Fatih Celal Alcicek, Jakub Dybas, Katarzyna Bulat, Tasnim Mohaissen, Ewa Szczesny-Malysiak, Magdalena Franczyk-Zarow, Katarzyna M Marzec
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引用次数: 0
摘要
红细胞(RBC)在各种刺激下通过向血管释放三磷酸腺苷(ATP)来调节血管张力。有趣的是,载脂蛋白E/LDLR双缺陷(载脂蛋白E/LDLR-/-)小鼠是动脉粥样硬化的小鼠模型,与年龄匹配的对照组相比,其运动能力更高。然而,尚不清楚载脂蛋白E/LDLR-/-小鼠运动能力的提高是否与红细胞ATP释放的改变有关。在这项工作中,我们通过让载脂蛋白E/LDLR-/-小鼠的红细胞在体外受到各种刺激,对其ATP释放特征进行了表征。这些结果与之前报道的 RBC 的机械和生化改变有关。各组小鼠在 3V 诱导的 ATP 释放水平相当,这表明腺苷酸环化酶的活性和上游信号转导通路的组成部分完好无损。此外,与年龄匹配的对照组相比,ApoE/LDLR-小鼠缺氧和低pH值诱导的红细胞ATP释放量更高,这是一个潜在的因素,也与运动能力更强相一致。综上所述,ApoE/LDLR-/-小鼠缺氧诱导的红细胞 ATP 释放增加表明 ATP 释放途径可能发生了退化。这支持了我们之前关于 RBC 细胞膜蛋白质结构改变在 ApoE/LDLR-/- 小鼠缺氧诱导的 RBC ATP 释放中的作用的报告。因此,我们强调,本文提出的结果是未来对病理受损的微循环进行药物治疗的第一步。
Hypoxia induces robust ATP release from erythrocytes in ApoE-LDLR double-deficient mice.
Red blood cells (RBCs) play a role in the regulation of vascular tone via release of adenosine triphosphate (ATP) into the vasculature in response to various stimuli. Interestingly, ApoE/LDLR double-deficient (ApoE/LDLR-/-) mice, a murine model of atherosclerosis, display a higher exercise capacity compared to the age-matched controls. However, it is not known whether increased exercise capacity in ApoE/LDLR-/- mice is linked to the altered ATP release from RBCs. In this work, we characterized the ATP release feature of RBCs from ApoE/LDLR-/- mice by exposing them to various stimuli in vitro. The results are linked to the previously reported mechanical and biochemical alterations in RBCs. 3V-induced ATP release from RBCs was at comparable levels for all groups, which indicated that the activity of adenylyl cyclase and the components of upstream signal-transduction pathway were intact. Moreover, hypoxia- and low pH-induced ATP release from RBCs was higher in ApoE/LDLR-/- mice compared to their age-matched controls, a potential contributing factor and a finding in line with the higher exercise capacity. Taken together, augmented hypoxia-induced ATP release from RBCs in ApoE/LDLR-/- mice indicates a possible deterioration in the ATP release pathway. This supports our previous reports on the role of the protein structure alterations of RBC cytosol in hypoxia-induced ATP release from RBCs in ApoE/LDLR-/- mice. Thus, we emphasize that the presented herein results are the first step to future pharmacological modification of pathologically impaired microcirculation.
期刊介绍:
Frontiers in Physiology is a leading journal in its field, publishing rigorously peer-reviewed research on the physiology of living systems, from the subcellular and molecular domains to the intact organism, and its interaction with the environment. Field Chief Editor George E. Billman at the Ohio State University Columbus is supported by an outstanding Editorial Board of international researchers. This multidisciplinary open-access journal is at the forefront of disseminating and communicating scientific knowledge and impactful discoveries to researchers, academics, clinicians and the public worldwide.
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