Mahon Brian P, Ambadapadi Sriram, Yaron Jordan R, Lomelino Carrie L, Pinard Melissa A, Keinan Shahar, Kurnikov Igor, Macaulay Colin, Zhang Liqiang, Reeves Westley, McFadden Grant, Tibbetts Scott, McKenna Robert, Lucas Alexandra R
Laboratory of Chemical Physics, National Institute of Diabetes and Digestive and Kidney Diseases, National Institutes of Health , Bethesda, Maryland 20892, United States.
Department of Biochemistry and Molecular Biology, University of Florida College of Medicine , Gainesville, Florida 32610-0277, United States.
Biochemistry. 2018 Feb 20;57(7):1096-1107. doi: 10.1021/acs.biochem.7b01171. Epub 2018 Feb 6.
The Myxomavirus-derived protein Serp-1 has potent anti-inflammatory activity in models of vasculitis, lupus, viral sepsis, and transplant. Serp-1 has also been tested successfully in a Phase IIa clinical trial in unstable angina, representing a "first-in-class" therapeutic. Recently, peptides derived from the reactive center loop (RCL) have been developed as stand-alone therapeutics for reducing vasculitis and improving survival in MHV68-infected mice. However, both Serp-1 and the RCL peptides lose activity in MHV68-infected mice after antibiotic suppression of intestinal microbiota. Here, we utilize a structure-guided approach to design and test a series of next-generation RCL peptides with improved therapeutic potential that is not reduced when the peptides are combined with antibiotic treatments. The crystal structure of cleaved Serp-1 was determined to 2.5 Å resolution and reveals a classical serpin structure with potential for serpin-derived RCL peptides to bind and inhibit mammalian serpins, plasminogen activator inhibitor 1 (PAI-1), anti-thrombin III (ATIII), and α-1 antitrypsin (A1AT), and target proteases. Using in silico modeling of the Serp-1 RCL peptide, S-7, we designed several modified RCL peptides that were predicted to have stronger interactions with human serpins because of the larger number of stabilizing hydrogen bonds. Two of these peptides (MPS7-8 and -9) displayed extended activity, improving survival where activity was previously lost in antibiotic-treated MHV68-infected mice (P < 0.0001). Mass spectrometry and kinetic assays suggest interaction of the peptides with ATIII, A1AT, and target proteases in mouse and human plasma. In summary, we present the next step toward the development of a promising new class of anti-inflammatory serpin-based therapeutics.
黏液瘤病毒衍生蛋白Serp-1在血管炎、狼疮、病毒性脓毒症和移植模型中具有强大的抗炎活性。Serp-1也已在不稳定型心绞痛的IIa期临床试验中成功进行了测试,代表了一种“同类首创”的疗法。最近,从反应中心环(RCL)衍生的肽已被开发为独立的疗法,用于减轻血管炎并提高MHV68感染小鼠的存活率。然而,在抗生素抑制肠道微生物群后,Serp-1和RCL肽在MHV68感染的小鼠中均失去活性。在这里,我们采用结构导向方法来设计和测试一系列具有更高治疗潜力的下一代RCL肽,当这些肽与抗生素治疗联合使用时,其治疗潜力不会降低。裂解的Serp-1的晶体结构被确定为2.5 Å分辨率,揭示了一种经典的丝氨酸蛋白酶抑制剂结构,丝氨酸蛋白酶抑制剂衍生的RCL肽有可能结合并抑制哺乳动物丝氨酸蛋白酶抑制剂、纤溶酶原激活物抑制剂1(PAI-1)、抗凝血酶III(ATIII)和α-1抗胰蛋白酶(A1AT)以及靶蛋白酶。通过对Serp-1 RCL肽S-7进行计算机模拟,我们设计了几种修饰的RCL肽,由于稳定氢键数量增加,预计它们与人类丝氨酸蛋白酶抑制剂有更强的相互作用。其中两种肽(MPS7-8和-9)表现出延长的活性,在先前抗生素治疗的MHV68感染小鼠中失去活性的情况下提高了存活率(P < 0.0001)。质谱和动力学分析表明这些肽与小鼠和人血浆中的ATIII、A1AT以及靶蛋白酶相互作用。总之,我们展示了开发一类有前景的新型基于丝氨酸蛋白酶抑制剂的抗炎疗法的下一步进展。
