Graham M A, Bissett D, Setanoians A, Hamilton T, Kerr D J, Henrar R, Kaye S B
Department of Medical Oncology, University of Glasgow, Scotland, U.K.
J Natl Cancer Inst. 1992 Apr 1;84(7):494-500. doi: 10.1093/jnci/84.7.494.
Rhizoxin is a new macrocyclic lactone isolated from the fungus Rhizopus chinensis which displays broad-spectrum antitumor activity against murine and human tumor xenografts and has activity against a number of vincristine-resistant tumors in vitro and in vivo.
This study describes the preclinical and clinical pharmacology of rhizoxin to apply a pharmacokinetically guided dose-escalation (PGDE) strategy during the phase I trial.
Rhizoxin was administered by a single intravenous bolus injection to female BALB/c mice over the dose range 7.5-18 mg/m2 from which we derived the dose that was lethal to 10% and 50% of the mice (i.e., LD10 and LD50, respectively). The LD10 was 11.7 +/- 0.7 mg/m2 (mean +/- SD), and the LD50 was 14.7 +/- 0.6 mg/m2. Pharmacokinetic studies were integrated with the toxicity study in female BALB/c mice at one-tenth the LD10, one-half the LD10, and the LD10 (i.e., 1.2, 6, and 12 mg/m2, respectively). From these data, a target area under the plasma drug concentration versus time curve (AUC) (i.e., 40% of the LD10 AUC) was calculated for clinical studies. Phase I studies were initiated at 0.8 mg/m2 (one-tenth the equivalent LD10 in male CD1 mice), with the intent of escalating the dose by an extended factor-of-two method until the target AUC and/or maximum tolerated dose (MTD) was reached.
The major drug toxic effects in mice were body weight loss, sluggishness, ataxia, transient changes in hematological parameters, and hematuria. Diarrhea was universal at doses greater than 9 mg/m2, and hind limb paralysis was observed in one of 10 mice, but only at supralethal doses (18 mg/m2). Rhizoxin pharmacokinetics were best described by a two-compartment open model (half-life [t 1/2] alpha = 4.4 minutes +/- 0.9 minute [mean +/- SD], and t 1/2 beta = 84 minutes +/- 20 minutes at 12 mg/m2) and found to be nonlinear with respect to dose. At doses of 1.2, 6, and 12 mg/m2, the respective AUC values were 1.3, 22.4, and 70.6 microM x minute. From these data, a target AUC value of 28 microM x minute (40% of the LD10 AUC) was derived. Rhizoxin was not detectable in patient plasma (less than 5 ng/mL at 0.8 and 1.6 mg/m2), and doses had to be escalated by conventional methods. Myelosuppression was dose limiting in patients: Seven of eight treated at 2.6 mg/m2 experienced World Health Organization grade 3-4 neutropenia, and five of eight developed mucositis. The AUC values at the human MTD (2.6 mg/m2) were in the range of 0.41-1.01 microM x minute, considerably lower than the target AUC of 28 microM x minute.
Although PGDE schemes have been successfully employed for other antitumor agents, this methodology could not be applied during the phase I trial of rhizoxin. PGDE studies in the future may incorporate comparative murine versus human metabolism studies in vitro with phenotyped liver microsomes. It may also be useful to assess the comparative myelotoxicity of a new drug by performing in vitro cytotoxicity studies on mouse and human bone marrow stem cells.
根霉素是从中华根霉中分离出的一种新型大环内酯类化合物,对鼠类和人类肿瘤异种移植瘤具有广谱抗肿瘤活性,并且在体外和体内对多种长春新碱耐药肿瘤均有活性。
本研究描述根霉素的临床前和临床药理学,以便在I期试验中应用药代动力学指导的剂量递增(PGDE)策略。
对雌性BALB/c小鼠单次静脉推注根霉素,剂量范围为7.5 - 18 mg/m²,由此得出对10%和50%小鼠致死的剂量(即分别为LD10和LD50)。LD10为11.7±0.7 mg/m²(均值±标准差),LD50为14.7±0.6 mg/m²。药代动力学研究与雌性BALB/c小鼠的毒性研究相结合,剂量分别为LD10的十分之一、二分之一和LD10(即分别为1.2、6和12 mg/m²)。根据这些数据,计算出用于临床研究的血浆药物浓度 - 时间曲线下目标面积(AUC)(即LD10 AUC的40%)。I期研究从0.8 mg/m²(雄性CD1小鼠中相当于LD10的十分之一)开始,旨在通过扩展的两倍因子法递增剂量,直至达到目标AUC和/或最大耐受剂量(MTD)。
小鼠的主要药物毒性作用包括体重减轻、行动迟缓、共济失调、血液学参数的短暂变化以及血尿。剂量大于9 mg/m²时普遍出现腹泻,10只小鼠中有1只出现后肢麻痹,但仅在超致死剂量(18 mg/m²)时出现。根霉素的药代动力学最好用二室开放模型描述(半衰期[t 1/2]α = 4.4分钟±0.9分钟[均值±标准差],在12 mg/m²时t 1/2β = 84分钟±20分钟),并且发现其与剂量呈非线性关系。在1.2、6和12 mg/m²剂量下,各自的AUC值分别为1.3、22.4和70.6 μM·分钟。根据这些数据,得出目标AUC值为28 μM·分钟(LD10 AUC的40%)。在患者血浆中未检测到根霉素(在0.8和1.6 mg/m²时低于5 ng/mL),因此必须通过传统方法递增剂量。骨髓抑制是患者的剂量限制因素:8名接受2.6 mg/m²治疗的患者中有7名出现世界卫生组织3 - 4级中性粒细胞减少,8名中有5名出现黏膜炎。人类MTD(2.6 mg/m²)时的AUC值在0.41 - 1.01 μM·分钟范围内,远低于目标AUC的28 μM·分钟。
尽管PGDE方案已成功应用于其他抗肿瘤药物,但该方法在根霉素的I期试验中无法应用。未来的PGDE研究可能会纳入体外对具有表型特征的肝微粒体进行的小鼠与人类代谢比较研究。通过对小鼠和人类骨髓干细胞进行体外细胞毒性研究来评估新药的比较骨髓毒性也可能是有用的。
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