The lipopolysaccharide-TLR4 axis regulates hepatic glutaminase 1 expression promoting liver ammonia build-up as steatotic liver disease progresses to steatohepatitis

IF 10.8 1区 医学 Q1 ENDOCRINOLOGY & METABOLISM
Maria Mercado-Gómez , Naroa Goikoetxea-Usandizaga , Annarein J.C. Kerbert , Leire Uraga Gracianteparaluceta , Marina Serrano-Maciá , Sofia Lachiondo-Ortega , Rubén Rodriguez-Agudo , Clàudia Gil-Pitarch , Jorge Simón , Irene González-Recio , Marcos F. Fondevila , Pablo Santamarina-Ojeda , Mario F. Fraga , Rubén Nogueiras , Javier de las Heras , Rajiv Jalan , María Luz Martínez-Chantar , Teresa C. Delgado
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引用次数: 0

Abstract

Introduction

Ammonia is a pathogenic factor implicated in the progression of metabolic-associated steatotic liver disease (MASLD). The contribution of the glutaminase 1 (GLS) isoform, an enzyme converting glutamine to glutamate and ammonia, to hepatic ammonia build-up and the mechanisms underlying its upregulation in metabolic-associated steatohepatitis (MASH) remain elusive.

Methods

Multiplex transcriptomics and targeted metabolomics analysis of liver biopsies in dietary mouse models representing the whole spectra of MASLD were carried out to characterize the relevance of hepatic GLS during disease pathological progression. In addition, the acute effect of liver-specific GLS inhibition in hepatic ammonia content was evaluated in cultured hepatocytes and in in vivo mouse models of diet-induced MASLD. Finally, the regulatory mechanisms of hepatic GLS overexpression related to the lipopolysaccharide (LPS)/Toll-like receptor 4 (TLR4) axis were explored in the context of MASH.

Results

In mouse models of diet-induced MASLD, we found that augmented liver GLS expression is closely associated with the build-up of hepatic ammonia as the disease progresses from steatosis to steatohepatitis. Importantly, the acute silencing/pharmacological inhibition of GLS diminishes the ammonia burden in cultured primary mouse hepatocytes undergoing dedifferentiation, in steatotic hepatocytes, and in a mouse model of diet-induced steatohepatitis, irrespective of changes in ureagenesis and gut permeability. Under these conditions, GLS upregulation in the liver correlates positively with the hepatic expression of TLR4 that recognizes LPS. In agreement, the pharmacological inhibition of TLR4 reduces GLS and hepatic ammonia content in LPS-stimulated mouse hepatocytes and hyperammonemia animal models of endotoxemia.

Conclusions

Overall, our results suggest that the LPS/TLR4 axis regulates hepatic GLS expression promoting liver ammonia build-up as steatotic liver disease progresses to steatohepatitis.

Abstract Image

Abstract Image

脂多糖-TLR4轴调控肝谷氨酰胺酶1的表达,促进肝氨积聚,使脂肪肝发展为脂肪性肝炎。
简介氨是代谢相关性脂肪性肝病(MASLD)进展过程中的一个致病因素。谷氨酰胺酶 1(GLS)异构体是一种将谷氨酰胺转化为谷氨酸和氨的酶,它对肝脏氨积聚的贡献及其在代谢相关性脂肪性肝炎(MASH)中上调的机制仍不清楚:方法:对代表整个代谢相关性脂肪性肝炎谱系的饮食小鼠模型的肝脏活检组织进行了多重转录组学和靶向代谢组学分析,以确定肝脏GLS在疾病病理进展过程中的相关性。此外,研究人员还评估了肝脏特异性 GLS 抑制剂对培养肝细胞和饮食诱导 MASLD 小鼠模型中肝氨含量的急性影响。最后,在MASH的背景下探讨了肝脏GLS过表达与脂多糖(LPS)/类托尔受体4(TLR4)轴相关的调控机制:结果:在饮食诱导的MASLD小鼠模型中,我们发现肝脏GLS表达的增加与肝脏氨的积累密切相关,因为疾病会从脂肪变性发展为脂肪性肝炎。重要的是,无论尿原生成和肠道通透性如何变化,急性沉默/药物抑制 GLS 都能减轻正在发生去分化的培养小鼠原代肝细胞、脂肪肝肝细胞以及饮食诱导的脂肪性肝炎小鼠模型中的氨负荷。在这些条件下,肝脏中 GLS 的上调与肝脏中识别 LPS 的 TLR4 的表达呈正相关。同样,在 LPS 刺激的小鼠肝细胞和高氨血症内毒素血症动物模型中,TLR4 的药理抑制可降低 GLS 和肝氨含量:总之,我们的研究结果表明,LPS/TLR4 轴调节肝脏 GLS 的表达,在脂肪肝发展为脂肪性肝炎的过程中促进肝氨的积累。
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来源期刊
Metabolism: clinical and experimental
Metabolism: clinical and experimental 医学-内分泌学与代谢
CiteScore
18.90
自引率
3.10%
发文量
310
审稿时长
16 days
期刊介绍: Metabolism upholds research excellence by disseminating high-quality original research, reviews, editorials, and commentaries covering all facets of human metabolism. Consideration for publication in Metabolism extends to studies in humans, animal, and cellular models, with a particular emphasis on work demonstrating strong translational potential. The journal addresses a range of topics, including: - Energy Expenditure and Obesity - Metabolic Syndrome, Prediabetes, and Diabetes - Nutrition, Exercise, and the Environment - Genetics and Genomics, Proteomics, and Metabolomics - Carbohydrate, Lipid, and Protein Metabolism - Endocrinology and Hypertension - Mineral and Bone Metabolism - Cardiovascular Diseases and Malignancies - Inflammation in metabolism and immunometabolism
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