988:组蛋白去乙酰化酶和组织蛋白酶L双刺激反应性阿霉素前药的合成及临床前评价

S. Punganuru, H. Madala, Viswanath Arutla, K. Srivenugopal
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引用次数: 0

摘要

多柔比星(DOX)是一种蒽环类药物,是一种领先的抗癌药物,对许多实体和血液恶性肿瘤具有广泛的活性。但其疗效低、心脏毒性大、易发生继发性恶性肿瘤,限制了其临床应用。目前迫切需要在保持其抗癌作用的同时消除其不良反应。癌症治疗的主要目标之一是选择性地靶向恶性肿瘤而不是正常组织。避免这些严重不良反应的一种方法是开发靶向肿瘤的前药,这些前药在肿瘤部位转化为活性抗肿瘤药物,存在过度表达的人类癌症酶。其中,组蛋白去乙酰化酶(hdac)和组织蛋白酶L (CTSL)在癌细胞中高度表达,被认为是潜在的癌症特异性靶点。hdac是参与组蛋白和非组蛋白调控的关键酶,已知肿瘤细胞中hdac的升高与肿瘤的发生、进展和转移密切相关。同样,溶酶体半胱氨酸蛋白酶CTSL在肿瘤进展和转移的多个阶段起着关键作用。在本研究中,我们开发了一种新的前药,将乙酰化赖氨酸基团偶联到阿霉素上(Lys(Ac)-Dox),这是一种被hdac和CTSL连续激活的细胞毒性药物,释放阿霉素。我们首先在体外验证了hdac和CTSL是否能特异性切割Lys(Ac)-Dox。结果表明,与hdac和CTSL在37℃下孵育20 h后,Lys(Ac)-Dox的水解率达到99%,表明目标酶可以成功裂解Lys(Ac)-Dox。为了证明Lys(Ac)-Dox对癌细胞具有较强的生长抑制作用,我们测定了游离DOX和Lys(Ac)-Dox对肺癌细胞系正常人肺上皮细胞系的细胞毒性。从细胞系测试得到的剂量-反应曲线表明,Dox对癌细胞和正常细胞具有相同的细胞毒性。相比之下,Lys(Ac)-Dox对癌细胞具有高度的细胞毒性,对正常细胞无毒。为了检测Lys(Ac)-Dox对Dox的体内抗癌作用,我们在裸鼠身上皮下注射人肺癌细胞A549和H460,建立了异种移植物。Lys (Ac)-Dox和Dox以5 mg/kg的剂量每日ig给药。前药的肿瘤消退明显高于Dox(>2倍)。阿霉素治疗后全血循环网状细胞计数减少反映了药物引起的血液学毒性。只有阿霉素引起明显的网状细胞消融,而前药没有,验证了我们的药物设计。包括topo II抑制和前药ROS产生的生化测试正在进行中(由CPRIT授予KSS RP 170207支持)。注:本摘要未在会议上提交。引文格式:Surendra R. Punganuru, Hanumantha Rao Madala, Viswanath Arutla, Kalkunte S. Srivenugopal。组蛋白去乙酰化酶和组织蛋白酶L激活双刺激反应性阿霉素前药的合成及临床前评价[摘要]。摘自:2019年美国癌症研究协会年会论文集;2019年3月29日至4月3日;亚特兰大,乔治亚州。费城(PA): AACR;癌症杂志,2019;79(13增刊):摘要第988期。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Abstract 988: Synthesis and preclinical evaluation of dual-stimuli responsive doxorubicin prodrug activated by histone deacetylases and cathepsin L
Doxorubicin (DOX) an anthracycline is a leading anticancer drug with a broad spectrum of activity against numerous solid and hematologic malignancies. However, its clinical application is limited by lower efficacy, severe cardiotoxicity and occurrence of secondary malignancies. There is an urgent need for eliminating the Dox adverse effects while retaining its anticancer efficacy. One of the major goals of cancer therapy is the selective targeting of malignancies over normal tissues. One way to avoid these severe adverse reactions is to develop tumor-targeted prodrugs that are converted to active antitumor drugs at tumor sites in the presence of enzymes that are overexpressed human cancers. Among these, the histone deacetylases (HDACs) and cathepsin L (CTSL) are highly expressed in cancer cells and are considered as potential cancer-specific targets. HDACs are critical enzymes involved in the regulation of histone and non-histone proteins and elevated HDACs in tumor cells are known to be closely associated with tumor initiation, progression, and metastasis. Similarly, the lysosomal cysteine protease CTSL plays key roles at multiple stages of tumor progression and metastasis. In the present study, we developed a new prodrug by coupling an acetylated lysine group to doxorubicin (Lys(Ac)-Dox), a masked cytotoxic agent, which is consecutively activated by HDACs and a CTSL to liberate doxorubicin. We first verified whether Lys(Ac)-Dox could be specifically cleaved by HDACs and CTSL in vitro. The results showed that after incubating with HDACs and CTSL at 37 °C for 20 h, the hydrolysis of Lys(Ac)-Dox reached 99%, suggesting that Lys(Ac)-Dox could be successfully cleaved by the target enzymes. To prove that the Lys(Ac)-Dox would have a much improved growth-inhibitory effect against cancer cells, the cytotoxicity of free DOX and Lys(Ac)-Dox against lung cancer cell lines normal human lung epithelial cell line was determined. The dose-response curves obtained from the cell lines tested indicated that Dox was equally cytotoxic against both cancer and normal cells. In contrast, Lys(Ac)-Dox highly cytotoxic against cancer cells and non-toxic to the normal counterparts. To measure the in vivo anticancer efficacy of Lys(Ac)-Dox vis-vis Dox, we developed subcutaneous xenografts by injecting human lung cancer A549 and H460 cells in nude mice. Lys (Ac)-Dox and Dox were administered daily i.p. at 5 mg/kg. The prodrug showed a significantly higher (>2-fold) tumor regression than Dox. A diminished circulating reticulocyte counts from whole blood after Dox treatment is known to reflect the hematological toxicity caused by the drug. Only Dox caused significant reticulocyte ablation while the prodrug did not, validating our drug design. Biochemical tests involving topo II inhibition and ROS production by the prodrug are in progress (supported by CPRIT grant RP 170207 to KSS). Note: This abstract was not presented at the meeting. Citation Format: Surendra R. Punganuru, Hanumantha Rao Madala, Viswanath Arutla, Kalkunte S. Srivenugopal. Synthesis and preclinical evaluation of dual-stimuli responsive doxorubicin prodrug activated by histone deacetylases and cathepsin L [abstract]. In: Proceedings of the American Association for Cancer Research Annual Meeting 2019; 2019 Mar 29-Apr 3; Atlanta, GA. Philadelphia (PA): AACR; Cancer Res 2019;79(13 Suppl):Abstract nr 988.
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