Vincent Laure-Anais, Attaoua Chaker, Bellis Michel, Rozkydalova Lucie, Hadj-Kaddour Kamel, Vian Laurence, Cuq Pierre
Laboratoire de Toxicologie du Médicament, Institut des Biomolécules Max Mousseron (UMR5247), UFR des Sciences Pharmaceutiques et Biologiques, Université de Montpellier, 15 Avenue Charles Flahault, BP14491, 34093, Montpellier Cedex 05, France.
Fundam Clin Pharmacol. 2015 Apr;29(2):164-77. doi: 10.1111/fcp.12098. Epub 2015 Feb 27.
On account of its strong ability to become chemoresistant after a primary response to drugs, malignant melanoma (MM) remains a therapeutic challenge. This study focuses on acquired resistance to vinca alkaloids (VAs) using VA-resistant MM cell lines (CAL1R-VCR, CAL1R-VDS, and CAL1R-VRB), established by long-term continuous exposure of parental CAL1-wt cells to vincristine (VCR), vindesine (VDS), or vinorelbine (VRB), respectively. Transcriptomic profiling using rma and rdam methods led to distinguish two cell groups: CAL1R-VCR and CAL1R-VDS, CAL1R-VRB, and CAL1-wt. mgsa of the specifically altered genes in the first group evidenced the GO terms 'lysosomal lumen' and 'vacuolar lumen' linked to underexpressed genes, and 'endoplasmic reticulum (ER) stress response' associated with overexpressed genes. A specific reduction of lysosomal enzymes, independent of acidic vacuole organelle (AVO) turnover, was observed (LTG probe) in CAL1R-VCR and CAL1R-VDS cells. It was associated with the specific lowering of cathepsin B and L, known to be involved in the lysosomal pathway of apoptosis. Confirming gene profiling, the same groups (CAL1R-VCR and CAL1R-VDS, CAL1-wt and CAL1R-VRB) could be distinguished regarding the VA-mediated changes on mean size areas and on acidic compartment volumes. These two parameters were reduced in CAL1R-VCR and CAL1R-VDS cells, suggesting a smaller AVO accumulation and thus a reduced sensitivity to lysosomal membrane permeabilization-mediated apoptosis. In addition, 'ER stress response' inhibition by tauroursodeoxycholic acid induced a higher VA sensitization of the first cell group. In conclusion, lysosomes and unfolded protein response could be key determinants of the differential resistance of MM to VAs.
由于恶性黑色素瘤(MM)在对药物产生初始反应后具有很强的化学抗性,因此仍然是一个治疗挑战。本研究使用对长春花生物碱(VA)具有抗性的MM细胞系(CAL1R-VCR、CAL1R-VDS和CAL1R-VRB),重点研究获得性对VA的抗性,这些细胞系是通过将亲本CAL1-wt细胞分别长期连续暴露于长春新碱(VCR)、长春地辛(VDS)或长春瑞滨(VRB)而建立的。使用rma和rdam方法进行转录组分析,区分出两个细胞组:CAL1R-VCR和CAL1R-VDS、CAL1R-VRB以及CAL1-wt。对第一组中特异性改变的基因进行基因本体富集分析(mgsa),结果表明与低表达基因相关的“溶酶体腔”和“液泡腔”的基因本体术语,以及与高表达基因相关的“内质网(ER)应激反应”。在CAL1R-VCR和CAL1R-VDS细胞中观察到溶酶体酶的特异性减少,且与酸性液泡细胞器(AVO)周转无关(LTG探针)。这与已知参与溶酶体凋亡途径的组织蛋白酶B和L的特异性降低有关。与基因分析结果一致,关于VA介导的平均大小区域和酸性区室体积的变化,也可以区分出相同的组(CAL1R-VCR和CAL1R-VDS、CAL1-wt和CAL1R-VRB)。在CAL1R-VCR和CAL1R-VDS细胞中,这两个参数降低,表明AVO积累较少,因此对溶酶体膜通透性介导的凋亡敏感性降低。此外,牛磺熊去氧胆酸对“ER应激反应”的抑制导致第一组细胞对VA的敏感性更高。总之,溶酶体和未折叠蛋白反应可能是MM对VA差异抗性的关键决定因素。
