Hydrogen Sulfide Is a Regulator of Hemoglobin Oxygen-Carrying Capacity via Controlling 2,3-BPG Production in Erythrocytes

Hydrogen Sulfide Is a Regulator of Hemoglobin Oxygen-Carrying Capacity via Controlling 2,3-BPG Production in Erythrocytes

Hydrogen sulfide (H2S) is naturally synthesized in a wide range of mammalian tissues. Whether H2S is involved in the regulation of erythrocyte functions remains unknown. Using mice with a genetic deficiency in a H2S natural synthesis enzyme cystathionine-γ-lyase (CSE) and high-throughput metabolomic...

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Main Authors: Gang Wang, Yan Huang, Ningning Zhang, Wenhu Liu, Changnan Wang, Xiaoyan Zhu, Xin Ni
Format: Article
Language:English
Published: Hindawi Limited 2021-01-01
Series:Oxidative Medicine and Cellular Longevity
Online Access:http://dx.doi.org/10.1155/2021/8877691
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spelling doaj-d67a3488c0a44bf89d6db95d8d6159e92021-02-22T00:00:19ZengHindawi LimitedOxidative Medicine and Cellular Longevity1942-09942021-01-01202110.1155/2021/8877691Hydrogen Sulfide Is a Regulator of Hemoglobin Oxygen-Carrying Capacity via Controlling 2,3-BPG Production in ErythrocytesGang Wang0Yan Huang1Ningning Zhang2Wenhu Liu3Changnan Wang4Xiaoyan Zhu5Xin Ni6National Clinical Research Center for Geriatric Disorders and National International Joint Research Center for Medical MetabolomicsNational Clinical Research Center for Geriatric Disorders and National International Joint Research Center for Medical MetabolomicsDepartment of PhysiologyNational Clinical Research Center for Geriatric Disorders and National International Joint Research Center for Medical MetabolomicsDepartment of PhysiologyDepartment of PhysiologyNational Clinical Research Center for Geriatric Disorders and National International Joint Research Center for Medical MetabolomicsHydrogen sulfide (H2S) is naturally synthesized in a wide range of mammalian tissues. Whether H2S is involved in the regulation of erythrocyte functions remains unknown. Using mice with a genetic deficiency in a H2S natural synthesis enzyme cystathionine-γ-lyase (CSE) and high-throughput metabolomic profiling, we found that levels of erythrocyte 2,3-bisphosphoglycerate (2,3-BPG), an erythroid-specific metabolite negatively regulating hemoglobin- (Hb-) oxygen (O2) binding affinity, were increased in CSE knockout (Cse-/-) mice under normoxia. Consistently, the 50% oxygen saturation (P50) value was increased in erythrocytes of Cse-/- mice. These effects were reversed by treatment with H2S donor GYY4137. In the models of cultured mouse and human erythrocytes, we found that H2S directly acts on erythrocytes to decrease 2,3-BPG production, thereby enhancing Hb-O2 binding affinity. Mouse genetic studies showed that H2S produced by peripheral tissues has a tonic inhibitory effect on 2,3-BPG production and consequently maintains Hb-O2 binding affinity in erythrocytes. We further revealed that H2S promotes Hb release from the membrane to the cytosol and consequently enhances bisphosphoglycerate mutase (BPGM) anchoring to the membrane. These processes might be associated with S-sulfhydration of Hb. Moreover, hypoxia decreased the circulatory H2S level and increased the erythrocyte 2,3-BPG content in mice, which could be reversed by GYY4137 treatment. Altogether, our study revealed a novel signaling pathway that regulates oxygen-carrying capacity in erythrocytes and highlights a previously unrecognized role of H2S in erythrocyte 2,3-BPG production.http://dx.doi.org/10.1155/2021/8877691
collection DOAJ
language English
format Article
sources DOAJ
author Gang Wang
Yan Huang
Ningning Zhang
Wenhu Liu
Changnan Wang
Xiaoyan Zhu
Xin Ni
spellingShingle Gang Wang
Yan Huang
Ningning Zhang
Wenhu Liu
Changnan Wang
Xiaoyan Zhu
Xin Ni
Hydrogen Sulfide Is a Regulator of Hemoglobin Oxygen-Carrying Capacity via Controlling 2,3-BPG Production in Erythrocytes
Oxidative Medicine and Cellular Longevity
author_facet Gang Wang
Yan Huang
Ningning Zhang
Wenhu Liu
Changnan Wang
Xiaoyan Zhu
Xin Ni
author_sort Gang Wang
title Hydrogen Sulfide Is a Regulator of Hemoglobin Oxygen-Carrying Capacity via Controlling 2,3-BPG Production in Erythrocytes
title_short Hydrogen Sulfide Is a Regulator of Hemoglobin Oxygen-Carrying Capacity via Controlling 2,3-BPG Production in Erythrocytes
title_full Hydrogen Sulfide Is a Regulator of Hemoglobin Oxygen-Carrying Capacity via Controlling 2,3-BPG Production in Erythrocytes
title_fullStr Hydrogen Sulfide Is a Regulator of Hemoglobin Oxygen-Carrying Capacity via Controlling 2,3-BPG Production in Erythrocytes
title_full_unstemmed Hydrogen Sulfide Is a Regulator of Hemoglobin Oxygen-Carrying Capacity via Controlling 2,3-BPG Production in Erythrocytes
title_sort hydrogen sulfide is a regulator of hemoglobin oxygen-carrying capacity via controlling 2,3-bpg production in erythrocytes
publisher Hindawi Limited
series Oxidative Medicine and Cellular Longevity
issn 1942-0994
publishDate 2021-01-01
description Hydrogen sulfide (H2S) is naturally synthesized in a wide range of mammalian tissues. Whether H2S is involved in the regulation of erythrocyte functions remains unknown. Using mice with a genetic deficiency in a H2S natural synthesis enzyme cystathionine-γ-lyase (CSE) and high-throughput metabolomic profiling, we found that levels of erythrocyte 2,3-bisphosphoglycerate (2,3-BPG), an erythroid-specific metabolite negatively regulating hemoglobin- (Hb-) oxygen (O2) binding affinity, were increased in CSE knockout (Cse-/-) mice under normoxia. Consistently, the 50% oxygen saturation (P50) value was increased in erythrocytes of Cse-/- mice. These effects were reversed by treatment with H2S donor GYY4137. In the models of cultured mouse and human erythrocytes, we found that H2S directly acts on erythrocytes to decrease 2,3-BPG production, thereby enhancing Hb-O2 binding affinity. Mouse genetic studies showed that H2S produced by peripheral tissues has a tonic inhibitory effect on 2,3-BPG production and consequently maintains Hb-O2 binding affinity in erythrocytes. We further revealed that H2S promotes Hb release from the membrane to the cytosol and consequently enhances bisphosphoglycerate mutase (BPGM) anchoring to the membrane. These processes might be associated with S-sulfhydration of Hb. Moreover, hypoxia decreased the circulatory H2S level and increased the erythrocyte 2,3-BPG content in mice, which could be reversed by GYY4137 treatment. Altogether, our study revealed a novel signaling pathway that regulates oxygen-carrying capacity in erythrocytes and highlights a previously unrecognized role of H2S in erythrocyte 2,3-BPG production.
url http://dx.doi.org/10.1155/2021/8877691
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