Ansar Waliza, Habib S K Hasan, Roy Samir, Mandal Chhabinath, Mandal Chitra
Infectious diseases and Immunology Division, Indian Institute of Chemical Biology, Kolkata, India.
Cell Physiol Biochem. 2009;23(1-3):175-90. doi: 10.1159/000204106. Epub 2009 Feb 18.
Deficiencies of the complement-regulatory proteins on RBC (RBC(Mal)) of patients with Plasmodium falciparum were reported. Here, we sought to determine the role of affinity-purified C-reactive protein from patients (CRP(Mal)), in modulating the complement-regulatory proteins and downstream effect on complement-cascade.
CRP(Mal) was characterized by analytical ultracentrifuge and electrophoretic analysis. Surface plasmon resonance, Western blotting, co-immuno-precipitation, flow-cytometry and ELISA determined the binding of CRP(Mal) with RBC(Mal). Modifications of membranes for RBC(Mal)-CRP(Mal) binding were explored by scanning electron microscopy, osmotic and turbulence fragility, hydrophobicity and oxyhemoglobin release. Flow-cytometry, ELISA, Western blotting and Scatchard analysis monitored the status of complement-regulatory proteins on RBC(Mal). Complement-activation via CRP(Mal) was quantified by C3-deposition and hemolysis.
CRP(Mal) binds specifically to RBC(Mal) through distinct molecules. Such binding altered the normal discoid-shape of RBC(Mal) with increased membrane fluidity and hydrophobicity. In the presence of CRP, RBC(Mal) showed reduced complement-regulatory proteins (CR1 or CD35, CD55 and CD59) with decreased affinity. These changes caused enhanced C3-deposition and complement-mediated hemolysis.
Taken together, we have established the contributory effect of CRP(Mal) causing decreased complement-regulatory proteins, possibly providing a new mechanism of complement-fueled RBC(Mal) destruction refractory to erythrophagocytosis and may account for pathogenesis of anemia.
有报道称恶性疟原虫患者红细胞(RBC(Mal))上的补体调节蛋白存在缺陷。在此,我们试图确定从患者中亲和纯化得到的C反应蛋白(CRP(Mal))在调节补体调节蛋白以及对补体级联反应的下游效应方面的作用。
通过分析超速离心和电泳分析对CRP(Mal)进行表征。表面等离子体共振、蛋白质印迹法、免疫共沉淀、流式细胞术和酶联免疫吸附测定法确定CRP(Mal)与RBC(Mal)的结合情况。通过扫描电子显微镜、渗透和湍流脆性、疏水性以及氧合血红蛋白释放来探索RBC(Mal)-CRP(Mal)结合对膜的修饰作用。流式细胞术、酶联免疫吸附测定法、蛋白质印迹法和Scatchard分析监测RBC(Mal)上补体调节蛋白的状态。通过C3沉积和溶血来定量CRP(Mal)介导的补体激活。
CRP(Mal)通过不同分子特异性结合RBC(Mal)。这种结合改变了RBC(Mal)正常的盘状形状,增加了膜的流动性和疏水性。在CRP存在的情况下,RBC(Mal)显示补体调节蛋白(CR1或CD35、CD55和CD59)减少且亲和力降低。这些变化导致C3沉积增强和补体介导的溶血增加。
综上所述,我们已经证实了CRP(Mal)导致补体调节蛋白减少的作用,这可能为补体介导的RBC(Mal)破坏提供一种新机制,这种破坏难以通过红细胞吞噬作用解决,并且可能是贫血发病机制的原因。
