Effects of lipid-core nanocapsules with acetyleugenol in melanomas: in vivo and in vitro studies

Melanoma is the most invasive skin cancer, with high rates of death without effective treatment. Polymeric lipid-core nanocapsules (LNC) has been successfully used as carriers of hydrophobic drugs. As eugenol is an hydrophobic compound with antiproliferative and pro-apoptotic activity in cancer cells, here we aimed to evaluate the effects of treatments with acetyleugenol (AC), LNC or LNC containing acetyleugenol (LNC-AC) in an in vivo melanoma model in C57BL6 mice and the cytotoxicity of the treatments in vitro, using endothelial (HUVEC) and melanoma (SK-Mel- 28) cells. The results obtained showed that: 1) i.p. treatments with LNC or LNCAC (50 mg/kg, 3-10 days of tumor injection) induced systemic toxicity and, only the treatment with LNC inhibited the melanoma development. Treatment with LNC, but not with mix of triglycerides of medium chain, by oral route, inhibited the tumor development, without toxicity. In addition, the treatments with AC, LNC or LNC-AC were not effective when administered in the late stage of tumor evolution (50 mg/kg, 10-20 days of tumor induction, oral route); 2) the acute treatments with AC, LNC or LNC-AC (20 mg/kg, 200 µL, intravenous route) did not altered the number of circulating leukocytes, but the treatments with LNC or LNC-AC reduced the rolling behavior of leukocytes in postcapillary venules of the cremaster muscle and induced hemolysis. The latter effect was also observed after in vitro treatment using murine erythrocytes; 3) In vitro studies showed that the LNC and LNC-AC suffered uptake by HUVEC and SK-Mel-28 cells after 1 hour of incubation; that the incubation with LNC-AC induced late apoptosis and necrosis more effectively in SK-Mel-28 than in HUVEC cells; that the incubation with LNC or LNC-AC presented antiproliferative effects, by inducing G2M arrest in cell cycle in both cells lines evaluated; that only the incubation with AC or LNC-AC inhibited the adhesion in Matrigel® with more efficaccy in SK-Mel-28 than in HUVEC cells; that only incubtion with LNC reduced the VCAM-1 expression in HUVEC and the incubation with LNC or LNC-AC reduced the β3 integrin expression in SK-Mel-28 cells; that any treatment affected the HUVEC or SK-Mel- 28 migration; that only the incubation with LNC-AC reduced the levels of reactive species of oxygen in HUVEC and SK-Mel-28 cells; that the incubation with LNC or LNC-AC increased the nitric oxide (NO) production by both cell lines used; that the treatment with L-NAME reversed the NO levels and the inhibition on cell proliferation induced by incubation with LNC or LNC-AC and; that the in vitro treatment of murine with LNC or LNC-AC altered the neutrophil polarization to N1 phenotype. Together, results obtained show that the oral treatment with LNC inhibit the melanoma growth without any toxic effect, and that the beneficial effect could be dependent, at least in part, of nanoencapsulation of medium chain triglycerides and the supraestrucuture of the formulation, with direct toxicity on melanoma cells and possible modulation of tumor microenvironment. (AU)