Pneumococcal Neuraminidases Increase Platelet Killing by Pneumolysin.

IF 5 2区 医学 Q1 HEMATOLOGY
Kristin J Fritsch, Laura Krüger, Stefan Handtke, Thomas P Kohler, Arina Ozhiganova, Kristin Jahn, Jan Wesche, Andreas Greinacher, Sven Hammerschmidt
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Abstract

Background:  Platelets prevent extravasation of capillary fluids into the pulmonary interstitial tissue by sealing gaps in inflamed endothelium. This reduces respiratory distress associated with pneumonia. Streptococcus pneumoniae is the leading cause of severe community-acquired pneumonia. Pneumococci produce pneumolysin (PLY), which forms pores in membranes of eukaryotic cells including platelets. Additionally, pneumococci express neuraminidases, which cleave sialic acid residues from eukaryotic glycoproteins. In this study, we investigated the effect of desialylation on PLY binding and pore formation on platelets.

Materials and methods:  We incubated human platelets with purified neuraminidases and PLY, or nonencapsulated S. pneumoniae D39/TIGR4 and isogenic mutants deficient in PLY and/or NanA. We assessed platelet desialylation, PLY binding, and pore formation by flow cytometry. We also analyzed the inhibitory potential of therapeutic immunoglobulin G preparations (IVIG [intravenous immunoglobulin]).

Results:  Wild-type pneumococci cause desialylation of platelet glycoproteins by neuraminidases, which is reduced by 90 to 100% in NanA-deficient mutants. NanC, cleaving only α2,3-linked sialic acid, induced platelet desialylation. PLY binding to platelets then x2doubled (p = 0.0166) and pore formation tripled (p = 0.0373). A neuraminidase cleaving α2,3-, α2,6-, and α2,8-linked sialic acid like NanA was even more efficient. Addition of polyvalent IVIG (5 mg/mL) decreased platelet desialylation induced by NanC up to 90% (p = 0.263) and reduced pore formation >95% (p < 0.0001) when incubated with pneumococci.

Conclusion:  Neuraminidases are key virulence factors of pneumococci and desialylate platelet glycoproteins, thereby unmasking PLY-binding sites. This enhances binding of PLY and pore formation showing that pneumococcal neuraminidases and PLY act in concert to kill platelets. However, human polyvalent immunoglobulin G preparations are promising agents for therapeutic intervention during severe pneumococcal pneumonia.

肺炎球菌神经氨酸酶可增加肺炎溶素对血小板的杀伤力。
背景:血小板通过封闭发炎内皮的缝隙,防止毛细血管液体外渗至肺间质组织。这可减轻肺炎引起的呼吸困难。肺炎链球菌是社区获得性重症肺炎的主要病因。肺炎球菌产生的肺炎溶菌素(PLY)可在包括血小板在内的真核细胞膜上形成孔隙。此外,肺炎球菌还能表达神经氨酸酶,这种酶能裂解真核糖蛋白的硅酸残基。在这项研究中,我们研究了去ialylation 对血小板上 PLY 结合和孔形成的影响:我们将人血小板与纯化的神经氨酸酶和 PLY、未包被的 D39/TIGR4 以及缺乏 PLY 和/或 NanA 的同源突变体培养。我们通过流式细胞术评估了血小板的脱ialylation、与 PLY 的结合和孔的形成。我们还分析了治疗用免疫球蛋白 G 制剂的抑制潜力:结果:肺炎球菌通过神经氨酸酶导致血小板糖蛋白脱ialyl,在 NanA 缺陷突变体中,这种作用降低了 90%-100%。仅能裂解 2,3 链接的硅酸的 NanC 可诱导血小板去硅烷基化。PLY 与血小板的结合增加一倍(p=0.0166),孔形成增加三倍(p=0.0373)。像 NanA 一样能裂解 2,3-、2,6- 和 2,8 链接的硅烷基酸的神经氨酸酶的效率更高。加入多价 IVIG 可使 NanC 诱导的血小板脱ialylation 减少 90% (p=0.263),并使孔隙形成减少 95% 以上(pConclusion):神经氨酸酶是肺炎球菌的关键致病因子,可使血小板糖蛋白脱氨酰基,从而解除 PLY 结合位点的屏蔽。这增强了 PLY 的结合力和孔隙的形成,表明肺炎球菌神经氨酸酶和 PLY 能协同杀死血小板。不过,人类多价 IgG 制剂是治疗重症肺炎球菌肺炎的有效药物。
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来源期刊
Thrombosis and haemostasis
Thrombosis and haemostasis 医学-外周血管病
CiteScore
11.90
自引率
9.00%
发文量
140
审稿时长
1 months
期刊介绍: Thrombosis and Haemostasis publishes reports on basic, translational and clinical research dedicated to novel results and highest quality in any area of thrombosis and haemostasis, vascular biology and medicine, inflammation and infection, platelet and leukocyte biology, from genetic, molecular & cellular studies, diagnostic, therapeutic & preventative studies to high-level translational and clinical research. The journal provides position and guideline papers, state-of-the-art papers, expert analysis and commentaries, and dedicated theme issues covering recent developments and key topics in the field.
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