Sodium dichloroacetate (DCA) is a metabolic regulator used to treat diabetes. Since DCA inhibits pyruvate dehydrogenase kinase, decreasing lactic acid formation, it can reverse the Warburg effect in cancer cells, promoting apoptosis. Therefore, this study aimed to investigate the potential of DCA as a drug repurposing candidate for the treatment of melanoma. For the in-vitro assay, murine B16-F10 melanoma cells were treated with 0.5, 1, 5, 10, 20 or 50 mM DCA for 3 days, analyzed with the crystal violet method. The in-vivo effect of DCA was evaluated in B16-F10 tumor-bearing C57BL/6 mice treated with different doses of DCA (0, 25, 75 or 150 mg/kg) by gavage for 10 days, followed by measurement of tumor volume. Upon necropsy, representative slices of lung, liver, kidney, spleen and intestine were collected, processed and submitted for histopathological examination. The DCA concentrations of 10, 20 and 50 mM reduced B16-F10 cell viability after 48 and 72 h of treatment, whereas 20 and 50 mM were effective after 24 h of treatment. A significant reduction in tumor growth was observed in B16-F10 melanoma bearing mice at all doses, with no change in body weight or histology. DCA attenuates the growth of B16-F10 melanoma in vitro and in vivo, without systemic toxic effects. Therefore, DCA is a candidate for drug repurposing against melanomas.
Oral mucosal melanomas (OMM) are aggressive cancers in dogs, and are good models for human OMM. Gap junctions are composed of connexin units, which may have altered expression patterns and/or subcellular localization in cancer cells. Cell-to-cell communication by gap junctions is often impaired in cancer cells, including in melanomas. Meanwhile, the upregulated expression of the gap junction protein connexin 43 (Cx43) inhibits melanoma progression. The α-connexin carboxyl-terminal (aCT1) peptide reportedly maintains Cx43 expression and cell-cell communication in human mammary cells and increases the communication activity through gap junctions in functional assays, therefore causing decreased cell proliferation. The Bowman-Birk protease inhibitor (BBI), a component of soybeans, induces Cx43 expression in several tumor cells as a trypsin–chymotrypsin inhibition function, with antineoplastic effects. This study investigated the effect of aCT1 peptide and BBI treatment, alone or in combination, on TLM1 canine melanoma cell viability. Cell viability after treatment with aCT1, the reverse sequence peptide (R-pep), and/or BBI for 5 days was analyzed by PrestoBlue assay. Immunofluorescence was used to observe Cx43 localization and expression. aCT1 (200 μM) alone did not significantly decrease cell viability in TLM1 cells, whereas BBI (400 μg/ml) alone significantly decreased the TLM1 viability. Combined treatment with both aCT1 (200 μM) and BBI (400 μg/ml) significantly decreased cell viability in TLM1 cells. Cx43 expression, as identified by immunostainings in TLM1 cells, was increased in the cell membrane after the combination treatment with BBI and aCT1. This dual treatment can be combined to achieve the anticancer activity, possibly by increasing Cx 43 expression and affecting Cx43 migration to the cell membrane. In conclusion, a treatment strategy targeting Cx43 with BBI and aCT1 may possibly lead to new effective therapies for canine OMM.
Oral mucosal melanoma (OMM) is a common neoplasm in canines, although it is rare in humans. Cancer cells present alterations in energetic metabolism, and the Warburg effect states that most cancer cells undergo aerobic glycolysis. This can be reversed by certain drugs, resulting in decreased cell viability and cell death. We sought to evaluate the effects of sodium dichloroacetate (DCA) and omeprazole (OMP) alone or in combination on canine OMM and human melanoma cells. CMGD5 and SK-MEL-28 cell lines were treated with DCA and OMP alone or in combination, and cell viability was assessed using the crystal violet assay. Cell death (apoptosis and necrosis) was assessed by Annexin V and propidium iodide (PI) staining assays using flow cytometry. In addition, the oxygen consumption rate (OCR) was evaluated using a SeaHorse XF assay. Treatment with DCA or OMP alone resulted in a significant, but not dose-dependent, reduction in cell viability in both cell lines; however, the combination of DCA and OMP resulted in a significant and dose-dependent decrease in viability in both cell lines. DCA and OMP, alone or in combination, did not alter OCR at the concentrations tested in either cell line. Since the combination of DCA and OMP potentialized the inhibition of viability and increased cell death in a synergistic manner in melanoma cells, this approach may represent a new repurposing strategy to treat cancer.
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