Abstract
Genetic variations in LRP6 gene are associated with high serum LDL cholesterol levels. We have previously shown that LDL clearance in peripheral B-lymphocytes of the LRP6(R611C) mutation carriers is significantly impaired. In this study we have examined the role of wild type LRP6 (LRP6(WT)) and LRP6(R611C) in LDL receptor (LDLR)-mediated LDL uptake. LDL binding and uptake were increased when LRP6(WT) was overexpressed and modestly reduced when it was knocked down in LDLR-deficient CHO (ldlA7) cells. These findings implicated LRP6 in LDLR-independent cellular LDL binding and uptake. However, LRP6 knockdown in wild type CHO cells resulted in a much greater decline in LDL binding and uptake compared with CHO-ldlA7 cells, suggesting impaired function of the LDLR. LDLR internalization was severely diminished when LRP6 was knocked down and was restored after LRP6 was reintroduced. Further analysis revealed that LRP6(WT) forms a complex with LDLR, clathrin, and ARH and undergoes a clathrin-mediated internalization after stimulation with LDL. LDLR and LRP6 internalizations as well as LDL uptake were all impaired in CHO-k1 cells expressing LRP6(R611C). These studies identify LRP6 as a critical modulator of receptor-mediated LDL endocytosis and introduce a mechanism by which variation in LRP6 may contribute to high serum LDL levels.
Highlights
Elevated serum LDL cholesterol is a major risk factor for atherosclerosis
In this study we have examined the role of wild type LDL receptor-related protein 6 (LRP6) (LRP6WT) and LRP6R611C in LDL receptor (LDLR)-mediated LDL uptake
LDL uptake at 37 °C was increased in cells expressing LRP6WT by 25% compared with cells transfected with vehicle alone (p Ͻ 0.01) (Fig. 1C)
Summary
Elevated serum LDL cholesterol is a major risk factor for atherosclerosis. Mechanisms that regulate LDL homeostasis are not well understood. LDL binding and uptake were increased when LRP6WT was overexpressed and modestly reduced when it was knocked down in LDLR-deficient CHO (ldlA7) cells. LDLR and LRP6 internalizations as well as LDL uptake were all impaired in CHO-k1 cells expressing LRP6R611C. These studies identify LRP6 as a critical modulator of receptor-mediated LDL endocytosis and introduce a mechanism by which variation in LRP6 may contribute to high serum LDL levels. In vitro overexpression of LRP6 in NIH3T3 cells increased cellular cholesterol uptake (same reference) Because these studies were all carried out in cells that express LDL receptor, it remained to be determined as to whether and to what extent the function of LRP6 in LDL clearance is LDLR-dependent. The effect of LRP6R611C on LDLR function and LDLR-mediated LDL uptake in CHO-k1 cells was examined
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