伯氨喹 - 5,6 - 邻醌在人源化小鼠模型中对年龄较大的葡萄糖 - 6 - 磷酸脱氢酶(G6PD)缺乏的红细胞具有直接溶血作用。
Primaquine-5,6-Orthoquinone Is Directly Hemolytic to Older G6PD Deficient RBCs in a Humanized Mouse Model.
作者信息
Dziewulska-Cronk Karolina H, Reisz Julie A, Hay Ariel M, Nemkov Travis, Cendali Francesca I, Issaian Aaron, Lamb Derek R, Palha Mitasha S, Legenzov Eric A, Kao Joseph P Y, Walker Larry A, Tekwani Babu L, Buehler Paul W, D'Alessandro Angelo, Zimring James C
机构信息
Department of Pathology, University of Virginia School of Medicine, Charlottesville, Virginia (K.H.D.-C., A.M.H., J.C.Z.); Carter Immunology Center, University of Virginia, Charlottesville, Virginia (K.H.D.-C., A.M.H., J.C.Z.); Department of Biochemistry and Molecular Genetics, University of Colorado Anschutz Medical Campus, Aurora, Colorado (J.A.R., T.N., F.I.C., A.I., A.D-A.); University of Maryland, School of Medicine, Center for Blood Oxygen Transport and Hemostasis, Department of Pediatrics, Baltimore, Maryland (D.R.L., P.W.B.); Center for Biomedical Engineering and Technology, and Department of Physiology, University of Maryland School of Medicine, Baltimore, Maryland (E.A.L., J.P.Y.K.); University of Maryland School of Medicine, Department of Pathology, Baltimore, Maryland (M.S.P., P.W.B.); National Center for Natural Products Research, School of Pharmacy, University of Mississippi, University, Mississippi (L.A.W.); and GlobaCure, Birmingham, Alabama (B.L.T.).
Department of Pathology, University of Virginia School of Medicine, Charlottesville, Virginia (K.H.D.-C., A.M.H., J.C.Z.); Carter Immunology Center, University of Virginia, Charlottesville, Virginia (K.H.D.-C., A.M.H., J.C.Z.); Department of Biochemistry and Molecular Genetics, University of Colorado Anschutz Medical Campus, Aurora, Colorado (J.A.R., T.N., F.I.C., A.I., A.D-A.); University of Maryland, School of Medicine, Center for Blood Oxygen Transport and Hemostasis, Department of Pediatrics, Baltimore, Maryland (D.R.L., P.W.B.); Center for Biomedical Engineering and Technology, and Department of Physiology, University of Maryland School of Medicine, Baltimore, Maryland (E.A.L., J.P.Y.K.); University of Maryland School of Medicine, Department of Pathology, Baltimore, Maryland (M.S.P., P.W.B.); National Center for Natural Products Research, School of Pharmacy, University of Mississippi, University, Mississippi (L.A.W.); and GlobaCure, Birmingham, Alabama (B.L.T.)
出版信息
J Pharmacol Exp Ther. 2024 Sep 18;391(1):119-129. doi: 10.1124/jpet.124.002218.
Primaquine and Tafenoquine are the only approved drugs that can achieve a radical cure for malaria but are contraindicated in patients who are deficient in glucose 6-phosphate dehydrogenase (G6PDd) due to risk of severe hemolysis from reactive oxygen species generated by redox cycling of drug metabolites. 5-hydroxyprimaquine and its quinoneimine cause robust redox cycling in red blood cells (RBCs) but are so labile as to not be detected in blood or urine. Rather, the quinoneimine is rapidly converted into primaquine-5,6-orthoquinone (5,6-POQ) that is then excreted in the urine. The extent to which 5,6-POQ contributes to hemolysis remains unclear, although some have suggested that it is a minor toxin that should be used predominantly as a surrogate to infer levels of 5-hydroxyprimaquine. In this report, we describe a novel humanized mouse model of the G6PD Mediterranean variant (hG6PD) that recapitulates the human biology of RBC age-dependent enzyme decay, as well as an isogenic matched control mouse with human nondeficient G6PD hG6PD In vitro challenge of RBCs with 5,6-POQ causes increased generation of superoxide and methemoglobin. Infusion of treated RBCs shows that 5,6-POQ selectively causes in vivo clearance of older hG6PD RBCs. These findings support the hypothesis that 5,6-POQ directly induces hemolysis and challenges the notion that 5,6-POQ is an inactive metabolic waste product. Indeed, given the extreme lability of 5-hydroxyprimaquine and the relative stability of 5,6-POQ, these data raise the possibility that 5,6-POQ is a major hemolytic primaquine metabolite in vivo. SIGNIFICANCE STATEMENT: These findings demonstrate that 5,6-POQ, which has been considered an inert waste product of primaquine metabolism, directly induces ROS that cause clearance of older G6PDd RBCs. As 5,6-POQ is relatively stable compared with other active primaquine metabolites, these data support the hypothesis that 5,6-POQ is a major toxin in primaquine induced hemolysis. The findings herein also establish a new model of G6PDd and provide the first direct evidence, to our knowledge, that young G6PDd RBCs are resistant to primaquine-induced hemolysis.
伯氨喹和他非诺喹是目前仅有的经批准可实现疟疾根治的药物,但葡萄糖-6-磷酸脱氢酶(G6PD)缺乏的患者禁用,因为药物代谢产物的氧化还原循环产生的活性氧可能导致严重溶血。5-羟基伯氨喹及其醌亚胺在红细胞(RBC)中会引发强烈的氧化还原循环,但因其极不稳定,在血液或尿液中无法检测到。相反,醌亚胺会迅速转化为伯氨喹-5,6-邻醌(5,6-POQ),然后经尿液排出。尽管有人认为5,6-POQ是一种次要毒素,主要应作为推断5-羟基伯氨喹水平的替代物,但5,6-POQ在溶血过程中所起的作用仍不明确。在本报告中,我们描述了一种新型的G6PD地中海变体人源化小鼠模型(hG6PD),该模型概括了RBC年龄依赖性酶衰减的人类生物学特性,以及与之同基因匹配的具有人类非缺陷G6PD的对照小鼠。用5,6-POQ对RBC进行体外刺激会导致超氧化物和高铁血红蛋白生成增加。输注经处理的RBC表明,5,6-POQ会选择性地导致体内较老的hG6PD RBC清除。这些发现支持了5,6-POQ直接诱导溶血的假设,并对5,6-POQ是无活性代谢废物的观点提出了质疑。事实上,鉴于5-羟基伯氨喹的极端不稳定性和5,6-POQ的相对稳定性,这些数据增加了5,6-POQ是体内主要溶血伯氨喹代谢产物的可能性。意义声明:这些发现表明,一直被认为是伯氨喹代谢惰性废物的5,6-POQ,直接诱导ROS生成,导致较老的G6PD缺乏RBC清除。由于与其他活性伯氨喹代谢产物相比,5,6-POQ相对稳定,这些数据支持了5,6-POQ是伯氨喹诱导溶血主要毒素的假设。本文的研究结果还建立了一种新的G6PD缺乏模型,并据我们所知首次提供了直接证据,证明年轻的G6PD缺乏RBC对伯氨喹诱导的溶血具有抗性。
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