Author:
Peng Zhangzhe,Luo Renna,Xie Tingting,Zhang Weiru,Liu Hong,Wang Wei,Tao Lijian,Kellems Rodney E.,Xia Yang
Abstract
BackgroundOxygen deprivation or hypoxia in the kidney drives CKD and contributes to end organ damage. The erythrocyte’s role in delivery of oxygen (O2) is regulated by hypoxia, but the effects of CKD are unknown.MethodsWe screened all of the metabolites in the whole blood of mice infused with angiotensin II (Ang II) at 140 ng/kg per minute up to 14 days to simulate CKD and compared their metabolites with those from untreated mice. Mice lacking a receptor on their erythrocytes called ADORA2B, which increases O2 delivery, and patients with CKD were studied to assess the role of ADORA2B-mediated O2 delivery in CKD.ResultsUntargeted metabolomics showed increased production of 2,3-biphosphoglycerate (2,3-BPG), an erythrocyte-specific metabolite promoting O2 delivery, in mice given Ang II to induce CKD. Genetic studies in mice revealed that erythrocyte ADORA2B signaling leads to AMPK-stimulated activation of BPG mutase, promoting 2,3-BPG production and O2 delivery to counteract kidney hypoxia, tissue damage, and disease progression in Ang II–induced CKD. Enhancing AMPK activation in mice offset kidney hypoxia by triggering 2,3-BPG production and O2 delivery. Patients with CKD had higher 2,3-BPG levels, AMPK activity, and O2 delivery in their erythrocytes compared with controls. Changes were proportional to disease severity, suggesting a protective effect.ConclusionsMouse and human evidence reveals that ADORA2B-AMPK signaling cascade–induced 2,3-BPG production promotes O2 delivery by erythrocytes to counteract kidney hypoxia and progression of CKD. These findings pave a way to novel therapeutic avenues in CKD targeting this pathway.
Funder
National Natural Science Foundation of China
China Scholarship Council
Publisher
American Society of Nephrology (ASN)
Subject
Nephrology,General Medicine
Cited by
17 articles.
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