Department of Pharmacology, Institute of Biomedical Science, University of São Paulo, 05508-900, Sao Paulo, SP, Brazil.
Department of Life Sciences, Barcelona Supercomputing Center, 08034, Barcelona, Spain.
Eur J Pharmacol. 2020 Dec 5;888:173465. doi: 10.1016/j.ejphar.2020.173465. Epub 2020 Aug 16.
Melanoma is a type of skin cancer with an elevated incidence of metastasis and chemoresistance. Such features hamper treatment success of these neoplasms, demanding the search for new therapeutic options. Using a two-step resin-based approach, we recently demonstrated that cytotoxic prodiginines bind to the inhibitor of apoptosis protein, survivin. Herein, we explore the role of survivin in melanoma and whether its modulation is related to the antimelanoma properties of three cytotoxic prodiginines (prodigiosin, cyclononylprodigiosin, and nonylprodigiosin) isolated from marine bacteria. In melanoma patients and cell lines, survivin is overexpressed, and higher levels negatively impact survival. All three prodiginines caused a decrease in cell growth with reduced cytotoxicity after 24 h compared to 72 h treatment, suggesting that low concentrations promote cytostatic effects in SK-Mel-19 (BRAF mutant) and SK-Mel-28 (BRAF mutant), but not in SK-Mel-147 (NRAS mutant). An increase in G1 population was observed after 24 h treatment with prodigiosin and cyclononylprodigiosin in SK-Mel-19. Further studies indicate that prodigiosin induced apoptosis and DNA damage, as detected by increased caspase-3 cleavage and histone H2AX phosphorylation, further arguing for the downregulation of survivin. Computer simulations suggest that prodigiosin and cyclononylprodigiosin bind to the BIR domain of survivin. Moreover, knockdown of survivin increased long-term toxicity of prodigiosin, as observed by reduced clonogenic capacity, but did not alter short-term cytotoxicity. In summary, prodiginine treatment provoked cytostatic rather than cytotoxic effects, cell cycle arrest at G0/G1 phase, induction of apoptosis and DNA damage, downregulation of survivin, and decreased clonogenic capacity in survivin knockdown cells.
黑色素瘤是一种具有高转移和化疗耐药性的皮肤癌。这些特征阻碍了这些肿瘤的治疗成功,需要寻找新的治疗选择。我们最近使用两步基于树脂的方法证明,细胞毒性普罗迪京与凋亡抑制蛋白生存素结合。在此,我们探讨了生存素在黑色素瘤中的作用,以及其调节是否与三种从海洋细菌中分离的细胞毒性普罗迪京(普洛吉辛、环壬基普罗迪京和壬基普罗迪京)的抗黑色素瘤特性有关。在黑色素瘤患者和细胞系中,生存素表达上调,高水平的生存素表达与生存时间呈负相关。与 72 小时处理相比,三种普罗迪京在 24 小时处理时都会导致细胞生长减少,细胞毒性降低,这表明低浓度在 SK-Mel-19(BRAF 突变体)和 SK-Mel-28(BRAF 突变体)中促进细胞停滞作用,但在 SK-Mel-147(NRAS 突变体)中则不然。在 SK-Mel-19 中,用普洛吉辛和环壬基普罗迪京处理 24 小时后,G1 期细胞群增加。进一步的研究表明,普洛吉辛诱导了细胞凋亡和 DNA 损伤,这可以通过增加半胱天冬酶-3 的切割和组蛋白 H2AX 的磷酸化来检测,这进一步证明了生存素的下调。计算机模拟表明,普洛吉辛和环壬基普罗迪京结合到生存素的 BIR 结构域。此外,生存素的敲低增加了普洛吉辛的长期毒性,表现为克隆形成能力降低,但不改变短期细胞毒性。总之,普罗迪京处理引起了细胞停滞而不是细胞毒性作用,G0/G1 期细胞周期阻滞,诱导细胞凋亡和 DNA 损伤,下调生存素,以及在生存素敲低细胞中降低克隆形成能力。
