Anna Ericsson, David J Richard, Erik Wilker, Jr David R Lancia, Shawn Fessler, Paul Troccolo, Xiaozhang Zheng, Angela Toms, Christopher Dinsmore, Lili Yao, Frans A Kuypers, Sandra Larkin, Douglas Marcotte, Keertik Fulzele, Maria Ribadeneira, Sylvie M Guichard, Gary Marshall
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引用次数: 0
摘要
镰状细胞病(SCD)患者贫血会增加 2,3-二磷酸甘油酯(2,3-DPG),降低血红蛋白与氧(Hb-O2)的亲和力,从而改善氧负荷并促进红细胞(RBC)的血红蛋白聚合(镰状细胞)。我们报告发现了 FT-4202,它是一种研究性、选择性丙酮酸激酶-R 型(PKR)激活剂,具有多模式作用机制,可增加 ATP 和减少 2,3-DPG,从而增加 Hb-O2 亲和力、减少 Hb 聚合和改善红细胞健康。FT-4202 是利用 X 射线晶体学、分子建模和热位移测定法,通过结构先导优化药物化学鉴定出来的。FT-4202 是一种异位 PKR 激活剂,它能稳定四聚体酶并提高体外人和小鼠红细胞中 PKR 的活性。与对照组相比,伯克利SCD小鼠口服FT-4202七天可降低2,3-DPG,增加Hb-O2亲和力,并减少红细胞镰状病变。体外安全性方面没有发现任何不良反应。FT-4202 为改变 SCD 病程提供了治疗机会。
FT-4202, a selective pyruvate kinase R activator for sickle cell disease.
Anemia in patients with sickle cell disease (SCD) increases 2,3-diphosphoglycerate (2,3-DPG), decreasing hemoglobin-oxygen (Hb-O2) affinity to improve oxygen offloading and promote hemoglobin polymerization (sickling) of red blood cells (RBCs). We report the discovery of FT-4202, an investigational, selective pyruvate kinase type-R (PKR) activator with a multimodal mechanism of action and potential to increase ATP and decrease 2,3-DPG, resulting in increased Hb-O2 affinity, decreased Hb polymerization, and improved RBC health. FT-4202 was identified via structure-enabled lead optimization medicinal chemistry using X-ray crystallography, molecular modeling, and thermal shift assays. FT-4202, an allosteric PKR activator, stabilizes the tetrameric enzyme and increases PKR activity in human and mouse RBCs in vitro. Seven-day oral administration of FT-4202 in Berkeley SCD mice reduced 2,3-DPG, increased Hb-O2 affinity, and reduced RBC sickling versus control. There were no adverse in vitro safety findings. FT-4202 offers a therapeutic opportunity to modify the course of SCD.
期刊介绍:
Experimental Hematology publishes new findings, methodologies, reviews and perspectives in all areas of hematology and immune cell formation on a monthly basis that may include Special Issues on particular topics of current interest. The overall goal is to report new insights into how normal blood cells are produced, how their production is normally regulated, mechanisms that contribute to hematological diseases and new approaches to their treatment. Specific topics may include relevant developmental and aging processes, stem cell biology, analyses of intrinsic and extrinsic regulatory mechanisms, in vitro behavior of primary cells, clonal tracking, molecular and omics analyses, metabolism, epigenetics, bioengineering approaches, studies in model organisms, novel clinical observations, transplantation biology and new therapeutic avenues.
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