Ellis Leigh, Pan Yan, Smyth Gordon K, George Daniel J, McCormack Chris, Williams-Truax Roxanne, Mita Monica, Beck Joachim, Burris Howard, Ryan Gail, Atadja Peter, Butterfoss Dale, Dugan Margaret, Culver Kenneth, Johnstone Ricky W, Prince H Miles
Peter MacCallum Cancer Centre, East Melbourne, Victoria, Australia.
Clin Cancer Res. 2008 Jul 15;14(14):4500-10. doi: 10.1158/1078-0432.CCR-07-4262.
Histone deacetylase inhibitors can alter gene expression and mediate diverse antitumor activities. Herein, we report the safety and activity of the histone deacetylase inhibitor panobinostat (LBH589) in cutaneous T-cell lymphoma (CTCL) and identify genes commonly regulated by panobinostat.
Panobinostat was administered orally to patients with CTCL on Monday, Wednesday, and Friday of each week on a 28-day cycle. A dose of 30 mg was considered excessively toxic, and subsequent patients were treated at the expanded maximum tolerated dose of 20 mg. Biopsies from six patients taken 0, 4, 8, and 24 h after administration were subjected to microarray gene expression profiling and real-time quantitative PCR of selected genes.
Patients attained a complete response (n = 2), attained a partial response (n = 4), achieved stable disease with ongoing improvement (n = 1), and progressed on treatment (n = 2). Microarray data showed distinct gene expression response profiles over time following panobinostat treatment, with the majority of genes being repressed. Twenty-three genes were commonly regulated by panobinostat in all patients tested.
Panobinostat is well tolerated and induces clinical responses in CTCL patients. Microarray analyses of tumor samples indicate that panobinostat induces rapid changes in gene expression, and surprisingly more genes are repressed than are activated. A unique set of genes that can mediate biological responses such as apoptosis, immune regulation, and angiogenesis were commonly regulated in response to panobinostat. These genes are potential molecular biomarkers for panobinostat activity and are strong candidates for the future assessment of their functional role(s) in mediating the antitumor responses of panobinostat.
组蛋白去乙酰化酶抑制剂可改变基因表达并介导多种抗肿瘤活性。在此,我们报告组蛋白去乙酰化酶抑制剂帕比司他(LBH589)在皮肤T细胞淋巴瘤(CTCL)中的安全性和活性,并鉴定受帕比司他共同调控的基因。
帕比司他每周一、三、五口服给药于CTCL患者,每28天为一个周期。30mg的剂量被认为毒性过大,随后的患者以20mg的扩展最大耐受剂量进行治疗。对6例患者在给药后0、4、8和24小时采集的活检组织进行基因芯片基因表达谱分析和所选基因的实时定量PCR。
患者达到完全缓解(n = 2)、部分缓解(n = 4)、病情稳定且持续改善(n = 1)以及疾病进展(n = 2)。基因芯片数据显示帕比司他治疗后不同时间的基因表达反应谱不同,大多数基因被抑制。在所有测试患者中,有23个基因受帕比司他共同调控。
帕比司他耐受性良好,并在CTCL患者中诱导临床反应。肿瘤样本的基因芯片分析表明,帕比司他可诱导基因表达的快速变化,且令人惊讶的是,被抑制的基因比被激活的基因更多。一组独特的可介导诸如凋亡、免疫调节和血管生成等生物学反应的基因在对帕比司他的反应中受到共同调控。这些基因是帕比司他活性的潜在分子生物标志物,并且是未来评估其在介导帕比司他抗肿瘤反应中的功能作用的有力候选者。
