Physiological importance of SR-BI in the in vivo metabolism of human HDL and LDL in male and female mice

Mathieu R. Brodeur,Geneviève Bourret,Vilayphone Luangrath,Louise Brissette,Louise Falstrault

doi:10.1194/jlr.m400165-jlr200

Mathieu R. Brodeur, Geneviève Bourret + Show 3 more

Open Access

https://doi.org/10.1194/jlr.m400165-jlr200

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Abstract

The physiological role of murine scavenger receptor class B type I (SR-BI) was evaluated by in vivo clearances of human HDL3 and LDL in normal and SR-BI knockout (KO) mice. In normal mice, cholesteryl esters (CEs) were removed faster than proteins, indicating a selective uptake process from both HDL3 and LDL. SR-BI KO mice showed 80% losses of HDL-CE selective uptake and the complete loss of LDL-CE selective uptake in the first phase of clearance. However, the second phase was characterized by an acceleration of CE disappearance in SR-BI KO mice. Thus, SR-BI is the only murine receptor mediating HDL-CE selective uptake, whereas a SR-BI-independent pathway specific to LDL can rescue SR-BI deficiency. The analysis of LDL recovered 3 h after injection in mice from different genotypes revealed that LDLs are significantly depleted in CE (reduction from 19% to 50% of the CE/protein ratios). A smaller LDL size in comparison with that of noninjected LDL was also detectable but was more evident for LDL recovered from normal mice. All LDL preparations migrate faster than noninjected LDL on agarose-barbital gels. Thus, both SR-BI-dependent and -independent pathways lead to substantial changes in LDL.

Highlights

The physiological role of murine scavenger receptor class B type I (SR-BI) was evaluated by in vivo clearances of human HDL3 and LDL in normal and SR-BI knockout (KO) mice
We found that selective uptake from HDL is not influenced by mouse gender and that SR-BI has the same importance in the two genders and is fully responsible for HDL-cholesteryl esters (CEs) selective uptake
Male and female mice expressing various levels of SR-BI were injected via the tail vein with a bolus of human HDL3 (480 ␮g of nonradiolabeled HDL3 and 20 ␮g of lipoprotein HDL3 radiolabeled with either 125I or [3H]cholesteryl oleoyl ether (CEt))

Summary

Introduction

The physiological role of murine scavenger receptor class B type I (SR-BI) was evaluated by in vivo clearances of human HDL3 and LDL in normal and SR-BI knockout (KO) mice. The initial LDL-CE FCR was reduced by 63% in homozygous SR-BI KO male mice compared with normal male mice, and their CE selective uptake was completely abolished, as indicated by the identical removal rate of LDLCE and proteins (Table 2).

Results

Conclusion