Vassal G, Terrier-Lacombe M J, Bissery M C, Vénuat A M, Gyergyay F, Bénard J, Morizet J, Boland I, Ardouin P, Bressac-de-Paillerets B, Gouyette A
Department of Pediatric Oncology, Institut Gustave-Roussy, Villejuif, France.
Br J Cancer. 1996 Aug;74(4):537-45. doi: 10.1038/bjc.1996.398.
The anti-tumour activity of CPT-11, a topoisomerase I inhibitor, was evaluated in four human neural-crest-derived paediatric tumour xenografts; one peripheral primitive neuroectodermal tumour (pPNET) (SK-N-MC) and three neuroblastomas. Two models, SK-N-MC and IGR-N835, were established in athymic mice from a previously established in vitro cell line. Two new neuroblastoma xenograft models, IGR-NB3 and IGR-NB8, were derived from previously untreated non-metastatic neuroblastomas. They exhibited the classic histological features of immature neuroblastoma along with N-myc amplification, paradiploidy, chromosome 1p deletions and overexpression of the human mdr 1 gene. These tumour markers have been shown to be poor prognostic factors in children treated for neuroblastoma. CPT-11 was tested against advanced stage subcutaneous tumours. CPT-11 was administered i.v. using an intermittent (q4d x 3) and a daily x 5 schedule. The optimal dosage and schedule was 40 mg kg-1 daily for 5 days. At this highest non-toxic dose, CPT-11 induced 100% tumour-free survivors on day 121 in mice bearing the pPNET SK-N-MC xenograft. For the three neuroblastoma xenografts, 38-100% complete tumour regressions were observed with a tumour growth delay from 38 to 42 days, and anti-tumour activity was clearly sustained at a lower dosage (27 mg kg-1 day-1). The efficacy of five anti-cancer drugs commonly used in paediatric oncology or in clinical development was evaluated against SK-N-MC and IGR-N835. The sensitivity of these two xenografts to cyclophosphamide, thiotepa and cisplatin was of the same order of magnitude as that of CPT-11, but they were refractory to etoposide and taxol. In conclusion, CPT-11 demonstrated significant activity against pPNET and neuroblastoma xenografts. Further clinical development of CPT-11 in paediatric oncology is warranted.
拓扑异构酶I抑制剂CPT-11的抗肿瘤活性在四种源自人类神经嵴的儿科肿瘤异种移植模型中进行了评估;一种是外周原始神经外胚层肿瘤(pPNET)(SK-N-MC),另外三种是神经母细胞瘤。其中两种模型,SK-N-MC和IGR-N835,是从先前建立的体外细胞系在无胸腺小鼠中建立的。另外两种新的神经母细胞瘤异种移植模型,IGR-NB3和IGR-NB8,源自先前未经治疗的非转移性神经母细胞瘤。它们表现出未成熟神经母细胞瘤的典型组织学特征,同时伴有N-myc扩增、亚二倍体、1号染色体缺失和人类mdr 1基因的过表达。这些肿瘤标志物已被证明是接受神经母细胞瘤治疗的儿童预后不良的因素。CPT-11针对晚期皮下肿瘤进行了测试。CPT-11通过静脉注射给药,采用间歇给药(每4天一次,共3次)和每日给药5天的方案。最佳剂量和方案是每天40 mg/kg,共5天。在这个最高无毒剂量下,CPT-11在携带pPNET SK-N-MC异种移植瘤的小鼠中,于第121天诱导出100%无瘤存活者。对于三种神经母细胞瘤异种移植瘤,观察到38%-100%的肿瘤完全消退,肿瘤生长延迟38至42天,并且在较低剂量(27 mg/kg/天)下抗肿瘤活性明显持续。评估了儿科肿瘤学中常用或处于临床开发阶段的五种抗癌药物对SK-N-MC和IGR-N835的疗效。这两种异种移植瘤对环磷酰胺、噻替派和顺铂的敏感性与CPT-11处于同一数量级,但它们对依托泊苷和紫杉醇耐药。总之,CPT-11对pPNET和神经母细胞瘤异种移植瘤显示出显著活性。CPT-11在儿科肿瘤学中的进一步临床开发是有必要的。
