Eckhardt Erik R M, Cai Lei, Sun Bing, Webb Nancy R, van der Westhuyzen Deneys R
Department of Internal Medicine, University of Kentucky, Lexington, Kentucky 40536, USA.
J Biol Chem. 2004 Apr 2;279(14):14372-81. doi: 10.1074/jbc.M313793200. Epub 2004 Jan 15.
Scavenger receptor class B, type I (SR-BI) mediates selective uptake of high density lipoprotein (HDL) lipids. It is unclear whether this process occurs at the cell membrane or via endocytosis. Our group previously identified an alternative mRNA splicing variant of SR-BI, named SR-BII, with an entirely different, yet highly conserved cytoplasmic C terminus. In this study we aimed to compare HDL uptake by both isoforms. Whereas SR-BI was mainly ( approximately 70%) localized on the surface of transfected Chinese hamster ovary cells, as determined by biotinylation, HDL binding at 4 degrees C, and studies of enhanced green fluorescent protein-tagged SR-BI/II fusion proteins, the majority of SR-BII ( approximately 80-90%) was expressed intracellularly. The cellular distribution of SR-BI was not affected by deletion of the C terminus, which suggests that the distinct C terminus of SR-BII is responsible for its intracellular expression. Pulse-chase experiments showed that SR-BII rapidly internalized HDL protein, whereas in the case of SR-BI most HDL protein remained surface bound. Like its ligand, SR-BII was more rapidly endocytosed compared with SR-BI. Despite more rapid HDL uptake by SR-BII than SR-BI, selective cholesteryl ether uptake was significantly lower. Relative to their levels of expression at the cell surface, however, both isoforms mediated selective uptake with similar efficiency. HDL protein that was internalized by SR-BII largely co-localized with transferrin in the endosomal recycling compartment. Within the endosomal recycling compartment of SR-BII cells, there was extensive co-localization of internalized HDL lipid and protein. These results do not support a model that selective lipid uptake by SR-BI requires receptor/ligand recycling within the cell. We conclude that SR-BII may influence cellular cholesterol trafficking and homeostasis in a manner that is distinct from SR-BI.
I型清道夫受体B类(SR-BI)介导高密度脂蛋白(HDL)脂质的选择性摄取。目前尚不清楚该过程是发生在细胞膜上还是通过内吞作用进行。我们团队之前鉴定出SR-BI的一种可变剪接变体,命名为SR-BII,其胞质C末端完全不同但高度保守。在本研究中,我们旨在比较这两种异构体对HDL的摄取情况。通过生物素化、4℃下的HDL结合以及对增强型绿色荧光蛋白标记的SR-BI/II融合蛋白的研究确定,SR-BI主要(约70%)定位于转染的中国仓鼠卵巢细胞表面,而大多数SR-BII(约80 - 90%)在细胞内表达。SR-BI的细胞分布不受C末端缺失的影响,这表明SR-BII独特的C末端负责其细胞内表达。脉冲追踪实验表明,SR-BII能快速内化HDL蛋白,而对于SR-BI,大多数HDL蛋白仍结合在细胞表面。与其配体一样,与SR-BI相比,SR-BII的内吞作用更快。尽管SR-BII对HDL的摄取比SR-BI更快,但选择性胆固醇醚摄取显著更低。然而,相对于它们在细胞表面的表达水平,两种异构体介导选择性摄取的效率相似。SR-BII内化的HDL蛋白在内涵体循环区室中与转铁蛋白大量共定位。在SR-BII细胞的内涵体循环区室内,内化的HDL脂质和蛋白广泛共定位。这些结果不支持SR-BI选择性摄取脂质需要细胞内受体/配体循环的模型。我们得出结论,SR-BII可能以不同于SR-BI的方式影响细胞胆固醇转运和稳态。
