Inhibition of activated receptor tyrosine kinases by Sunitinib induces growth arrest and sensitizes melanoma cells to Bortezomib by blocking Akt pathway.

Despite the use of multiple therapeutic strategies, metastatic melanoma remains a challenge for oncologists. Thus, new approaches using combinational treatment may be used to try to improve the prognosis of this disease. In this report, we have analyzed the expression of receptor tyrosine kinases (RTKs) in melanoma specimens and in four metastatic melanoma cell lines. Both melanoma specimens and cell lines expressed RTKs, suggesting that they may represent eventual targets for multitargeted tyrosine kinase inhibitor, Suntinib. Sunitinib reduced the proliferation of two melanoma cell lines (M16 and M17) and increased apoptosis in one of them (M16). Moreover, the two metastatic melanoma cell lines harbored an activated receptor (PDGFRα and VEGFR, respectively), and Sunitinib suppressed the phosphorylation of the RTKs and their downstream targets Akt and ribosomal protein S6, in these two cell lines. Similar results were obtained when either PDGFRα or VEGFR2 expression was silenced by lentiviral-mediated short-hairpin RNA delivery in M16 and M17, respectively. To evaluate the interaction between Sunitinib and Bortezomib, median dose effect analysis using MTT assay was performed, and combination index was calculated. Bortezomib synergistically enhanced the Sunitinib-induced growth arrest in Sunitinib-sensitive cells (combination index < 1). Moreover, LY294002, a PI3K inhibitor, sensitized melanoma cells to Bortezomib treatment, suggesting that downregulation of phospho-Akt by Sunitinib mediates the synergy obtained by Bortezomib + Sunitinib cotreatment. Altogether, our results suggest that melanoma cells harboring an activated RTK may be clinically responsive to pharmacologic RTK inhibition by Sunitinib, and a strategy combining Sunitinib and Bortezomib, may provide therapeutic benefit.

Pleomorphic adenoma with extensive myoepithelial component (myoepithelioma) of the lower eyelid.

A 58-year-old woman presented with a nodular lesion on the medial part of her left lower eyelid. The lesion had been removed 10 years ago, but showed subsequent recurrence with slow growth. The lesion was again partially removed at another institution prior to presentation. Afterward removal, the persistent lesion had rapid growth. On presentation to us, the lesion showed a clinical appearance that was very similar to a nodular basal cell carcinoma. A pentagonal full-thickness resection biopsy was performed. The pathologic study revealed clusters of tumor cells and some ductal proliferations. Immunohistochemistry demonstrated positive staining for p63, S-100, and smooth muscle actin. No atypia was observed. A diagnosis of pleomorphic adenoma with extensive myoepithelial component (myoepithelioma) was made. The authors conclude that myoepithelioma should be considered in the differential diagnosis of nodular recurrent masses in the eyelids of adults. Definitive diagnosis is possible only after surgical biopsy.

Antiproliferative effect of STI571 on cultured human cutaneous melanoma-derived cell lines.

Standard antineoplastic treatment for metastatic melanoma is ineffective in the large majority of patients. Therefore, alternative approaches need to be investigated. STI571 is a new antineoplastic compound, which selectively inhibits the tyrosine kinase activity of ABL, c-Kit and platelet-derived growth factor receptor (PDGFR). Melanoma may express all of these proteins. The aim of this study was to investigate whether STI571 inhibits the in-vitro growth of melanoma cells. Nineteen cell lines were obtained from four primary and 15 metastatic melanomas of cutaneous origin. The percentages of positive cells for the putative targets of STI571 were as follows: ABL, 41-100%; c-Kit, 8-97%; PDGFR-alpha, 41-98%; PDGFR-beta, 51-99%. 3-(4,5-Dimethylthiazol-yl)-2,5-diphenyltetrazolium (MTT) and viability assays showed that STI571 clearly inhibits the proliferation of eight of the 19 (42.1%) cell lines. No relationship could be established between the expression of c-Kit, ABL, PDGFR-alpha or PDGFR-beta and the response of cell lines to STI571. Our study shows, for the first time, an antiproliferative effect of STI571 on human melanoma cell lines of cutaneous origin, raising the possibility of the future clinical use of STI571. The identification of the target of STI571 in human cutaneous melanoma cells would allow the selection of patients who could benefit from this treatment.