白色念珠菌对C3的激活与结合
Activation and binding of C3 by Candida albicans.
作者信息
Kozel T R, Brown R R, Pfrommer G S
出版信息
Infect Immun. 1987 Aug;55(8):1890-4. doi: 10.1128/iai.55.8.1890-1894.1987.
Interaction with components of the complement system is an important aspect of the pathogenesis of infection by Candida albicans. The key role of C3 as an opsonic ligand and as an element in amplification of complement activation led us to examine several factors that influence the activation and binding of C3 cleavage fragments to the yeast. Activation and binding of C3 were determined by use of normal human serum containing 125I-labeled C3. Incubation of yeast-phase cells in 20% serum led to deposition of 2.5 X 10(5) to 3.0 X 10(5) molecules of C3 per yeast cell. Binding of C3 was absent in serum that was heat inactivated for 30 min at 37 degrees C or in serum that was chelated with EDTA. Chelation of serum with EGTA [ethylene glycol-bis(beta-aminoethyl ether)-N,N,N',N'-tetraacetic acid] reduced binding of C3 fragments by 31%. These results suggest that the alternative complement pathway is the primary mechanism for activation and binding of C3 fragments to C. albicans. Bound C3 could be partially removed (50%) by treatment with 1.0 M hydroxylamine. In contrast, 1.0 M hydroxylamine removed 98% of the C3 fragments bound to encapsulated Cryptococcus neoformans. These results suggest that ester bonds are the primary mechanism for binding C3 to C. neoformans, whereas binding of C3 to C. albicans involves both ester and amide bonds. Monoclonal antibodies specific for C3c and an iC3b neoantigen were used to identify the fragment of C3 that was bound to C. albicans. The results showed that the primary fragment bound to the yeast was C3b. An examination of the kinetics of activation and binding of C3 fragments showed that activation and binding were very rapid. Near-maximal binding occurred after a 2.5- to 5-min incubation period. In contrast, activation and binding of C3 fragments to C. neoformans proceeded at a slower rate, with maximal binding requiring 10 to 20 min. These results indicate that activation and binding of C3 fragments by the yeasts C. albicans and C. neoformans differ in several important characteristics.
与补体系统各成分的相互作用是白色念珠菌感染发病机制的一个重要方面。C3作为调理素配体以及补体激活放大过程中的一个要素所起的关键作用,促使我们研究了几种影响C3裂解片段激活及与酵母结合的因素。通过使用含有125I标记C3的正常人血清来测定C3的激活和结合情况。将酵母相细胞在20%血清中孵育,导致每个酵母细胞沉积2.5×10⁵至3.0×10⁵个C3分子。在37℃加热灭活30分钟的血清中或用EDTA螯合的血清中,不存在C3的结合。用乙二醇双(β-氨基乙基醚)-N,N,N',N'-四乙酸(EGTA)螯合血清可使C3片段的结合减少31%。这些结果表明,替代补体途径是C3片段激活及与白色念珠菌结合的主要机制。用1.0 M羟胺处理可部分去除(50%)结合的C3。相比之下,1.0 M羟胺可去除98%结合在荚膜新生隐球菌上的C3片段。这些结果表明,酯键是C3与新生隐球菌结合的主要机制,而C3与白色念珠菌的结合涉及酯键和酰胺键。用于C3c和iC3b新抗原的单克隆抗体被用于鉴定与白色念珠菌结合的C3片段。结果显示,与酵母结合的主要片段是C3b。对C3片段激活和结合动力学的研究表明,激活和结合非常迅速。在2.5至5分钟的孵育期后出现接近最大结合。相比之下,C3片段与新生隐球菌的激活和结合进行得较慢,最大结合需要10至20分钟。这些结果表明,白色念珠菌和新生隐球菌对C3片段的激活和结合在几个重要特征上存在差异。
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