Oxysterol-binding-protein (OSBP)-related protein 4 binds 25-hydroxycholesterol and interacts with vimentin intermediate filaments - PubMed (original) (raw)

Oxysterol-binding-protein (OSBP)-related protein 4 binds 25-hydroxycholesterol and interacts with vimentin intermediate filaments

Cheng Wang et al. Biochem J. 2002.

Abstract

Oxysterol-binding protein (OSBP) is the prototypical member of a class of phospholipid and oxysterol-binding proteins that interacts with the Golgi apparatus and regulates lipid and cholesterol metabolism. As a result of recent sequencing efforts, eleven other OSBP-related proteins (ORPs) have been identified in humans. We have investigated the structure, oxysterol-binding activity, cellular localization and function of ORP4 (also designated OSBP2 or HLM), a homologue that shares the highest degree of similarity with OSBP. Two ORP4 cDNAs were identified: a full-length ORP4 containing a pleckstrin homology (PH) domain and an oxysterol-binding region (designated ORP4-L), and a splice variant in which the PH domain and part of the oxysterol-binding domain were deleted (designated ORP4-S). ORP4 mRNA and protein expression overlapped partially with OSBP and were restricted to brain, heart, muscle and kidney. Like OSBP, ORP4-L bound [3H]25-hydroxycholesterol with high affinity and specificity. In contrast, ORP4-S did not bind [3H]25-hydroxycholesterol or [3H]7-ketocholesterol. Immunofluorescence localization in stably transfected Chinese hamster ovary cells showed that ORP4-S co-localized with vimentin and caused the intermediate filament network to bundle or aggregate. ORP4-L displayed a diffuse staining pattern that did not overlap with vimentin except when the microtubule network was disrupted with nocodazole. Oxysterols had no effect on the localization of either ORP4. Cells overexpressing ORP4-S had a 40% reduction in the esterification of low-density-lipoprotein-derived cholesterol, demonstrating that ORP4 interaction with intermediate filaments inhibits an intracellular cholesterol-transport pathway mediated by vimentin. These studies elucidate a hitherto unknown relationship between OSBPs and the intermediate filament network that influences cholesterol transport.

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