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代谢和蛋白质组学的差异存在于伯克利镰状细胞贫血和β-地中海贫血小鼠的循环单核细胞和组织驻留巨噬细胞中。

Metabolic and Proteomic Divergence Is Present in Circulating Monocytes and Tissue-Resident Macrophages from Berkeley Sickle Cell Anemia and β-Thalassemia Mice.

机构信息

Cardiovascular and Pulmonary Research Laboratory, Department of Medicine, University of Colorado Denver - Anschutz Medical Campus, Aurora, Colorado 80045, United States.

Department of Biochemistry & Molecular Genetics, Graduate School, University of Colorado, Anschutz, Medical Campus, Aurora, Colorado 80045, United States.

出版信息

J Proteome Res. 2023 Sep 1;22(9):2925-2935. doi: 10.1021/acs.jproteome.3c00224. Epub 2023 Aug 22.

DOI:10.1021/acs.jproteome.3c00224
PMID:37606205
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC11729046/
Abstract

Sickle cell disease and β-thalassemia represent hemoglobinopathies arising from dysfunctional or underproduced β-globin chains, respectively. In both diseases, red blood cell injury and anemia are the impetus for end organ injury. Because persistent erythrophagocytosis is a hallmark of these genetic maladies, it is critical to understand how macrophage phenotype polarizations in tissue compartments can inform on disease progression. Murine models of sickle cell disease and β-thalassemia allow for a basic understanding of the mechanisms and provide for translation to human disease. A multi-omics approach to understanding the macrophage metabolism and protein changes in two murine models of β-globinopathy was performed on peripheral blood mononuclear cells as well as spleen and liver macrophages isolated from Berkley sickle cell disease (Berk-ss) and heterozygous B1/B2 globin gene deletion (Hbb) mice. The results from these experiments revealed that the metabolome and proteome of macrophages are polarized to a distinct phenotype in Berk-ss and Hbb compared with each other and their common-background mice (C57BL6/J). Further, spleen and liver macrophages revealed distinct disease-specific phenotypes, suggesting that macrophages become differentially polarized and reprogrammed within tissue compartments. We conclude that tissue recruitment, polarization, and metabolic and proteomic reprogramming of macrophages in Berk-ss and Hbb mice may be relevant to disease progression in other tissue.

摘要

镰状细胞病和β-地中海贫血分别代表由功能性或产生不足的β-珠蛋白链引起的血红蛋白病。在这两种疾病中,红细胞损伤和贫血是终末器官损伤的动力。由于持续的红细胞吞噬作用是这些遗传疾病的标志,因此了解组织隔室中巨噬细胞表型的极化如何为疾病进展提供信息是至关重要的。镰状细胞病和β-地中海贫血的小鼠模型允许对机制进行基本理解,并为人类疾病的转化提供依据。对两种β-珠蛋白病小鼠模型(伯克利镰状细胞病(Berk-ss)和杂合 B1/B2 珠蛋白基因缺失(Hbb)小鼠)的外周血单核细胞以及脾脏和肝脏巨噬细胞进行了多组学研究,以了解巨噬细胞的代谢组学和蛋白质变化。这些实验的结果表明,与共同背景的 C57BL6/J 小鼠相比,Berk-ss 和 Hbb 中的巨噬细胞的代谢组和蛋白质组向独特的表型极化。此外,脾脏和肝脏巨噬细胞显示出不同的疾病特异性表型,这表明巨噬细胞在组织隔室中发生了不同的极化和重新编程。我们得出结论,Berk-ss 和 Hbb 小鼠中巨噬细胞的组织募集、极化以及代谢和蛋白质组学的重新编程可能与其他组织中的疾病进展相关。

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