Zhu Xiaohui, Chen Li, Jiang Sheng, Chen Chun, Yao Yiwu, Chen Dong, Xue Hongman, Pan Jingxuan
Department of Pathophysiology; Zhongshan School of Medicine; Sun Yat-sen University; Guangzhou, PR China; Key Laboratory of Tropical Disease Control; Sun Yat-sen University; Ministry of Education; Guangzhou, PR China.
Key Laboratory of Regenerative Biology and Institute of Chemical Biology; Guangzhou Institute of Biomedicine and Health; Chinese Academy of Sciences; Guangzhou Science Park; Guangzhou, PR China.
Cancer Biol Ther. 2014 Jan;15(1):119-27. doi: 10.4161/cbt.27145. Epub 2013 Nov 19.
Acute lymphoblastic leukemia (ALL) is a malignant disorder of lymphoid progenitor cells that are committed to the B- or the T-cell lineage. The pathogenesis of ALL is heterogeneous and may be at least in part caused by genetic alterations. Although the modern sequencing technologies make it possible to rapidly discover novel genetic and epigenetic alterations and molecular targets for therapeutic intervention for ALL, conventional chemotherapy is still the most important therapeutic approach. Relapses and high morbidity and mortality remain major challenges particularly in adult patients with ALL. Therefore, development of novel chemotherapeutic agents remains in demand for ALL patients. In the course of seeking novel agents against ALL, we screened a library of small molecules and identified that PQJS380, a S-(E)-4-([7S,10S]-4-ethyl-7-isopropyl-2,5,8,12-tetraoxo-9-oxa-3,6,13,18-tetraaza-bicycle[13,2,1] octadec-1-en-10-yl)but-3-enyl octanethioate, showed potent anti-leukemia activity. PQJS380 inhibited the proliferation with IC 50 values of 14.25 nM and 5 nM in REH and NALM-6 cells, respectively. PQJS380 had 10-fold higher molar potency than the front-line ALL drugs Ara-C and VP-16. The median IC 50 value for leukemia blast cells from 17 patients with ALL was 52 nM. PQJS380 induced G 1-phase arrest in REH cells, and S-phase in NALM-6 cells, respectively. Treatment of PQJS380 led to apoptosis in ALL cell lines (REH and NALM-6) and primary ALL cells. Our data supported that PQJS380 may be a promising lead compound for ALL treatment even though the precise targets remain to be elucidated.
急性淋巴细胞白血病(ALL)是一种淋巴样祖细胞的恶性疾病,这些祖细胞定向分化为B细胞或T细胞谱系。ALL的发病机制具有异质性,可能至少部分由基因改变引起。尽管现代测序技术使快速发现ALL的新型基因和表观遗传改变以及治疗干预的分子靶点成为可能,但传统化疗仍然是最重要的治疗方法。复发以及高发病率和死亡率仍然是主要挑战,尤其是在成年ALL患者中。因此,开发新型化疗药物对ALL患者仍然很有必要。在寻找抗ALL新型药物的过程中,我们筛选了一个小分子文库,并鉴定出PQJS380,即S-(E)-4-([7S,10S]-4-乙基-7-异丙基-2,5,8,12-四氧代-9-氧杂-3,6,13,18-四氮杂-双环[13,2,1]十八碳-1-烯-10-基)丁-3-烯基辛酸酯,具有强大的抗白血病活性。PQJS380在REH和NALM-6细胞中抑制增殖的IC50值分别为14.25 nM和5 nM。PQJS380的摩尔效力比一线ALL药物阿糖胞苷(Ara-C)和依托泊苷(VP-16)高10倍。17例ALL患者白血病原始细胞的中位IC50值为52 nM。PQJS380分别在REH细胞中诱导G1期阻滞,在NALM-6细胞中诱导S期阻滞。PQJS380处理导致ALL细胞系(REH和NALM-6)以及原发性ALL细胞凋亡。我们的数据支持,尽管确切靶点仍有待阐明,但PQJS380可能是一种有前景的ALL治疗先导化合物。