Usage Information

Mitochondrial metabolism mediates oxidative stress and inflammation in fatty liver
Santhosh Satapati, … , Jeffrey D. Browning, Shawn C. Burgess
Santhosh Satapati, … , Jeffrey D. Browning, Shawn C. Burgess
Published November 16, 2015
Citation Information: J Clin Invest. 2015;125(12):4447-4462. https://doi.org/10.1172/JCI82204.
View: Text | PDF | Erratum
Research Article Metabolism Article has an altmetric score of 2

Mitochondrial metabolism mediates oxidative stress and inflammation in fatty liver

Abstract

Mitochondria are critical for respiration in all tissues; however, in liver, these organelles also accommodate high-capacity anaplerotic/cataplerotic pathways that are essential to gluconeogenesis and other biosynthetic activities. During nonalcoholic fatty liver disease (NAFLD), mitochondria also produce ROS that damage hepatocytes, trigger inflammation, and contribute to insulin resistance. Here, we provide several lines of evidence indicating that induction of biosynthesis through hepatic anaplerotic/cataplerotic pathways is energetically backed by elevated oxidative metabolism and hence contributes to oxidative stress and inflammation during NAFLD. First, in murine livers, elevation of fatty acid delivery not only induced oxidative metabolism, but also amplified anaplerosis/cataplerosis and caused a proportional rise in oxidative stress and inflammation. Second, loss of anaplerosis/cataplerosis via genetic knockdown of phosphoenolpyruvate carboxykinase 1 (Pck1) prevented fatty acid–induced rise in oxidative flux, oxidative stress, and inflammation. Flux appeared to be regulated by redox state, energy charge, and metabolite concentration, which may also amplify antioxidant pathways. Third, preventing elevated oxidative metabolism with metformin also normalized hepatic anaplerosis/cataplerosis and reduced markers of inflammation. Finally, independent histological grades in human NAFLD biopsies were proportional to oxidative flux. Thus, hepatic oxidative stress and inflammation are associated with elevated oxidative metabolism during an obesogenic diet, and this link may be provoked by increased work through anabolic pathways.

Authors

Santhosh Satapati, Blanka Kucejova, Joao A.G. Duarte, Justin A. Fletcher, Lacy Reynolds, Nishanth E. Sunny, Tianteng He, L. Arya Nair, Kenneth Livingston, Xiaorong Fu, Matthew E. Merritt, A. Dean Sherry, Craig R. Malloy, John M. Shelton, Jennifer Lambert, Elizabeth J. Parks, Ian Corbin, Mark A. Magnuson, Jeffrey D. Browning, Shawn C. Burgess

×

Usage data is cumulative from May 2024 through May 2025.

Usage JCI PMC
Text version 2,072 206
PDF 189 58
Figure 550 10
Table 151 0
Supplemental data 69 5
Citation downloads 83 0
Totals 3,114 279
Total Views 3,393
(Click and drag on plot area to zoom in. Click legend items above to toggle)

Usage information is collected from two different sources: this site (JCI) and Pubmed Central (PMC). JCI information (compiled daily) shows human readership based on methods we employ to screen out robotic usage. PMC information (aggregated monthly) is also similarly screened of robotic usage.

Various methods are used to distinguish robotic usage. For example, Google automatically scans articles to add to its search index and identifies itself as robotic; other services might not clearly identify themselves as robotic, or they are new or unknown as robotic. Because this activity can be misinterpreted as human readership, data may be re-processed periodically to reflect an improved understanding of robotic activity. Because of these factors, readers should consider usage information illustrative but subject to change.

Advertisement