Muscle protein catabolism and splanchnic arginine consumption drive arginine dysregulation during Pseudomonas Aeruginosa induced early acute sepsis in swine.

IF 3.9 3区 医学 Q1 GASTROENTEROLOGY & HEPATOLOGY American journal of physiology. Gastrointestinal and liver physiology Pub Date : 2024-09-03 DOI:10.1152/ajpgi.00257.2023
Sarah A Rice, Gabriella A M Ten Have, Marielle P K J Engelen, Nicolaas E P Deutz
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Abstract

Human sepsis is characterized by increased protein breakdown and changes in arginine and citrulline metabolism. However, it is unclear whether this is caused by changes in transorgan metabolism. We therefore studied in a Pseudomonas aeruginosa induced pig sepsis model the changes in protein and arginine related metabolism on whole body (Wb) and transorgan level. We studied 22 conscious pigs for 18 hours during sepsis, induced by infusing live bacteria (Pseudomonas aeruginosa) or after placebo infusion (control). We used stable isotope tracers to measure Wb and skeletal muscle protein synthesis and breakdown, as well as Wb, splanchnic, skeletal muscle, hepatic and portal drained viscera (PDV) arginine and citrulline disposal and production rates. During sepsis, arginine Wb production (p=0.0146), skeletal muscle release (p=0.0035) and liver arginine uptake were elevated (p=0.0031). Wb de novo arginine synthesis, citrulline production, and transorgan PDV release of citrulline, glutamine and arginine did not differ between sepsis and controls. However, Wb (p<0.0001) and muscle (p<0.001) protein breakdown were increased, suggesting that the enhanced arginine production is predominantly derived from muscle breakdown in sepsis. In conclusion, live-bacterium sepsis increases muscle arginine release and liver uptake, mirroring previous pig endotoxemia studies. In contrast to observations in humans, acute live-bacterium sepsis in pigs does not change citrulline production or arterial arginine concentration. We therefore conclude that the arginine dysregulation observed in human sepsis is possibly initiated by enhanced protein catabolism and splanchnic arginine catabolism, while decreased arterial arginine concentration and citrulline metabolism may require more time to fully manifest in patients.

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在绿脓杆菌诱发猪早期急性败血症期间,肌肉蛋白质分解和脾脏精氨酸消耗导致精氨酸失调。
人类败血症的特点是蛋白质分解增加以及精氨酸和瓜氨酸代谢发生变化。然而,目前还不清楚这是否是由跨器官代谢变化引起的。因此,我们在铜绿假单胞菌诱导的猪败血症模型中研究了蛋白质和精氨酸相关代谢在全身(Wb)和跨器官水平上的变化。我们对 22 头清醒的猪进行了 18 小时的败血症研究,这些猪是在输注活细菌(铜绿假单胞菌)或输注安慰剂(对照组)后诱发的。我们使用稳定同位素示踪剂来测量 Wb 和骨骼肌蛋白质的合成和分解,以及 Wb、脾脏、骨骼肌、肝脏和门静脉内脏(PDV)精氨酸和瓜氨酸的处置和生成率。在败血症期间,精氨酸 Wb 生成量(p=0.0146)、骨骼肌释放量(p=0.0035)和肝脏精氨酸摄取量均升高(p=0.0031)。脓毒症患者与对照组之间在 Wb 从头合成精氨酸、瓜氨酸的产生以及瓜氨酸、谷氨酰胺和精氨酸的跨器官 PDV 释放方面没有差异。然而,Wb(p
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来源期刊
CiteScore
9.40
自引率
2.20%
发文量
104
审稿时长
1 months
期刊介绍: The American Journal of Physiology-Gastrointestinal and Liver Physiology publishes original articles pertaining to all aspects of research involving normal or abnormal function of the gastrointestinal tract, hepatobiliary system, and pancreas. Authors are encouraged to submit manuscripts dealing with growth and development, digestion, secretion, absorption, metabolism, and motility relative to these organs, as well as research reports dealing with immune and inflammatory processes and with neural, endocrine, and circulatory control mechanisms that affect these organs.
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