Ph.D. Program for Cancer Biology and Drug Discovery, China Medical University and Academia Sinica, Taichung, Taiwan.
Genomics Research Center, Academia Sinica, Taipei, Taiwan.
Protein Sci. 2022 Dec;31(12):e4485. doi: 10.1002/pro.4485.
Signal peptide (SP) plays an important role in membrane targeting for insertion of secretory and membrane proteins during translocation processes in prokaryotes and eukaryotes. Beside the targeting functions, SP has also been found to affect the stability and folding of several proteins. Serum amyloid A (SAA) proteins are apolipoproteins responding to acute-phase inflammation. The fibrillization of SAA results in a protein misfolding disease named amyloid A (AA) amyloidosis. The main disease-associated isoform of human SAA, SAA1.1, is expressed as a precursor protein with an N-terminal signal peptide composed of 18 residues. The cleavage of the SP generates mature SAA1.1. To investigate whether the SP affects properties of SAA1.1, we systematically examined the structure, protein stability, and fibrillization propensity of pre-SAA1.1, which possesses the SP, and Ser-SAA1.1 without the SP but containing with an additional N-terminal serine residue. We found that the presence of the SP did not significantly affect the predominant helical structure but changed the tertiary conformation as evidenced by intrinsic fluorescence and exposed hydrophobic surfaces. Pre-SAA1.1 and Ser-SAA1.1 formed distinct oligomeric assemblies in which pre-SAA1.1 populated as tetramer and octamer, whereas Ser-SAA1.1 existed as a predominant hexamer. Pre-SAA1.1 was found significantly more stable than Ser-SAA1.1 upon thermal and chemical unfolding. Ser-SAA1.1, but not pre-SAA1.1, is capable of forming amyloid fibrils in protein misfolding study, indicating a protective role of the SP. Altogether, our results demonstrated a novel role of the SP in SAA folding and misfolding and provided a novel direction for therapeutic development of AA amyloidosis.
信号肽(SP)在原核生物和真核生物的跨膜转运过程中,对分泌蛋白和膜蛋白的插入起着重要的靶向作用。除了靶向功能外,SP 还被发现影响几种蛋白质的稳定性和折叠。血清淀粉样蛋白 A(SAA)蛋白是一种载脂蛋白,对急性炎症反应。SAA 的纤维化导致一种蛋白错误折叠疾病,称为淀粉样 A(AA)淀粉样变性。人类 SAA 的主要疾病相关同工型 SAA1.1 作为一种前体蛋白表达,其 N 端信号肽由 18 个残基组成。SP 的切割生成成熟的 SAA1.1。为了研究 SP 是否影响 SAA1.1 的性质,我们系统地研究了具有 SP 的前 SAA1.1 和不含 SP 但含有额外 N 端丝氨酸残基的 Ser-SAA1.1 的结构、蛋白质稳定性和纤维化倾向。我们发现 SP 的存在并没有显著影响主要的螺旋结构,但改变了三级构象,这可以通过固有荧光和暴露的疏水面来证明。前 SAA1.1 和 Ser-SAA1.1 形成了不同的寡聚体组装体,其中前 SAA1.1 以四聚体和八聚体形式存在,而 Ser-SAA1.1 主要以六聚体形式存在。与 Ser-SAA1.1 相比,前 SAA1.1 在热和化学变性时表现出显著更高的稳定性。Ser-SAA1.1 能够形成淀粉样纤维,而前 SAA1.1 不能,这表明 SP 具有保护作用。总之,我们的结果表明 SP 在 SAA 折叠和错误折叠中具有新的作用,并为 AA 淀粉样变性的治疗开发提供了新的方向。