Combination of dasatinib and curcumin eliminates chemo-resistant colon cancer cells.

Q2 Biochemistry, Genetics and Molecular Biology Journal of Molecular Signaling Pub Date : 2011-07-20 DOI:10.1186/1750-2187-6-7
Jyoti Nautiyal, Shailender S Kanwar, Yingjie Yu, Adhip Pn Majumdar
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引用次数: 129

Abstract

Metastatic colorectal cancer remains a serious health concern with poor patient survival. Although 5-Fluorouracil (5-FU) or 5-FU plus oxaliplatin (FOLFOX) is the standard therapy for colorectal cancer, it has met with limited success. Recurrence of the tumor after chemotherapy could partly be explained by the enrichment of the chemo-resistant sub-population of cancer stem cells (CSCs) that possess the ability for self-renewal and differentiation into different lineages in the tumor. Therefore development of therapeutic strategies that target CSCs for successful treatment of this malignancy is warranted. The current investigation was undertaken to examine the effectiveness of the combination therapy of dasatinib (a Src inhibitor) and curcumin (a dietary agent with pleiotropic effect) in inhibiting the growth and other properties of carcinogenesis of chemo-resistant colon cancer cells that are enriched in CSCs sub-population. Remnants of spontaneous adenomas from APCMin +/- mice treated with dasatinib and/or curcumin were analyzed for several cancer stem cell markers (ALDH, CD44, CD133 and CD166). Human colon cancer cells HCT-116 (p53 wild type; K-ras mutant) and HT-29 (p53 mutant; K-ras wild type) were used to generate FOLFOX resistant (referred to as CR) cells. The effectiveness of the combination therapy in inhibiting growth, invasive potential and stemness was examined in colon cancer CR cells. The residual tumors from APCMin +/- mice treated with dasatinib and/or curcumin showed 80-90% decrease in the expression of the CSC markers ALDH, CD44, CD133, CD166. The colon cancer CR cells showed a higher expression of CSCs markers, cell invasion potential and ability to form colonospheres, compared to the corresponding parental cells. The combination therapy of dasatinib and curcumin demonstrated synergistic interactions in CR HCT-116 and CR HT-29 cells, as determined by Calcusyn analysis. The combinatorial therapy inhibited cellular growth, invasion and colonosphere formation and also reduced CSC population as evidenced by the decreased expression of CSC specific markers: CD133, CD44, CD166 and ALDH. Our data suggest that the combination therapy of dasatinib and curcumin may be a therapeutic strategy for re-emergence of chemo-resistant colon cancer by targeting CSC sub-population.

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达沙替尼和姜黄素的组合消除了化疗耐药的结肠癌细胞。
转移性结直肠癌仍然是一个严重的健康问题,患者生存率低。虽然5-氟尿嘧啶(5-FU)或5-氟尿嘧啶加奥沙利铂(FOLFOX)是结直肠癌的标准治疗方法,但收效甚微。化疗后肿瘤的复发可以部分解释为肿瘤干细胞(CSCs)的耐药亚群的富集,这些细胞具有自我更新和分化为肿瘤中不同谱系的能力。因此,开发针对CSCs的治疗策略以成功治疗这种恶性肿瘤是必要的。目前的研究是为了检查达沙替尼(一种Src抑制剂)和姜黄素(一种具有多效作用的膳食剂)联合治疗在抑制CSCs亚群中富集的化疗耐药结肠癌细胞的生长和其他癌变特性方面的有效性。用达沙替尼和/或姜黄素处理APCMin +/-小鼠的自发性腺瘤残余,分析几种癌症干细胞标志物(ALDH, CD44, CD133和CD166)。人结肠癌细胞HCT-116 (p53野生型);K-ras突变体)和HT-29 (p53突变体;K-ras野生型)产生FOLFOX抗性(简称CR)细胞。在结肠癌CR细胞中检测了联合治疗在抑制生长、侵袭潜能和干细胞性方面的有效性。经达沙替尼和姜黄素处理的APCMin +/-小鼠残余肿瘤中,CSC标志物ALDH、CD44、CD133、CD166的表达降低80-90%。与相应的亲代细胞相比,结肠癌CR细胞表现出更高的CSCs标志物表达、细胞侵袭潜力和形成结肠球的能力。根据Calcusyn分析,达沙替尼和姜黄素联合治疗在CR HCT-116和CR HT-29细胞中表现出协同作用。联合治疗抑制了细胞的生长、侵袭和结肠圈的形成,并减少了CSC群体,这可以从CSC特异性标志物CD133、CD44、CD166和ALDH的表达降低中得到证明。我们的数据表明,达沙替尼和姜黄素联合治疗可能是一种针对CSC亚群的化疗耐药结肠癌复发的治疗策略。
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Journal of Molecular Signaling
Journal of Molecular Signaling Biochemistry, Genetics and Molecular Biology-Biochemistry
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期刊介绍: Journal of Molecular Signaling is an open access, peer-reviewed online journal that encompasses all aspects of molecular signaling. Molecular signaling is an exponentially growing field that encompasses different molecular aspects of cell signaling underlying normal and pathological conditions. Specifically, the research area of the journal is on the normal or aberrant molecular mechanisms involving receptors, G-proteins, kinases, phosphatases, and transcription factors in regulating cell proliferation, differentiation, apoptosis, and oncogenesis in mammalian cells. This area also covers the genetic and epigenetic changes that modulate the signaling properties of cells and the resultant physiological conditions.
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