Your search keyword '"Cui, Changting"' showing total 2 results

1. CD4+ T-Cell Endogenous Cystathionine γ Lyase-Hydrogen Sulfide Attenuates Hypertension by Sulfhydrating Liver Kinase B1 to Promote T Regulatory Cell Differentiation and Proliferation.

Author

Cui, Changting, Fan, Jinghui, Zeng, Qiang, Cai, Junyan, Chen, Yongzeng, Chen, Zhenzhen, Wang, Wenjie, Li, Shuang yue, Cui, Qinghua, Yang, Jichun, Tang, Chaoshu, Xu, Guoheng, Cai, Jun, and Geng, Bin

Subjects

*SUPPRESSOR cells, *T cell differentiation, *CYSTATHIONINE, *HYPERTENSION, *SYSTOLIC blood pressure, *ANGIOTENSIN II, *ENZYME metabolism, *CELL differentiation, *RESEARCH, *HYDROGEN sulfide, *ANIMAL experimentation, *RESEARCH methodology, *MEDICAL cooperation, *EVALUATION research, *RATS, *COMPARATIVE studies, *TRANSFERASES, *ENZYMES, *T cells, *LONGITUDINAL method, *MICE

Abstract

Background: Hydrogen sulfide (H2S) has antihypertension and anti-inflammatory effects, and its endogenous-generation key enzyme cystathionine γ lyase (CSE) is expressed in CD4+ T cells. However, the role of CD4+ T-cell endogenous CSE/H2S in the development of hypertension is unclear.Methods: Peripheral blood lymphocytes were isolated from hypertensive patients or spontaneously hypertensive rats, then H2S production and expression of its generation enzymes, cystathionine β synthase and CSE, were measured to determine the major H2S generation system changes in hypertension. Mice with CSE-specific knockout in T cells (conditional knockout, by CD4cre mice hybridization) and CD4 null mice were generated for investigating the pathophysiological relevance of the CSE/H2S system.Results: In lymphocytes, H2S from CSE, but not cystathionine β synthase, responded to blood pressure changes, supported by lymphocyte CSE protein changes and a negative correlation between H2S production with systolic blood pressure and diastolic blood pressure, but positive correlation with the serum level of interleukin 10 (an anti-inflammatory cytokine). Deletion of CSE in T cells elevated BP (5-8 mm Hg) under the physiological condition and exacerbated angiotensin II-induced hypertension. In keeping with hypertension, mesenteric artery dilation impaired association with arterial inflammation, an effect attributed to reduced immunoinhibitory T regulatory cell (Treg) numbers in the blood and kidney, thus causing excess CD4+ and CD8+ T cell infiltration in perivascular adipose tissues and kidney. CSE knockout CD4+ T cell transfer into CD4 null mice, also showed the similar phenotypes' confirming the role of endogenous CSE/H2S action. Adoptive transfer of Tregs (to conditional knockout mice) reversed hypertension, vascular relaxation impairment, and immunocyte infiltration, which confirmed that conditional knockout-induced hypertension was attributable, in part, to the reduced Treg numbers. Mechanistically, endogenous CSE/H2S promoted Treg differentiation and proliferation by activating AMP-activated protein kinase. In part, it depended on activation of its upstream kinase, liver kinase B1, by sulfhydration to facilitate its substrate binding and phosphorylation.Conclusion: The constitutive sulfhydration of liver kinase B1 by CSE-derived H2S activates its target kinase, AMP-activated protein kinase, and promotes Treg differentiation and proliferation, which attenuates the vascular and renal immune-inflammation, thereby preventing hypertension. [ABSTRACT FROM AUTHOR]

Published

2020

2. Alterations of Gut Microbiome, Metabolome, and Lipidome in Takayasu Arteritis.

Author

Fan, Luyun, Chen, Junru, Pan, Lili, Xin, Xiaohong, Geng, Bin, Yang, Lirui, Wang, Qian, Ma, Wenjun, Lou, Ying, Bian, Jin, Cui, Xiao, Li, Jing, Wang, Lu, Chen, Zhenzhen, Wang, Wenjie, Cui, Changting, Li, Shuangyue, Gao, Qiannan, Song, Qirui, and Deng, Yue

Subjects

*FECAL analysis, *STATISTICS, *PATHOGENESIS, *METABOLOMICS, *GUT microbiome, *INFLAMMATION, *METABOLISM, *CARDIOVASCULAR diseases, *MANN Whitney U Test, *TAKAYASU arteritis, *DESCRIPTIVE statistics, *RECEIVER operating characteristic curves, *DATA analysis, *DATA analysis software, *PHENOTYPES, *LONGITUDINAL method, *BACTERIA

Abstract

Objective: Mounting evidence has linked microbiome and metabolome to systemic autoimmunity and cardiovascular diseases (CVDs). Takayasu arteritis (TAK) is a rare disease that shares features of immune‐related inflammatory diseases and CVDs, about which there is relatively limited information. This study was undertaken to characterize gut microbial dysbiosis and its crosstalk with phenotypes in TAK. Methods: To address the discriminatory signatures, we performed shotgun sequencing of fecal metagenome across a discovery cohort (n = 97) and an independent validation cohort (n = 75) including TAK patients, healthy controls, and controls with Behçet's disease (BD). Interrogation of untargeted metabolomics and lipidomics profiling of plasma and fecal samples were also used to refine features mediating associations between microorganisms and TAK phenotypes. Results: A combined model of bacterial species, including unclassified Escherichia, Veillonella parvula, Streptococcus parasanguinis, Dorea formicigenerans, Bifidobacterium adolescentis, Lachnospiraceae bacterium 7 1 58FAA, Escherichia coli, Streptococcus salivarius, Klebsiella pneumoniae, Bifidobacterium longum, and Lachnospiraceae Bacterium 5 1 63FAA, distinguished TAK patients from controls with areas under the curve (AUCs) of 87.8%, 85.9%, 81.1%, and 71.1% in training, test, and validation sets including healthy or BD controls, respectively. Diagnostic species were directly or indirectly (via metabolites or lipids) correlated with TAK phenotypes of vascular involvement, inflammation, discharge medication, and prognosis. External validation against publicly metagenomic studies (n = 184) on hypertension, atrial fibrillation, and healthy controls, confirmed the diagnostic accuracy of the model for TAK. Conclusion: This study first identifies the discriminatory gut microbes in TAK. Dysbiotic microbes are also linked to TAK phenotypes directly or indirectly via metabolic and lipid modules. Further explorations of the microbiome–metagenome interface in TAK subtype prediction and pathogenesis are suggested. [ABSTRACT FROM AUTHOR]

Published

2023