Department of Biomedical Engineering, Lerner Research Institute.
Department of Thoracic and Cardiovascular Surgery, Miller Family Heart and Vascular Institute.
JCI Insight. 2020 Jul 23;5(14):135317. doi: 10.1172/jci.insight.135317.
Infective endocarditis is a life-threatening infection of heart valves and adjacent structures characterized by vegetations on valves and other endocardial surfaces, with tissue destruction and risk of embolization. We used high-resolution mass spectrometry to define the proteome of staphylococcal and non-staphylococcal vegetations and Terminal Amine Isotopic Labeling of Substrates (TAILS) to define their proteolytic landscapes. These approaches identified over 2000 human proteins in staphylococcal and non-staphylococcal vegetations. Individual vegetation proteomes demonstrated comparable profiles of quantitatively major constituents that overlapped with serum, platelet, and neutrophil proteomes. Staphylococcal vegetation proteomes resembled one another more than the proteomes of non-staphylococcal vegetations. TAILS demonstrated extensive proteolysis within vegetations, with numerous previously undescribed cleavages. Several proteases and pathogen-specific proteins, including virulence factors, were identified in most vegetations. Proteolytic peptides in fibronectin and complement C3 were identified as potential infective endocarditis biomarkers. Overlap of staphylococcal and non-staphylococcal vegetation proteomes suggests a convergent thrombotic and immune response to endocardial infection by diverse pathogens. However, the differences between staphylococcal and non-staphylococcal vegetations and internal variance within the non-staphylococcal group indicate that additional pathogen- or patient-specific effects exist. Pervasive proteolysis of vegetation components may arise from vegetation-intrinsic proteases and destabilize vegetations, contributing to embolism.
感染性心内膜炎是一种危及生命的心脏瓣膜和邻近结构感染,其特征是瓣膜和其他心内膜表面有赘生物,伴有组织破坏和栓塞风险。我们使用高分辨率质谱法来定义葡萄球菌和非葡萄球菌赘生物的蛋白质组,并使用末端胺同位素标记的底物(TAILS)来定义其蛋白水解景观。这些方法在葡萄球菌和非葡萄球菌赘生物中鉴定出了超过 2000 个人类蛋白质。单个赘生物蛋白质组显示出与血清、血小板和中性粒细胞蛋白质组定量主要成分相似的相似谱。葡萄球菌赘生物蛋白质组彼此之间的相似性超过了非葡萄球菌赘生物的蛋白质组。TAILS 在内脏赘生物中显示出广泛的蛋白水解作用,存在许多以前未描述的切割。在大多数赘生物中鉴定到了几种蛋白酶和病原体特异性蛋白,包括毒力因子。纤维连接蛋白和补体 C3 中的蛋白水解肽被鉴定为潜在的感染性心内膜炎生物标志物。葡萄球菌和非葡萄球菌赘生物蛋白质组的重叠表明,不同病原体引起的心内膜感染会导致趋化和免疫反应趋同。然而,葡萄球菌和非葡萄球菌赘生物之间的差异以及非葡萄球菌组内的内部差异表明,还存在其他病原体或患者特异性影响。赘生物成分的普遍蛋白水解可能源于赘生物固有蛋白酶,并使赘生物不稳定,从而导致栓塞。