Lu Jie, Kunimoto Setsuko, Yamazaki Yohko, Kaminishi Michio, Esumi Hiroyasu
Investigative Treatment Division, National Cancer Center Research Institute East, Chiba 277-8577, Japan.
Cancer Sci. 2004 Jun;95(6):547-52. doi: 10.1111/j.1349-7006.2004.tb03247.x.
Both tolerance to nutrient starvation and angiogenesis are essential for cancer progression because of the insufficient supply of nutrients to tumor tissue. Since chronic nutrient starvation seldom occurs in normal tissue, cancer's tolerance to nutrient starvation should provide a novel target for cancer therapy. In this study, we propose an anti-austerity strategy to exploit the ability of agents to eliminate cancer cells' tolerance to nutrient starvation. We established a simple screening method for agents that inhibit cancer cell viability preferentially during nutrient starvation, using PANC-1 cell line cultured in nutrient-rich and nutrient-deprived media. After screening over 2000 culture media of actinomycetes, we identified a new compound, kigamicin D (C(48)H(59)NO(19)), which shows preferential cytotoxicity to cancer cells under nutrient-deprived conditions, but hardly any cytotoxicity under nutrient-rich conditions. Both subcutaneous and oral administration of kigamicin D strongly suppressed the tumor growth of several tested pancreatic cancer cell lines in nude mice. Moreover, kigamicin D was observed to block the activation of Akt induced by nutrient starvation. Therefore, our results suggest that kigamicin D be a candidate for implementing our novel concept, anti-austerity, which may serve as a new strategy for cancer therapy.
由于肿瘤组织的营养供应不足,对营养饥饿的耐受性和血管生成对癌症进展都至关重要。由于正常组织中很少发生慢性营养饥饿,癌症对营养饥饿的耐受性应为癌症治疗提供一个新靶点。在本研究中,我们提出一种抗紧缩策略,以利用药物消除癌细胞对营养饥饿耐受性的能力。我们建立了一种简单的筛选方法,用于筛选在营养饥饿期间优先抑制癌细胞活力的药物,使用在营养丰富和营养缺乏培养基中培养的PANC - 1细胞系。在筛选了2000多种放线菌培养基后,我们鉴定出一种新化合物,奇加米星D(C(48)H(59)NO(19)),它在营养缺乏条件下对癌细胞表现出优先的细胞毒性,但在营养丰富条件下几乎没有细胞毒性。皮下和口服奇加米星D均强烈抑制裸鼠中几种测试的胰腺癌细胞系的肿瘤生长。此外,观察到奇加米星D可阻断营养饥饿诱导的Akt激活。因此,我们的结果表明奇加米星D是实施我们的新概念——抗紧缩的候选药物,这可能成为癌症治疗的新策略。