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The hepatic WASH complex is required for efficient plasma LDL and HDL cholesterol clearance
Melinde Wijers, Paolo Zanoni, Nalan Liv, Dyonne Y. Vos, Michelle Y. Jäckstein, Marieke Smit, Sanne Wilbrink, Justina C. Wolters, Ydwine T. van der Veen, Nicolette Huijkman, Daphne Dekker, Niels Kloosterhuis, Theo H. van Dijk, Daniel D. Billadeau, Folkert Kuipers, Judith Klumperman, Arnold von Eckardstein, Jan Albert Kuivenhoven, Bart van de Sluis
Melinde Wijers, Paolo Zanoni, Nalan Liv, Dyonne Y. Vos, Michelle Y. Jäckstein, Marieke Smit, Sanne Wilbrink, Justina C. Wolters, Ydwine T. van der Veen, Nicolette Huijkman, Daphne Dekker, Niels Kloosterhuis, Theo H. van Dijk, Daniel D. Billadeau, Folkert Kuipers, Judith Klumperman, Arnold von Eckardstein, Jan Albert Kuivenhoven, Bart van de Sluis
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Research Article Hepatology Metabolism

The hepatic WASH complex is required for efficient plasma LDL and HDL cholesterol clearance

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Abstract

The evolutionary conserved Wiskott-Aldrich syndrome protein and SCAR homolog (WASH) complex is one of the crucial multiprotein complexes that facilitates endosomal recycling of transmembrane proteins. Defects in WASH components have been associated with inherited developmental and neurological disorders in humans. Here, we show that hepatic ablation of the WASH component Washc1 in chow-fed mice increases plasma concentrations of cholesterol in both LDLs and HDLs, without affecting hepatic cholesterol content, hepatic cholesterol synthesis, biliary cholesterol excretion, or hepatic bile acid metabolism. Elevated plasma LDL cholesterol was related to reduced hepatocytic surface levels of the LDL receptor (LDLR) and the LDLR-related protein LRP1. Hepatic WASH ablation also reduced the surface levels of scavenger receptor class B type I and, concomitantly, selective uptake of HDL cholesterol into the liver. Furthermore, we found that WASHC1 deficiency increases LDLR proteolysis by the inducible degrader of LDLR, but does not affect proprotein convertase subtilisin/kexin type 9–mediated LDLR degradation. Remarkably, however, loss of hepatic WASHC1 may sensitize LRP1 for proprotein convertase subtilisin/kexin type 9–induced degradation. Altogether, these findings identify the WASH complex as a regulator of LDL as well as HDL metabolism and provide in vivo evidence for endosomal trafficking of scavenger receptor class B type I in hepatocytes.

Authors

Melinde Wijers, Paolo Zanoni, Nalan Liv, Dyonne Y. Vos, Michelle Y. Jäckstein, Marieke Smit, Sanne Wilbrink, Justina C. Wolters, Ydwine T. van der Veen, Nicolette Huijkman, Daphne Dekker, Niels Kloosterhuis, Theo H. van Dijk, Daniel D. Billadeau, Folkert Kuipers, Judith Klumperman, Arnold von Eckardstein, Jan Albert Kuivenhoven, Bart van de Sluis

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Figure 6

Characterization of Washc1/Commd1ΔHep mice.

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Characterization of Washc1/Commd1ΔHep mice.
(A) WASHC1 and COMMD1 protei...
(A) WASHC1 and COMMD1 protein levels in livers of male Washc1/Commd1ΔHep and WT mice as determined by immunoblotting. (B) Total plasma cholesterol of male Washc1ΔHep, Commd1ΔHep, and Washc1/Commd1ΔHep mice and their littermate controls (WT) (n = 6–9). (C) Plasma apolipoprotein levels in male WT and Washc1/Commd1ΔHep mice determined by targeted proteomics, indicated by fold change vs WT littermate controls (n = 6–8). (D) Cholesterol levels of FPLC fractionated plasma pools of the experimental groups of mice. (E) Apolipoprotein levels in pooled FPLC fractionated plasma depicted in D as determined by targeted proteomics, indicated as percentage relative to the total apolipoprotein levels in these fractions. BLD, below detection limit. Data are presented as the mean ± SEM, ***P < 0.001 as determined by Student’s t test.

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