Hoegg Maja B, Browman Duncan T, Resek Mary E, Robbins Stephen M
Department of Biochemistry and Molecular Biology, Southern Alberta Cancer Research Institute, University of Calgary, Calgary, Alberta T2N 4N1, Canada.
J Biol Chem. 2009 Mar 20;284(12):7766-76. doi: 10.1074/jbc.M809127200. Epub 2009 Jan 8.
The group of stomatin/prohibitin/flotillin/HflK/C (SPFH) domain-containing proteins comprise members of diverse subcellular localization and function. Association with detergent-resistant membranes (DRMs) and the propensity to form oligomers are two common properties of SPFH domain proteins and likely important for the function of these proteins. Our laboratory recently discovered two novel members of this protein group, which, based on their endoplasmic reticulum (ER) localization and association with DRMs, were named ER lipid raft-associated protein (erlin)-1 and -2. Here we characterized erlin oligomerization and identified domains within the erlins responsible for oligomerization and DRM association. Using co-immunoprecipitation and sucrose density gradient centrifugation approaches on endogenous and ectopically expressed erlin proteins, we found that they formed homo- and hetero-oligomers and were part of large multimeric complexes. These properties were independent of their DRM association. By analyzing truncation and point mutants of erlin-2 we discovered that interaction between erlin monomers (oligomerization) and association with high molecular weight complexes require distinct regions within the protein. Although oligomerization and DRM association were mediated by a region immediately downstream of the SPFH domain (residues 228-300), integration into high molecular weight complexes was absolutely dependent on a phenylalanine residue C-terminal of this region (Phe-305), which lies within a short stretch of hydrophobic residues. Our data demonstrate that lower order oligomerization and incorporation into multimeric complexes are two separate biochemical properties of the erlins, because they are mediated by distinct regions.
含stomatin/prohibitin/flotillin/HflK/C(SPFH)结构域的蛋白质组由具有不同亚细胞定位和功能的成员组成。与抗去污剂膜(DRM)的结合以及形成寡聚体的倾向是SPFH结构域蛋白的两个共同特性,可能对这些蛋白的功能很重要。我们实验室最近发现了该蛋白组的两个新成员,基于它们在内质网(ER)中的定位以及与DRM的结合,将其命名为ER脂筏相关蛋白(erlin)-1和-2。在此,我们对erlin的寡聚化进行了表征,并确定了erlin中负责寡聚化和DRM结合的结构域。通过对内源性和异位表达的erlin蛋白进行免疫共沉淀和蔗糖密度梯度离心分析,我们发现它们形成了同型和异型寡聚体,并且是大型多聚体复合物的一部分。这些特性与其与DRM的结合无关。通过分析erlin-2的截短突变体和点突变体,我们发现erlin单体之间的相互作用(寡聚化)以及与高分子量复合物的结合需要蛋白内不同的区域。虽然寡聚化和DRM结合是由SPFH结构域下游紧邻的区域(第228 - 300位氨基酸残基)介导的,但整合到高分子量复合物中绝对依赖于该区域C端的一个苯丙氨酸残基(Phe-305),它位于一小段疏水残基内。我们的数据表明,低阶寡聚化和掺入多聚体复合物是erlin的两种不同生化特性,因为它们由不同区域介导。