SCC4 cell monolayers as an alternative sublingual barrier model: influence of nanoencapsulation on carvedilol transport.

OBJECTIVE: To evaluate, for the first time, the use of SCC4 cell monolayers as an alternative sublingual barrier model and study the influence of nanoencapsulation on carvedilol transport across SCC4 cell monolayers. SIGNIFICANCE: The sublingual cavity is an interesting route for administration of drugs with limited oral bioavailability due to hepatic first pass metabolism. By this route, the drug is directly absorbed into blood circulation. In this sense, mucoadhesive carvedilol-loaded nanocapsules (CAR-NC) were previously proposed for the administration of this drug by sublingual route. Carvedilol is used for cardiovascular diseases and suffers metabolism in liver when orally administrated. Nanoencapsulation of carvedilol controlled its permeation across porcine sublingual mucosa. METHODS: Carvedilol-loaded cationic nanocapsules were prepared by interfacial deposition of a preformed polymer. Drug permeation studies were carried out in Transwell® inserts. The integrity of cell monolayers after the drug transport was assessed by transepithelial electric resistance. Compatibility of the CAR-NC with the SCC4 cells was evaluated by the Sulforhodamine B assay. RESULTS: The drug permeated the cell monolayer by a controlled way when nanoencapsulated and this profile had a linear relation with those observed in porcine sublingual mucosa. The integrity of the cell monolayer was maintained after drug permeation and CAR-NC was no cytotoxic to SCC4 cells. CONCLUSION: Nanoencapsulated carvedilol permeated by a controlled and safe way by SCC4 cell monolayer. SCC4 cells monolayers may be used as in vitro model for sublingual drug transport studies in the development of novel formulations.

Drug-loaded nanoemulsion as positive control is an alternative to DMSO solutions for in vitro evaluation of curcumin delivery to MCF-7 cells.

BACKGROUND: In vitro evaluation of toxicity and/or efficacy of nanostructured drug delivery systems involves the uses of different controls, including positive and negative controls, as well as a solution or dispersion of the drug in water. One of the most frequently solvent used to dilute poorly water soluble drugs to in vitro tests are dimethylsulfoxide (DMSO). However, its different specific surface area and different diffusion coefficients could make the comparative effects difficult. We proposed that a solvent-free dispersions having similar specific surface area could be a better control than drug in solution against cell lines. METHODS: We evaluate the effect of curcumin-loaded lipid-core nanocapsules, curcumin-loaded nanoemulsion and curcumin DMSO-water solution on viability and colony forming efficiency of human breast cancer cell line, MCF7. RESULTS: The cytotoxic effect of nanocapsules at 24-72h was similar to nanoemulsion and lower than drug solution. However, the nanocapsules had a superior anticancer activity when long periods (10days) were evaluated, which highlight the sustained drug release by nanocapsules. CONCLUSIONS: Our results showed a superior anticancer activity of curcumin-loaded lipid-core nanocapsules compared to curcumin-loaded nanoemulsion and curcumin dissolved in DMSO in long exposition time assay, wihch is not observed in short exposition time assays like MTT. When a poorly water-soluble drug is under investigation, the nanoemulsion prepared with the same compounds of the nanocapsules, except the polymer, could be a better control than DMSO-solution of drug.