Efficacy, pharmacokinetics, tisssue distribution, and metabolism of the Myc-Max disruptor, 10058-F4 (Z,E)-5-(4-ethylbenzylidine)-2-thioxothiazolidin-4-one, in mice.

Guo J; Parise RA; Joseph E; Egorin MJ; Lazo JS; Prochownik EV; Eiseman JL

首页> 外文期刊>Cancer chemotherapy and pharmacology. >Efficacy, pharmacokinetics, tisssue distribution, and metabolism of the Myc-Max disruptor, 10058-F4 (Z,E)-5-(4-ethylbenzylidine)-2-thioxothiazolidin-4-one, in mice.

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Efficacy, pharmacokinetics, tisssue distribution, and metabolism of the Myc-Max disruptor, 10058-F4 (Z,E)-5-(4-ethylbenzylidine)-2-thioxothiazolidin-4-one, in mice.

机译：Myc-Max破坏者10058-F4（Z，E）-5-（4-乙基苄基）-2-硫代噻唑烷酮-4-一的功效，药代动力学，组织分布和代谢在小鼠中。

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OBJECTIVES: c-Myc is commonly activated in many human tumors and is functionally important in cellular proliferation, differentiation, apoptosis and cell cycle progression. The activity of c-Myc requires noncovalent interaction with its client protein Max. In vitro studies indicate the thioxothiazolidinone, 10058-F4, inhibits c-Myc/Max dimerization. In this study, we report the efficacy, pharmacokinetics and metabolism of this novel protein-protein disruptor in mice. METHODS: SCID mice bearing DU145 or PC-3 human prostate cancer xenografts were treated with either 20 or 30 mg/kg 10058-F4 on a qdx5 schedule for 2 weeks for efficacy studies. For pharmacokinetics and metabolism studies, mice bearing PC-3 or DU145 xenografts were treated with 20 mg/kg of 10058-F4 i.v. Plasma and tissues were collected 5-1440 min after dosing. The concentration of 10058-F4 in plasma and tissues was determined by HPLC, and metabolites were characterized by LC-MS/MS. RESULTS: Following a single iv dose, peak plasma 10058-F4 concentrations of approximately 300 muM were seen at 5 min and declined to below the detection limit at 360 min. Plasma concentration versus time data were best approximated by a two-compartment, open, linear model. The highest tissue concentrations of 10058-F4 were found in fat, lung, liver, and kidney. Peak tumor concentrations of 10058-F4 were at least tenfold lower than peak plasma concentrations. Eight metabolites of 10058-F4 were identified in plasma, liver, and kidney. The terminal half-life of 10058-F4 was approximately 1 h, and the volume of distribution was >200 ml/kg. No significant inhibition of tumor growth was seen after i.v. treatment of mice with either 20 or 30 mg/kg 10058-F4. CONCLUSION: The lack of significant antitumor activity of 10058-F4 in tumor-bearing mice may have resulted from its rapid metabolism and low concentration in tumors.

机译：目的：c-Myc通常在许多人类肿瘤中被激活，并且在细胞增殖，分化，凋亡和细胞周期进程中具有重要的功能。 c-Myc的活性需要与其客户蛋白质Max的非共价相互作用。体外研究表明，硫代噻唑烷酮10058-F4抑制c-Myc / Max二聚化。在这项研究中，我们报告了这种新型蛋白质-蛋白质破坏剂在小鼠中的功效，药代动力学和代谢。方法：对携带DU145或PC-3人前列腺癌异种移植物的SCID小鼠按qdx5时间表用20或30 mg / kg 10058-F4处理2周，以进行功效研究。为了进行药代动力学和新陈代谢研究，用20 mg / kg的10058-F4 i.v.处理含有PC-3或DU145异种移植物的小鼠。给药后5-1440分钟收集血浆和组织。通过HPLC测定血浆和组织中10058-F4的浓度，并通过LC-MS / MS表征代谢产物。结果：单次静脉注射后，在5分钟时血浆血浆10058-F4的最高浓度约为300μM，并在360分钟时降至检测极限以下。血浆浓度与时间的数据最好通过两室开放线性模型进行近似估算。在脂肪，肺，肝和肾中发现最高的组织浓度为10058-F4。 10058-F4的峰值肿瘤浓度比峰值血浆浓度低至少十倍。在血浆，肝脏和肾脏中鉴定出10058-F4的八种代谢物。 10058-F4的最终半衰期约为1小时，分配体积> 200 ml / kg。静脉注射后未见明显的肿瘤生长抑制作用。用20或30 mg / kg 10058-F4处理小鼠。结论：10058-F4在荷瘤小鼠体内缺乏明显的抗肿瘤活性可能是由于其快速代谢和在肿瘤中的低浓度所致。

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《Cancer chemotherapy and pharmacology.》 |2009年第4期|共11页
作者
Guo J; Parise RA; Joseph E; Egorin MJ; Lazo JS; Prochownik EV; Eiseman JL;
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正文语种 eng
中图分类肿瘤学;药理学;内科学;
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Laboratory mice; Plasma; Pharmacokinetic; metabolic aspects; Distributing; 血浆;

机译：实验小鼠;血浆;药代动力学;代谢方面;分布;血浆;

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Efficacy, pharmacokinetics, tisssue distribution, and metabolism of the Myc-Max disruptor, 10058-F4 (Z,E)-5-(4-ethylbenzylidine)-2-thioxothiazolidin-4-one, in mice.

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