded poly(thioether-ester) nanoparticles: In vitro evaluation of their antitumoral efficacy

Δ9-tetrahydrocannabinol (THC), cannabidiol (CBD) and other natural compounds produced by Cannabis sativa exhibit a wide array of therapeutic effects on the human body. As a result, extracts containing controlled amounts of different cannabinoids, called full spectrum extracts, have generated great i...

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Published in:Colloids and surfaces. A, Physicochemical and engineering aspects Physicochemical and engineering aspects, 2023-02, Vol.658, p.130676, Article 130676
Main Authors: Freire, Nathália Freitas, Feuser, Paulo Emílio, Ambel, Elena Maria Tovar, Cordani, Marco, Pieri, Ellen De, Machado-de-Ávila, Ricardo Andrez, Zielinski, Acácio A.F., Sayer, Claudia, de Araújo, Pedro Henrique Hermes, Díez, Guillermo Velasco, Albuquerque, Elaine Cabral, Fialho, Rosana Lopes Lima
Format: Article
Language:English
Subjects:
antineoplastic activity
autophagy
bioavailability
Biobased monomer
Cancer therapy
cannabidiol
Cannabis sativa
castor oil
encapsulation
evaporation
Full-spectrum Cannabis extract
humans
melanoma
nanocarriers
nanoemulsions
nanoparticles
neoplasm cells
Poly(thioether-ester) nanoparticles
polymerization
solubility
Solvent evaporation polymerization
solvents
Thiol-ene miniemulsion polymerization
viability
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Summary:Δ9-tetrahydrocannabinol (THC), cannabidiol (CBD) and other natural compounds produced by Cannabis sativa exhibit a wide array of therapeutic effects on the human body. As a result, extracts containing controlled amounts of different cannabinoids, called full spectrum extracts, have generated great interest and are currently being assayed for the management of many diseases including cancer. However, cannabinoids exhibit limited bioavailability due to their low solubility in water and moderate stability. Therefore, developing novel methods of cannabinoid administration or encapsulation that could help to improve the efficacy of treatments based on the use of these compounds is an issue of great interest. The purpose of this study was to develop biobased poly(thioether-ester)-PTEe nanoparticles containing full-spectrum Cannabis extract-CN and assay their potential efficacy in vitro cancer models. To do this we used two different approaches: 1) in-situ thiol-ene miniemulsion polymerization (Me-PTEe) and 2) thiol-ene miniemulsification/solvent evaporation method using PTEe synthesized previously by thiol-ene bulk polymerization (Se-PTEe). In both cases an α,ω-diene-diester monomer assembled from derivatives of castor oil was used. We found that CN-PTEe nanoparticles presented a high encapsulation efficiency with an average diameter of between 91 and 229 nm. Likewise, CN-PTEe nanoparticles reduced the viability to a similar extent as free CN of the cancer cell lines (B16F10, T98, and U87) but not of the non-tumoral NIH3T3 cells. Furthermore, treatment with CN-PTEe nanoparticles mimicked the working mechanism of non-encapsulated cannabinoids (inhibited the AKT signaling pathway and induced autophagy) in BF16F10 melanoma cells. These observations support the idea that the PTEe nanoparticles are effective CN nanocarriers and that they could be assayed in future studies to investigate their potential anticancer activity. [Display omitted] •Biobased α,ω-diene-diester monomer prepared from castor oil derivatives.•Nanoparticles obtained by thiol-ene miniemulsion and solvent evaporation.•Full-spectrum Cannabis extract encapsulated with high encapsulation efficiency.•Nanoparticles presented efficient cytotoxic effect on cancer line cells.
ISSN:0927-7757
1873-4359
DOI:10.1016/j.colsurfa.2022.130676