CD73(分化簇 73)与小鼠和人类的差异。
CD73 (Cluster of Differentiation 73) and the Differences Between Mice and Humans.
机构信息
From the Division of Cardiology, Department of Medicine, University of Pittsburgh School of Medicine, PA; and Pittsburgh Heart, Lung, Blood and Vascular Medicine Institute, University of Pittsburgh, PA.
出版信息
Arterioscler Thromb Vasc Biol. 2019 Mar;39(3):339-348. doi: 10.1161/ATVBAHA.118.311579.
Abstract
As vascular disease is complex and the various manifestations are influenced by differences in vascular bed architecture, exposure to shear and mechanical forces, cell types involved, and inflammatory responses, in vivo models are necessary to recapitulate the complex physiology and dynamic cellular interactions during pathogenesis. Murine knockout models are commonly used tools for investigators to study the role of a specific gene or pathway in multifaceted disease traits. Although valuable, these models are not perfect, and this is particularly true in regard to CD73 (cluster of differentiation 73), the extracellular enzyme that generates adenosine from AMP. At baseline, CD73-deficient mice do not present with an overt phenotype, whereas CD73-deficient humans present with the complex phenotype of vascular calcification, arteriomegaly and tortuosity, and calcification in small joints. In this review, we highlight the differences between the mouse and human systems and discuss the potential to leverage findings in mice to inform us on the human conditions.
摘要
由于血管疾病复杂,并且各种表现受到血管床结构、剪切力和机械力暴露、涉及的细胞类型以及炎症反应的差异影响,因此需要体内模型来再现发病过程中的复杂生理学和动态细胞相互作用。 小鼠基因敲除模型是研究人员研究特定基因或途径在多方面疾病特征中作用的常用工具。 尽管这些模型很有价值,但它们并不完美,特别是在 CD73(分化簇 73)方面,CD73 是一种从 AMP 生成腺苷的细胞外酶。 在基线时,CD73 缺陷型小鼠没有明显的表型,而 CD73 缺陷型人类则表现出血管钙化、动脉扩张和迂曲以及小关节钙化的复杂表型。 在这篇综述中,我们强调了小鼠和人类系统之间的差异,并讨论了利用小鼠研究结果为人类疾病提供信息的潜力。
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