Microemulsion for Prolonged Release of Fenretinide in the Mammary Tissue and Prevention of Breast Cancer Development.
Giovanna Cassone SalataIsabella D MalagóVanessa F M Carvalho DartoraAna Flávia Marçal PessoaMárcia Carvalho de Abreu FantiniSoraia K P CostaJoão Agostinho Machado-NetoLuciana Biagini LopesPublished in: Molecular pharmaceutics (2021)
The need of pharmacological strategies to preclude breast cancer development motivated us to develop a non-aqueous microemulsion (ME) capable of forming a depot after administration in the mammary tissue and uptake of interstitial fluids for prolonged release of the retinoid fenretinide. The selected ME was composed of phosphatidylcholine/tricaprylin/propylene glycol (45:5:50, w/w/w) and presented a droplet diameter of 175.3 ± 8.9 nm. Upon water uptake, the ME transformed successively into a lamellar phase, gel, and a lamellar phase-containing emulsion in vitro as the water content increased and released 30% of fenretinide in vitro after 9 days. Consistent with the slow release, the ME formed a depot in cell cultures and increased fenretinide IC50 values by 68.3- and 13.2-fold in MCF-7 and T-47D cells compared to a solution, respectively. At non-cytotoxic concentrations, the ME reduced T-47D cell migration by 75.9% and spheroid growth, resulting in ∼30% smaller structures. The depot formed in vivo prolonged a fluorochrome release for 30 days without producing any sings of local irritation. In a preclinical model of chemically induced carcinogenesis, ME administration every 3 weeks for 3 months significantly reduced (4.7-fold) the incidence of breast tumors and increased type II collagen expression, which might contribute to limit spreading. These promising results support the potential ME applicability as a preventive therapy of breast cancer.
Keyphrases
- cell migration
- single cell
- cell therapy
- induced apoptosis
- poor prognosis
- cell cycle arrest
- high throughput
- photodynamic therapy
- diabetic rats
- stem cells
- signaling pathway
- mesenchymal stem cells
- breast cancer cells
- risk assessment
- oxidative stress
- bone marrow
- human health
- wound healing
- hyaluronic acid
- smoking cessation