Gow A, Gragerov A, Gard A, Colman D R, Lazzarini R A
Brookdale Center for Molecular Biology, Mount Sinai School of Medicine, New York, New York 10029-6574, USA.
J Neurosci. 1997 Jan 1;17(1):181-9. doi: 10.1523/JNEUROSCI.17-01-00181.1997.
The proteolipid protein gene products DM-20 and PLP are adhesive intrinsic membrane proteins that make up >/=50% of the protein in myelin and serve to stabilize compact myelin sheaths at the extracellular surfaces of apposed membrane lamellae. To identify which domains of DM-20 and PLP are positioned topologically in the extracellular space to participate in adhesion, we engineered N-glycosylation consensus sites into the hydrophilic segments and determined the extent of glycosylation. In addition, we assessed the presence of two translocation stop-transfer signals and, finally, mapped the extracellular and cytoplasmic dispositions of four antibody epitopes. We find that the topologies of DM-20 and PLP are identical, with both proteins possessing four transmembrane domains and N and C termini exposed to the cytoplasm. Consistent with this notion, DM-20 and PLP contain within their N- and C-terminal halves independent stop-transfer signals for insertion into the bilayer of the rough endoplasmic reticulum during de novo synthesis. Surprisingly, the conformation (as opposed to topology) of DM-20 and PLP may differ, which has been inferred from the divergent effects that many missense mutations have on the intracellular trafficking of these two isoforms. The 35 amino acid cytoplasmic peptide in PLP, which distinguishes this protein from DM-20, imparts a sensitivity to mutations in extracellular domains. This peptide may normally function during myelinogenesis to detect conformational changes originating across the bilayer from extracellular PLP interactions in trans and trigger intracellular events such as membrane compaction in the cytoplasmic compartment.
蛋白脂质蛋白基因产物DM - 20和PLP是黏附性内在膜蛋白,它们占髓磷脂中蛋白质的比例≥50%,并有助于在相邻膜片层的细胞外表面稳定紧密的髓鞘。为了确定DM - 20和PLP的哪些结构域在拓扑学上位于细胞外空间以参与黏附,我们在亲水区段中设计了N - 糖基化共有序列位点,并确定了糖基化程度。此外,我们评估了两个易位停止转移信号的存在情况,最后绘制了四个抗体表位的细胞外和细胞质定位。我们发现DM - 20和PLP的拓扑结构相同,这两种蛋白质都有四个跨膜结构域,N端和C端暴露于细胞质中。与此概念一致,DM - 20和PLP在其N端和C端的一半区域内含有独立的停止转移信号,以便在从头合成过程中插入糙面内质网的双层膜中。令人惊讶的是,DM - 20和PLP的构象(与拓扑结构相反)可能不同,这是从许多错义突变对这两种异构体细胞内运输的不同影响推断出来的。PLP中与DM - 20不同的35个氨基酸的细胞质肽赋予了对细胞外结构域突变的敏感性。该肽在髓鞘形成过程中可能正常发挥作用,以检测来自跨双层的细胞外PLP反式相互作用产生的构象变化,并触发细胞内事件,如细胞质区室中的膜压实。