Haley John D, Smith David E, Schwedes Janine, Brennan Richard, Pearce Cedric, Moore Claudia, Wang Faye, Petti Fillipo, Grosveld Frank, Jane Stephen M, Noguchi Constance T, Schechter Alan N
OSI Pharmaceuticals Inc., Farmingdale, NY 11735, USA.
Biochem Pharmacol. 2003 Nov 1;66(9):1755-68. doi: 10.1016/s0006-2952(03)00542-2.
Inhibition of HbS polymerization is a major target for therapeutic approaches in sickle cell anemia. Toward this goal, initial efforts at pharmacological elevation of fetal hemoglobin (HbF) has shown therapeutic efficacy. In order to identify well-tolerated, novel agents that induce HbF in patients, we developed a high-throughput screening approach based on induction of gamma-globin gene expression in erythroid cells. We measured gamma-globin transcription in K562 cells transfected with either gamma promoter elements fused with the locus control region hypersensitivity site 2 and luciferase reporter gene (HS2 gamma) or a beta-yeast artificial chromosome in which the luciferase reporter gene was recombined into the gamma-globin coding sequences (gamma YAC). Corresponding pharmacological increases in HbF protein were confirmed in both K562 cells and in human primary erythroid progenitor cells. Approximately 186,000 defined chemicals and fungal extracts were evaluated for their ability to increase gamma gene transcription in either HS2 gamma or gamma YAC models. Eleven distinct classes of compounds were identified, the majority of which were active within 24-48 hr. The short chain hydroxamate-containing class generally exhibited delayed maximal activity, which continued to increase transcription up to 120 hr. The cyclic tetrapeptide OSI-2040 and the hydroxamates were shown to have histone deacetylase inhibitory activity. In primary hematopoietic progenitor cell cultures, OSI-2040 increased HbF by 4.5-fold at a concentration of only 40 nM, comparable to the effects of hydroxyurea at 100 microM. This screening methodology successfully identifies active compounds for further mechanistic and preclinical evaluation as potential therapeutic agents for sickle cell anemia.
抑制血红蛋白S(HbS)聚合是镰状细胞贫血治疗方法的主要目标。为实现这一目标,最初提高胎儿血红蛋白(HbF)的药理学努力已显示出治疗效果。为了识别在患者中诱导HbF的耐受性良好的新型药物,我们基于红系细胞中γ-珠蛋白基因表达的诱导开发了一种高通量筛选方法。我们测量了用与基因座控制区超敏位点2融合的γ启动子元件和荧光素酶报告基因(HS2γ)或荧光素酶报告基因重组到γ-珠蛋白编码序列中的β-酵母人工染色体(γYAC)转染的K562细胞中的γ-珠蛋白转录。在K562细胞和人类原代红系祖细胞中均证实了相应的HbF蛋白药理学增加。评估了约186,000种特定化学品和真菌提取物在HS2γ或γYAC模型中增加γ基因转录的能力。鉴定出11类不同的化合物,其中大多数在24-48小时内具有活性。含短链异羟肟酸酯的类别通常表现出延迟的最大活性,其转录持续增加直至120小时。环状四肽OSI-2040和异羟肟酸酯显示具有组蛋白脱乙酰酶抑制活性。在原代造血祖细胞培养物中,OSI-2040在仅40 nM的浓度下使HbF增加4.5倍,与100 μM羟基脲 的效果相当。这种筛选方法成功地鉴定出活性化合物,用于进一步的机制和临床前评估,作为镰状细胞贫血的潜在治疗药物。