Zhang M X, Klein B
Department of Pediatrics, Comprehensive Cancer Center, University of Wisconsin Medical School, University of Wisconsin Hospital and Clinics, Madison 53792, USA.
Infect Immun. 1997 May;65(5):1849-55. doi: 10.1128/iai.65.5.1849-1855.1997.
Complement plays a key role in phagocyte recognition and killing of Blastomyces dermatitidis, but little is known about how complement components interact with the yeast. We report the characteristics of activation, binding, and processing of C3 by B. dermatitidis. In pooled normal human serum (NHS), deposition of C3 on the yeast was detectable within 2 min, whereas in NHS containing MgEGTA, deposition was delayed by 6 min, indicating that the yeast activates C3 by both classical and alternative pathways. When both pathways were operative, maximal binding of 4.5 x 10(6) C3 molecules/cell was achieved in less than 30 min. In the absence of the classical pathway, yeast cells bound 80% of the maximum C3, indicating that the yeast intrinsically activates the alternative pathway. Delayed deposition of C3 in NHS-MgEGTA was similar to that in NHS preabsorbed by the yeast or by immobilized protein A/G to remove serum immunoglobulin. Purified immunoglobulin restored C3 binding to NHS preabsorbed by the yeast, suggesting that antibody in nonimmune serum initiates the classical pathway. beta-Glucan absorption of NHS abolished the classical pathway, suggesting that cell wall beta-glucan is a target of initiating antibodies. Hydroxylamine treatment of NHS-opsonized yeast cells showed that 76% of C3 was bound to yeast cells by ester linkage, supporting a role for hydroxyl groups on cell wall polysaccharides. Hydroxylamine-cleaved fragments were chiefly C3b and iC3b; 70% of hydroxylamine-sensitive C3b was converted to iC3b within 1 min of opsonization, and the ratio was stable over 1 h. Our data predict that C3b and iC3b on opsonized yeast cells direct binding to CR1 and CR3 receptors on human phagocytes, which, in turn, may influence the fate of this host-pathogen interaction.
补体在吞噬细胞识别和杀伤皮炎芽生菌中起关键作用,但关于补体成分如何与该酵母相互作用却知之甚少。我们报告了皮炎芽生菌对C3的激活、结合及加工特性。在混合正常人血清(NHS)中,2分钟内即可检测到C3在酵母上的沉积,而在含MgEGTA的NHS中,沉积延迟6分钟,这表明该酵母通过经典途径和替代途径激活C3。当两条途径均起作用时,在不到30分钟内可实现每个细胞4.5×10⁶个C3分子的最大结合。在缺乏经典途径时,酵母细胞结合了最大C3量的80%,这表明酵母本身可激活替代途径。C3在NHS-MgEGTA中的延迟沉积与酵母或固定化蛋白A/G预先吸收血清免疫球蛋白后的NHS中的情况相似。纯化的免疫球蛋白可恢复C3与酵母预先吸收的NHS的结合,这表明非免疫血清中的抗体启动了经典途径。NHS经β-葡聚糖吸收后消除了经典途径,这表明细胞壁β-葡聚糖是启动抗体的靶点。用羟胺处理经NHS调理的酵母细胞表明,76%的C3通过酯键与酵母细胞结合,这支持了细胞壁多糖上羟基的作用。羟胺裂解片段主要是C3b和iC3b;70%对羟胺敏感的C3b在调理后1分钟内转化为iC3b,并在1小时内保持稳定。我们的数据预测,调理后的酵母细胞上的C3b和iC3b可直接与人吞噬细胞上的CR1和CR3受体结合,这反过来可能影响这种宿主-病原体相互作用的结果。