Department of Urology, Comprehensive Cancer Center, Medical University of Vienna, Vienna, Austria.
Department of Medicine I, Institute of Cancer Research and Comprehensive Cancer Center, Medical University Vienna, Vienna, Austria.
Eur Urol. 2022 Sep;82(3):261-270. doi: 10.1016/j.eururo.2022.03.009. Epub 2022 Apr 4.
The heterogeneity of bladder cancers (BCs) is a major challenge for the development of novel therapies. However, given the high rates of recurrence and/or treatment failure, the identification of effective therapeutic strategies is an urgent clinical need.
We aimed to establish a model system for drug identification/repurposing in order to identify novel therapies for the treatment of BC.
DESIGN, SETTING, AND PARTICIPANTS: A collection of commercially available BC cell lines (n = 32) was comprehensively characterized. A panel of 23 cell lines, representing a broad spectrum of BC, was selected to perform a high-throughput drug screen.
Positive hits were defined as compounds giving >50% inhibition in at least one BC cell line.
Amongst >1700 tested chemical compounds, a total of 471 substances exhibited antineoplastic effects. Clofarabine, an antimetabolite drug used as third-line treatment for childhood acute lymphoblastic leukaemia, was amongst the limited number of drugs with inhibitory effects on cell lines of all intrinsic subtypes. We, thus, reassessed the substance and confirmed its inhibitory effects on commercially available cell lines and patient-derived cell cultures representing various disease stages, intrinsic subtypes, and histologic variants. To verify these effects in vivo, a patient-derived cell xenograft model for urothelial carcinoma (UC) was used. Well-tolerated doses of clofarabine induced complete remission in all treated animals (n = 12) suffering from both early- and late-stage disease. We further took advantage of another patient-derived cell xenograft model originating from the rare disease entity sarcomatoid carcinoma (SaC). Similarly to UC xenograft mice, clofarabine induced subcomplete to complete tumour remissions in all treated animals (n = 8).
The potent effects of clofarabine in vitro and in vivo suggest that our findings may be of high clinical relevance. Clinical trials are needed to assess the value of clofarabine in improving BC patient care.
We used commercially available cell lines for the identification of novel drugs for the treatment of bladder cancer. We confirmed the effects of one of these drugs, clofarabine, in patient-derived cell lines and two different mouse models, thereby demonstrating a potential clinical relevance of this substance in bladder cancer treatment.
膀胱癌(BC)的异质性是开发新疗法的主要挑战。然而,鉴于复发率和/或治疗失败率高,确定有效的治疗策略是迫切的临床需求。
我们旨在建立药物鉴定/再利用的模型系统,以确定治疗 BC 的新疗法。
设计、设置和参与者:对一组商业上可用的 BC 细胞系(n = 32)进行了全面表征。选择了一个代表广泛 BC 的 23 个细胞系的小组进行高通量药物筛选。
阳性命中定义为至少在一种 BC 细胞系中抑制率超过 50%的化合物。
在测试的 >1700 种化学化合物中,共有 471 种物质具有抗肿瘤作用。氯法拉滨是一种用于治疗儿童急性淋巴细胞白血病的三线治疗药物,是少数对所有内在亚型的细胞系均具有抑制作用的药物之一。因此,我们重新评估了该物质,并证实其对商业上可用的细胞系和代表各种疾病阶段、内在亚型和组织学变体的患者来源细胞培养物具有抑制作用。为了在体内验证这些效果,我们使用了一个用于尿路上皮癌(UC)的患者来源细胞异种移植模型。所有接受治疗的动物(n = 12)均耐受良好的氯法拉滨剂量,可完全缓解早期和晚期疾病。我们进一步利用另一个源自罕见疾病实体肉瘤样癌(SaC)的患者来源细胞异种移植模型。与 UC 异种移植小鼠类似,氯法拉滨诱导所有接受治疗的动物(n = 8)的肿瘤部分缓解至完全缓解。
氯法拉滨在体外和体内的强大作用表明,我们的发现可能具有很高的临床相关性。需要进行临床试验来评估氯法拉滨在改善 BC 患者护理方面的价值。
我们使用商业上可用的细胞系来鉴定治疗膀胱癌的新药。我们在患者来源的细胞系和两种不同的小鼠模型中证实了其中一种药物氯法拉滨的作用,从而证明了这种物质在膀胱癌治疗中的潜在临床相关性。
