MASH: the nexus of metabolism, inflammation, and fibrosis
Gregory R. Steinberg, Andre C. Carpentier, Dongdong Wang
Gregory R. Steinberg, Andre C. Carpentier, Dongdong Wang
View: Text | PDF
Review Series

MASH: the nexus of metabolism, inflammation, and fibrosis

Abstract

Metabolic dysfunction–associated steatohepatitis (MASH) is a progressive form of liver disease characterized by hepatocyte injury, inflammation, and fibrosis. The transition from metabolic dysfunction–associated steatotic liver disease (MASLD) to MASH is driven by the accumulation of toxic lipid and metabolic intermediates resulting from increased hepatic uptake of fatty acids, elevated de novo lipogenesis, and impaired mitochondrial oxidation. These changes promote hepatocyte stress and cell death, activate macrophages, and induce a fibrogenic phenotype in hepatic stellate cells (HSCs). Key metabolites, including saturated fatty acids, free cholesterol, ceramides, lactate, and succinate, act as paracrine signals that reinforce inflammatory and fibrotic responses across multiple liver cell types. Crosstalk between hepatocytes, macrophages, and HSCs, along with spatial shifts in mitochondrial activity, creates a feed-forward cycle of immune activation and tissue remodeling. Systemic inputs, such as insulin-resistant adipose tissue and impaired clearance of dietary lipids and branched-chain amino acids, further contribute to liver injury. Together, these pathways establish a metabolically driven network linking nutrient excess to chronic liver inflammation and fibrosis. This Review outlines how coordinated disruptions in lipid metabolism and intercellular signaling drive MASH pathogenesis and provides a framework for understanding disease progression across tissue and cellular compartments.

Authors

Gregory R. Steinberg, Andre C. Carpentier, Dongdong Wang

×

Figure 2

Increases in free cholesterol trigger liver inflammation and fibrosis.

Options: View larger image (or click on image) Download as PowerPoint
Increases in free cholesterol trigger liver inflammation and fibrosis. (...
(Left) Loss-of-function polymorphisms in genes such as MBOAT7 and EHBP1 lead to increased free cholesterol levels and activation of the YAP/TAZ pathway. Cholesterol enhances hepatic stellate cell (HSC) responsiveness to TGF-β via TLR4/TGF receptor and stabilizes YAP/TAZ signaling in hepatocytes, promoting the secretion of Indian hedgehog ligands, activation of NKT cells, HSC activation through communication network factor 1 (CYR61) and osteopontin, and the production of fibrogenic ECM. (Right) Cholesterol accumulation in hepatocytes and macrophages promotes cell death and inflammation by enhancing sensitivity to TNF and FAS ligands, disrupting mitochondrial membranes, and inducing phagolysosomal damage, which together trigger NLRP3 inflammasome activation in macrophages causing the release of IL-1β and IL-18. These cytokines activate NF-κB signaling and upregulate chemokines and adhesion molecules, further driving immune cell recruitment and amplifying liver inflammation.