Falzarano Darryl, Krokhin Oleg, Wahl-Jensen Victoria, Seebach Jochen, Wolf Kristin, Schnittler Hans-Joachim, Feldmann Heinz
Department of Medical Microbiology, University of Manitoba Winnipeg, Manitoba R3E 0W3, Canada.
Chembiochem. 2006 Oct;7(10):1605-11. doi: 10.1002/cbic.200600223.
In addition to the transmembrane protein, GP(1,2), the Ebola virus glycoprotein gene encodes the soluble glycoproteins sGP and Delta-peptide. Two more soluble proteins, GP(1) and GP(1,2DeltaTM), are generated from GP(1,2) as a result of disulfide-bond instability and proteolytic cleavage, respectively, and are shed from the surface of infected cells. The sGP glycoprotein is secreted as a disulfide-linked homodimer, but there have been conflicting reports on whether it is arranged in a parallel or antiparallel orientation. Off-line HPLC-MALDI-TOF MS (MS/MS) was used to identify the arrangement of all disulfide bonds and simultaneously determine site-specific information regarding N-glycosylation. Our data prove that sGP is a parallel homodimer that contains C53-C53' and C306-C306' disulfide bonds, and although there are six predicted N-linked carbohydrate sites, only five are consistently glycosylated. The disulfide bond arrangement was confirmed by using cysteine to glycine mutations at amino acid positions 53 and 306. The mutants had a reduced ability to rescue the barrier function of TNF-alpha-treated endothelial cells--a function previously reported for sGP. This indicates that these disulfide bonds are critical for the proposed anti-inflammatory function of sGP.
除跨膜蛋白GP(1,2)外,埃博拉病毒糖蛋白基因还编码可溶性糖蛋白sGP和δ肽。另外两种可溶性蛋白GP(1)和GP(1,2ΔTM)分别由GP(1,2)因二硫键不稳定和蛋白水解切割产生,并从受感染细胞表面脱落。sGP糖蛋白以二硫键连接的同二聚体形式分泌,但关于其排列是平行还是反平行方向的报道存在矛盾。采用离线HPLC-MALDI-TOF MS(MS/MS)来鉴定所有二硫键的排列,并同时确定N-糖基化的位点特异性信息。我们的数据证明sGP是一种平行同二聚体,包含C53-C53'和C306-C306'二硫键,并且虽然有六个预测的N-连接糖基化位点,但只有五个位点持续发生糖基化。通过在氨基酸位置53和306处将半胱氨酸突变为甘氨酸来确认二硫键的排列。这些突变体挽救TNF-α处理的内皮细胞屏障功能的能力降低——这是先前报道的sGP的一种功能。这表明这些二硫键对于sGP提出的抗炎功能至关重要。
