Anouk M. La Rose scite author profile

Background and Aims Bile acids (BAs) aid intestinal fat absorption and exert systemic actions by receptor-mediated signaling. BA receptors have been identified as drug targets for liver diseases. Yet, differences in BA metabolism between humans and mice hamper translation of pre-clinical outcomes. Cyp2c70 -ablation in mice prevents synthesis of mouse/rat-specific muricholic acids (MCAs), but potential (patho)physiological consequences of their absence are unknown. We therefore assessed age- and gender-dependent effects of Cyp2c70 -deficiency in mice. Methods The consequences of Cyp2c70 -deficiency were assessed in male and female mice at different ages. Results Cyp2c70 -/- mice were devoid of MCAs and showed high abundances of chenodeoxycholic and lithocholic acids. Cyp2c70 -deficiency profoundly impacted microbiome composition. Bile flow and biliary BA secretion were normal in Cyp2c70 -/- mice of both sexes. Yet, the pathophysiological consequences of Cyp2c70 -deficiency differed considerably between sexes. Three-week old male Cyp2c70 -/- mice showed high plasma BAs and transaminases, which spontaneously decreased thereafter to near-normal levels. Only mild ductular reactions were observed in male Cyp2c70 -/- mice up to 8 months of age. In female Cyp2c70 -/- mice, plasma BAs and transaminases remained substantially elevated with age, gut barrier function was impaired and bridging fibrosis was observed at advanced age. Addition of 0.1% ursodeoxycholic acid to the diet fully normalized hepatic and intestinal functions in female Cyp2c70 -/- mice. Conclusion Cyp2c70 -/- mice show transient neonatal cholestasis and develop cholangiopathic features that progress to bridging fibrosis in females only. These consequences of Cyp2c70 -deficiency are restored by treatment with UDCA, indicating a role of BA hydrophobicity in disease development.

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T cell cholesterol efflux suppresses apoptosis and senescence and increases atherosclerosis in middle aged mice

Bazioti

Rose

Maassen

et al. 2022

Nat Commun

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Atherosclerosis is a chronic inflammatory disease driven by hypercholesterolemia. During aging, T cells accumulate cholesterol, potentially affecting inflammation. However, the effect of cholesterol efflux pathways mediated by ATP-binding cassette A1 and G1 (ABCA1/ABCG1) on T cell-dependent age-related inflammation and atherosclerosis remains poorly understood. In this study, we generate mice with T cell-specific Abca1/Abcg1-deficiency on the low-density-lipoprotein-receptor deficient (Ldlr−/−) background. T cell Abca1/Abcg1-deficiency decreases blood, lymph node, and splenic T cells, and increases T cell activation and apoptosis. T cell Abca1/Abcg1-deficiency induces a premature T cell aging phenotype in middle-aged (12–13 months) Ldlr−/− mice, reflected by upregulation of senescence markers. Despite T cell senescence and enhanced T cell activation, T cell Abca1/Abcg1-deficiency decreases atherosclerosis and aortic inflammation in middle-aged Ldlr−/− mice, accompanied by decreased T cells in atherosclerotic plaques. We attribute these effects to T cell apoptosis downstream of T cell activation, compromising T cell functionality. Collectively, we show that T cell cholesterol efflux pathways suppress T cell apoptosis and senescence, and induce atherosclerosis in middle-aged Ldlr−/− mice.

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Myeloid cells regulate plasma LDL-cholesterol levels

Bazioti

Rose²,

Westerterp

2018

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Anouk M. La Rose

Cholangiopathy and Biliary Fibrosis in Cyp2c70-Deficient Mice Are Fully Reversed by Ursodeoxycholic Acid

T cell cholesterol efflux suppresses apoptosis and senescence and increases atherosclerosis in middle aged mice

Myeloid cells regulate plasma LDL-cholesterol levels

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