镰状细胞病血管内溶血疗法

IF 4.3 3区 材料科学 Q1 ENGINEERING, ELECTRICAL & ELECTRONIC ACS Applied Electronic Materials Pub Date : 2024-09-13 DOI:10.3389/fphys.2024.1474569
Jianyao Xue, Xiang-An Li
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引用次数: 0

摘要

镰状细胞病(SCD)是一种遗传性疾病,主要影响非洲后裔,对全球健康造成重大负担。镰状细胞病的特点是红细胞(RBC)内突变血红蛋白聚合引起血管内溶血,导致血管炎症、器官损伤和血红素中毒。临床表现包括急性疼痛危象、溶血性贫血和多器官功能障碍,给发病率和死亡率带来巨大挑战。目前的治疗策略是通过输血增加血红蛋白正常的红细胞浓度、诱导胎儿血红蛋白、恢复一氧化氮信号传导、抑制血小板-内皮相互作用以及将血红蛋白稳定在氧合状态,从而缓解这些并发症。尽管羟基脲和基因疗法前景看好,但这两种疗法都面临着不同的挑战。羟基脲的疗效因患者而异,而基因疗法虽然有效,却受到可及性和可负担性问题的限制。SCD 治疗的一个新领域是利用溶血产物的内源性清除机制。Heggland 等人最近的一项研究表明,CD-36 类似蛋白介导了嗜血外寄生虫(一种以宿主血液为食的寄生虫)对血红素的吸收。这一发现强调了进一步研究清道夫受体(如 CD36、SR-BI、SR-BII)在哺乳动物血红素吸收和解毒中可能发挥的作用的必要性。在本综述中,我们讨论了目前的 SCD 治疗方法及其针对的特定病理生理阶段。我们指出了现有疗法的局限性,并探讨了新型 SCD 疗法的未来发展潜力。包括血红素清除途径在内的新型治疗靶点有可能改善疗效并减轻 SCD 的全球负担。
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Therapeutics for sickle cell disease intravascular hemolysis
Sickle cell disease (SCD) is a genetic disorder predominantly affecting individuals of African descent, with a significant global health burden. SCD is characterized by intravascular hemolysis, driven by the polymerization of mutated hemoglobin within red blood cells (RBCs), leading to vascular inflammation, organ damage, and heme toxicity. Clinical manifestations include acute pain crises, hemolytic anemia, and multi-organ dysfunction, imposing substantial morbidity and mortality challenges. Current therapeutic strategies mitigate these complications by increasing the concentration of RBCs with normal hemoglobin via transfusion, inducing fetal hemoglobin, restoring nitric oxide signaling, inhibiting platelet-endothelium interaction, and stabilizing hemoglobin in its oxygenated state. While hydroxyurea and gene therapies show promise, each faces distinct challenges. Hydroxyurea’s efficacy varies among patients, and gene therapies, though effective, are limited by issues of accessibility and affordability. An emerging frontier in SCD management involves harnessing endogenous clearance mechanisms for hemolysis products. A recent work by Heggland et al. showed that CD-36-like proteins mediate heme absorption in hematophagous ectoparasite, a type of parasite that feeds on the blood of its host. This discovery underscores the need for further investigation into scavenger receptors (e.g., CD36, SR-BI, SR-BII) for their possible role in heme uptake and detoxification in mammalian species. In this review, we discussed current SCD therapeutics and the specific stages of pathophysiology they target. We identified the limitations of existing treatments and explored potential future developments for novel SCD therapies. Novel therapeutic targets, including heme scavenging pathways, hold the potential for improving outcomes and reducing the global burden of SCD.
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4.30%
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567
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