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Hepatic Vps33b deficiency aggravates cholic acid-induced cholestatic liver injury in male mice
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Hepatic Vps33b deficiency aggravates cholic acid-induced cholestatic liver injury in male mice
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Hepatic Vps33b deficiency aggravates cholic acid-induced cholestatic liver injury in male mice
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Journal Article
Hepatic Vps33b deficiency aggravates cholic acid-induced cholestatic liver injury in male mice
2022
Overview
Vacuolar protein sorting 33B (VPS33B) is important for intracellular vesicular trafficking process and protein interactions, which is closely associated with the arthrogryposis, renal dysfunction, and cholestasis syndrome. Our previous study has shown a crucial role of
Vps33b
in regulating metabolisms of bile acids and lipids in hepatic
Vps33b
deficiency mice with normal chow, but it remains unknown whether VPS33B could contribute to cholestatic liver injury. In this study we investigated the effects of hepatic
Vps33b
deficiency on bile acid metabolism and liver function in intrahepatic cholestatic mice. Cholestasis was induced in
Vps33b
hepatic knockout and wild-type male mice by feeding 1% CA chow diet for 5 consecutive days. We showed that compared with the wild-type mice, hepatic
Vps33b
deficiency greatly exacerbated CA-induced cholestatic liver injury as shown in markedly increased serum ALT, AST, and ALP activities, serum levels of total bilirubin, and total bile acid, as well as severe hepatocytes necrosis and inflammatory infiltration. Target metabolomics analysis revealed that hepatic
Vps33b
deficiency caused abnormal profiles of bile acids in cholestasis mice, evidenced by the upregulation of conjugated bile acids in serum, liver, and bile. We further demonstrated that the metabolomics alternation was accompanied by gene expression changes in bile acid metabolizing enzymes and transporters including
Cyp3a11
,
Ugt1a1
,
Ntcp
,
Oatp1b1
,
Bsep
, and
Mrp2
. Overall, these results suggest a crucial role of hepatic
Vps33b
deficiency in exacerbating cholestasis and liver injury, which is associated with the altered metabolism of bile acids.
Publisher
Springer Singapore,Nature Publishing Group
