European Centre for Bioinformatics and Genomics, Institute of Bioorganic Chemistry, Polish Academy of Sciences, 60-965 Poznań, Poland.
Department of Biochemistry and Biotechnology, University of Life Sciences, 60-632 Poznań, Poland.
Int J Mol Sci. 2019 Jun 25;20(12):3096. doi: 10.3390/ijms20123096.
Ischemic stroke induces brain injury via thrombotic or embolic mechanisms involving large or small vessels. Cystathionine β-synthase deficiency (CBS), an inborn error of metabolism, is associated with vascular thromboembolism, the major cause of morbidity and mortality in affected patients. Because thromboembolism involves the brain vasculature in these patients, we hypothesize that CBS deficiency and ischemic stroke have similar molecular phenotypes. We used label-free mass spectrometry for quantification of changes in serum proteomes in CBS-deficient patients ( = 10) and gender/age-matched unaffected controls ( = 14), as well as in patients with cardioembolic ( = 17), large-vessel ( = 26), or lacunar ( = 25) ischemic stroke subtype. In CBS-deficient patients, 40 differentially expressed serum proteins were identified, of which 18 were associated with elevated homocysteine (Hcy) and 22 were Hcy-independent. We also identified Hcy-independent differentially expressed serum proteins in ischemic stroke patients, some of which were unique to a specific subtype: 10 of 32 for cardioembolic vs. large-vessel, six of 33 for cardioembolic vs. lacunar, and six of 23 for large-vessel vs. lacunar. There were significant overlaps between proteins affected by CBS deficiency and ischemic stroke, particularly the cardioembolic subtype, similar to protein overlaps between ischemic stroke subtypes. Top molecular pathways affected by CBS deficiency and ischemic stroke subtypes included acute phase response signaling and coagulation system. Similar molecular networks centering on NFκB were affected by CBS deficiency and stroke subtypes. These findings suggest common mechanisms involved in the pathologies of CBS deficiency and ischemic stroke subtypes.
缺血性中风通过涉及大血管或小血管的血栓或栓塞机制引起脑损伤。胱硫醚β-合酶缺乏症(CBS)是一种先天性代谢缺陷,与血管血栓栓塞有关,是受影响患者发病率和死亡率的主要原因。由于这些患者的血栓栓塞涉及脑血管,我们假设 CBS 缺乏症和缺血性中风具有相似的分子表型。我们使用无标记质谱法定量分析 CBS 缺乏症患者(n=10)、性别/年龄匹配的未受影响对照组(n=14)以及心源性栓塞(n=17)、大血管(n=26)或腔隙性(n=25)缺血性中风亚型患者的血清蛋白质组变化。在 CBS 缺乏症患者中,鉴定出 40 种差异表达的血清蛋白,其中 18 种与高同型半胱氨酸(Hcy)相关,22 种与 Hcy 无关。我们还在缺血性中风患者中鉴定出 Hcy 无关的差异表达血清蛋白,其中一些是特定亚型所特有的:10 种心源性栓塞与大血管,6 种心源性栓塞与腔隙性,6 种大血管与腔隙性。CBS 缺乏症和缺血性中风影响的蛋白质之间存在显著重叠,特别是心源性栓塞亚型,与缺血性中风亚型之间的蛋白质重叠相似。受 CBS 缺乏症和缺血性中风亚型影响的主要分子途径包括急性期反应信号和凝血系统。受 CBS 缺乏症和中风亚型影响的相似的分子网络以 NFκB 为中心。这些发现表明 CBS 缺乏症和缺血性中风亚型的病理学涉及共同的机制。
