Chemosensitivity of conjunctival melanoma cell lines to target-specific chemotherapeutic agents.

OBJECTIVE: In conjunctival melanoma, local chemotherapy has been based so far on clinical evidence and limited to the therapy of melanoma in situ. Our aim was to define substances that may have the potential to add to therapeutic options in extended local growth and metastatic disease. Two conjunctival cell lines (CRMM-1 and CRMM-2) have been established from recurrent conjunctival melanoma. In this study, we examined the chemosensitivity of these cell lines to different cytotoxic substances. MATERIALS AND METHODS: The cell lines CRMM-1 and CRMM-2 were exposed to chemotherapeutics for 24 h and the IC50 was generated. Sulforhodamin-B assays were used for quantification of in vitro efficacy. Time of exposure and escalating concentrations of the substances were adapted to the experimental setting. RESULTS: Bortezomib, clusianone 502 (nemorosone), ranpirnase, and sorafenib were efficient in inhibiting the growth of conjunctival melanoma cell lines. The IC50 achieved concentrations below or around 10 µM for these substances. CONCLUSIONS: Bortezomib, clusianone 502, ranpirnase, and sorafenib inhibited growth in conjunctival melanoma cell lines efficiently. The new substances may be a suitable alternative for local therapy. New therapeutic options with highly specific targeted agents for metastatic disease have to be evaluated in further experiments.

Chemosensitivity of conjunctival melanoma cell lines to single chemotherapeutic agents and combinations.

OBJECTIVE: Two conjunctival cell lines (CRMM-1 and CRMM-2) have been established from recurrent conjunctival melanoma. The authors examined the chemosensitivity of these cell lines to cytotoxic substances and combinations to identify substances that inhibit cell growth efficiently in vitro. MATERIAL AND METHODS: CRMM-1 and CRMM-2 were exposed to cisplatin, mitomycin C (MMC), all-trans-retinoic-acid (ATRA), fotemustine or imatinib for 24 h. Sulforhodamine-B assays were used to assess the IC(50). Isobolograms were performed to test possible synergism and antagonism with ATRA or imatinib. RESULTS: Cisplatin and MMC were efficient to inhibit the growth of CRMM-1 and CRMM-2. Combination of imatinib with MMC showed additive antitumoral effect on both cell lines. Combined treatment of imatinib with fotemustine or cisplatin resulted in antagonism. Strong antagonisms were also obtained with ATRA and fotemustine or cisplatin in both cell lines. A synergism was found for ATRA and mitomycin or imatinib in CRMM-2, in contrast to CRMM-1, where antagonism was obtained. CONCLUSIONS: Cisplatin and MMC inhibit cell growth in conjunctival melanoma cell lines. The potential of ATRA was evident only in combination with MMC or imatinib in CRMM-2 cells. Imatinib and mitomycin increased their efficiency under combination therapy.

The contribution of plukenetione A to the anti-tumoral activity of Cuban propolis.

Increasing efforts are directed toward finding applications for natural products and their derivatives in the treatment of human diseases. Among such products, propolis, a resinous substance produced by honey bees from various plant sources, has been found to be a promising source of potential therapeutics. In the present work, we aimed at studying the perspective of Cuban propolis as a source of possible anti-cancer agents. We found an anti-metastatic effect in mice and considerable cytotoxicity without cross-resistance in both wild-type and chemoresistant human tumor cell lines. Plukenetione A--identified for the first time in Cuban propolis--induced G0/G1 arrest and DNA fragmentation in colon carcinoma cells. Furthermore, the activities of both topoisomerase I and DNA polymerase were inhibited, while the expression of topoisomerase II-beta, EGF receptor, and multidrug resistance-related protein genes was found repressed. We assume that plukenetione A contributes to the anti-tumoral effect of Cuban propolis mainly by targeting topoisomerase I as well as DNA polymerase.