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Next Generation Sequencing for the Prediction of the Antibiotic Resistance in : A Literature Review.下一代测序技术在预测[具体内容]抗生素耐药性中的应用:文献综述
Antibiotics (Basel). 2021 Apr 14;10(4):437. doi: 10.3390/antibiotics10040437.
2
Helicobacter pylori Antimicrobial Resistance and Gene Variants in High- and Low-Gastric-Cancer-Risk Populations.高、低胃癌风险人群中幽门螺杆菌的抗菌药物耐药性和基因变异。
J Clin Microbiol. 2021 Apr 20;59(5). doi: 10.1128/JCM.03203-20.
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Global Cancer Statistics 2020: GLOBOCAN Estimates of Incidence and Mortality Worldwide for 36 Cancers in 185 Countries.《全球癌症统计数据 2020:全球 185 个国家和地区 36 种癌症的发病率和死亡率估计》。
CA Cancer J Clin. 2021 May;71(3):209-249. doi: 10.3322/caac.21660. Epub 2021 Feb 4.
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Hypusination Orchestrates the Antimicrobial Response of Macrophages.亚氨酰化调控巨噬细胞的抗菌反应。
Cell Rep. 2020 Dec 15;33(11):108510. doi: 10.1016/j.celrep.2020.108510.
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The Colombian Chemoprevention Trial: 20-Year Follow-Up of a Cohort of Patients With Gastric Precancerous Lesions.哥伦比亚化学预防试验:胃癌前病变队列患者 20 年随访。
Gastroenterology. 2021 Mar;160(4):1106-1117.e3. doi: 10.1053/j.gastro.2020.11.017. Epub 2020 Nov 18.
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Hydrogen sulfide: An endogenous regulator of the immune system.硫化氢:免疫系统的内源性调节剂。
Pharmacol Res. 2020 Nov;161:105119. doi: 10.1016/j.phrs.2020.105119. Epub 2020 Aug 8.
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A Summary of the 2020 Gastric Cancer Summit at Stanford University.斯坦福大学 2020 年胃癌峰会纪要。
Gastroenterology. 2020 Oct;159(4):1221-1226. doi: 10.1053/j.gastro.2020.05.100. Epub 2020 Jul 21.
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Circles of Life: linking metabolic and epigenetic cycles to immunity.生命之环:将代谢和表观遗传循环与免疫联系起来。
Immunology. 2020 Nov;161(3):165-174. doi: 10.1111/imm.13207. Epub 2020 Jun 3.
9
Spermine oxidase mediates Helicobacter pylori-induced gastric inflammation, DNA damage, and carcinogenic signaling.精脒氧化酶介导幽门螺杆菌诱导的胃炎症、DNA 损伤和致癌信号转导。
Oncogene. 2020 May;39(22):4465-4474. doi: 10.1038/s41388-020-1304-6. Epub 2020 Apr 29.
10
Hydrogen sulfide dysregulates the immune response by suppressing central carbon metabolism to promote tuberculosis.硫化氢通过抑制中心碳代谢来调节免疫反应,从而促进结核病。
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胱硫醚γ-裂解酶通过促进巨噬细胞代谢重塑和激活加剧幽门螺杆菌免疫发病机制。

Cystathionine γ-lyase exacerbates Helicobacter pylori immunopathogenesis by promoting macrophage metabolic remodeling and activation.

机构信息

Department of Pathology, Microbiology, and Immunology.

Division of Gastroenterology, Hepatology, and Nutrition, Department of Medicine, and.

出版信息

JCI Insight. 2022 Jun 22;7(12):e155338. doi: 10.1172/jci.insight.155338.

DOI:10.1172/jci.insight.155338
PMID:35579952
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC9309056/
Abstract

Macrophages play a crucial role in the inflammatory response to the human stomach pathogen Helicobacter pylori, which infects half of the world's population and causes gastric cancer. Recent studies have highlighted the importance of macrophage immunometabolism in their activation state and function. We have demonstrated that the cysteine-producing enzyme cystathionine γ-lyase (CTH) is upregulated in humans and mice with H. pylori infection. Here, we show that induction of CTH in macrophages by H. pylori promoted persistent inflammation. Cth-/- mice had reduced macrophage and T cell activation in H. pylori-infected tissues, an altered metabolome, and decreased enrichment of immune-associated gene networks, culminating in decreased H. pylori-induced gastritis. CTH is downstream of the proposed antiinflammatory molecule, S-adenosylmethionine (SAM). Whereas Cth-/- mice exhibited gastric SAM accumulation, WT mice treated with SAM did not display protection against H. pylori-induced inflammation. Instead, we demonstrated that Cth-deficient macrophages exhibited alterations in the proteome, decreased NF-κB activation, diminished expression of macrophage activation markers, and impaired oxidative phosphorylation and glycolysis. Thus, through altering cellular respiration, CTH is a key enhancer of macrophage activation, contributing to a pathogenic inflammatory response that is the universal precursor for the development of H. pylori-induced gastric disease.

摘要

巨噬细胞在人类胃部病原体幽门螺杆菌的炎症反应中发挥着至关重要的作用,这种细菌感染了全球一半的人口,并导致胃癌。最近的研究强调了巨噬细胞免疫代谢在其激活状态和功能中的重要性。我们已经证明,在感染幽门螺杆菌的人类和小鼠中,产生半胱氨酸的酶胱硫醚γ-裂解酶(CTH)上调。在这里,我们表明幽门螺杆菌诱导巨噬细胞中的 CTH 促进了持续的炎症。在感染组织中,Cth-/- 小鼠的巨噬细胞和 T 细胞激活减少,代谢组发生改变,与免疫相关的基因网络富集减少,最终导致幽门螺杆菌诱导的胃炎减少。CTH 是拟议的抗炎分子 S-腺苷甲硫氨酸(SAM)的下游产物。虽然 Cth-/- 小鼠表现出胃中 SAM 积累,但用 SAM 处理的 WT 小鼠并未显示出对幽门螺杆菌诱导的炎症的保护作用。相反,我们证明 Cth 缺陷型巨噬细胞的蛋白质组发生改变,NF-κB 激活减少,巨噬细胞激活标志物的表达减少,氧化磷酸化和糖酵解受损。因此,通过改变细胞呼吸,CTH 是巨噬细胞激活的关键增强剂,有助于引发一种致病的炎症反应,这是幽门螺杆菌引起的胃部疾病发展的普遍前兆。