Lysosomal cholesterol overload in macrophages promotes liver fibrosis in a mouse model of NASH

Accumulation of lipotoxic lipids, such as free cholesterol, induces hepatocyte death and subsequent inflammation and fibrosis in the pathogenesis of nonalcoholic steatohepatitis (NASH). However, the underlying mechanisms remain unclear. We have previously reported that hepatocyte death locally induc...

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Bibliographic Details
Published in:The Journal of experimental medicine 2023-11, Vol.220 (11)
Main Authors: Itoh, Michiko, Tamura, Atsushi, Kanai, Sayaka, Tanaka, Miyako, Kanamori, Yohei, Shirakawa, Ibuki, Ito, Ayaka, Oka, Yasuyoshi, Hidaka, Isao, Takami, Taro, Honda, Yasushi, Maeda, Mitsuyo, Saito, Yasuyuki, Murata, Yoji, Matozaki, Takashi, Nakajima, Atsushi, Kataoka, Yosky, Ogi, Tomoo, Ogawa, Yoshihiro, Suganami, Takayoshi
Format: Article
Language:English
Subjects:
Metabolism
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Summary:Accumulation of lipotoxic lipids, such as free cholesterol, induces hepatocyte death and subsequent inflammation and fibrosis in the pathogenesis of nonalcoholic steatohepatitis (NASH). However, the underlying mechanisms remain unclear. We have previously reported that hepatocyte death locally induces phenotypic changes in the macrophages surrounding the corpse and remnant lipids, thereby promoting liver fibrosis in a murine model of NASH. Here, we demonstrated that lysosomal cholesterol overload triggers lysosomal dysfunction and profibrotic activation of macrophages during the development of NASH. β-cyclodextrin polyrotaxane (βCD-PRX), a unique supramolecule, is designed to elicit free cholesterol from lysosomes. Treatment with βCD-PRX ameliorated cholesterol accumulation and profibrotic activation of macrophages surrounding dead hepatocytes with cholesterol crystals, thereby suppressing liver fibrosis in a NASH model, without affecting the hepatic cholesterol levels. In vitro experiments revealed that cholesterol-induced lysosomal stress triggered profibrotic activation in macrophages predisposed to the steatotic microenvironment. This study provides evidence that dysregulated cholesterol metabolism in macrophages would be a novel mechanism of NASH.
ISSN:0022-1007
1540-9538
DOI:10.1084/jem.20220681