O'Connor R M, Allred D R
Department of Pathobiology, College of Veterinary Medicine, University of Florida, Gainesville, FL 32611, USA.
J Immunol. 2000 Feb 15;164(4):2037-45. doi: 10.4049/jimmunol.164.4.2037.
Sequestration of Babesia bovis-infected erythrocytes (IRBCs) in the host microvasculature is thought to constitute an important mechanism of immune evasion. Since Ig is considered to be important for protection from disease, an in vitro assay of B. bovis sequestration was used to explore the ability of anti-B. bovis Ig to interfere with IRBC cytoadhesion, and to identify IRBC surface Ags acting as endothelial cell receptors. Bovine infection sera reactive with the IRBC surface inhibited and even reversed the binding of IRBCs to bovine brain capillary endothelial cells (BBECs). This activity is at least partially attributable to serum IgG. IgG isolated from inhibitory serum captured the variant erythrocyte surface ag 1 (VESA1) in surface-specific immunoprecipitations of B. bovis-IRBCs. Selection for the cytoadhesive phenotype concurrently selected for antigenic and structural changes in the VESA1 Ag. In addition, the anti-VESA1 mAb, 4D9.1G1, proved capable of effectively inhibiting and reversing binding of adhesive, mAb-reactive parasites to BBECs, and by immunoelectron microscopy localized VESA1 to the external tips of the IRBC membrane knobs. These data are consistent with a link between antigenic variation and cytoadherence in B. bovis and suggest that the VESA1 Ag acts as an endothelial cell ligand on the B. bovis-IRBC.
牛巴贝斯虫感染的红细胞(IRBCs)在宿主微血管中的隔离被认为是免疫逃避的重要机制。由于免疫球蛋白被认为对预防疾病很重要,因此采用牛巴贝斯虫隔离的体外试验来探究抗牛巴贝斯虫免疫球蛋白干扰IRBC细胞粘附的能力,并鉴定作为内皮细胞受体的IRBC表面抗原。与IRBC表面反应的牛感染血清可抑制甚至逆转IRBC与牛脑毛细血管内皮细胞(BBECs)的结合。这种活性至少部分归因于血清IgG。从抑制性血清中分离出的IgG在牛巴贝斯虫-IRBC的表面特异性免疫沉淀中捕获了变异红细胞表面抗原1(VESA1)。对细胞粘附表型的选择同时选择了VESA1抗原的抗原性和结构变化。此外,抗VESA1单克隆抗体4D9.1G1被证明能够有效抑制和逆转粘附性、单克隆抗体反应性寄生虫与BBECs的结合,并通过免疫电子显微镜将VESA1定位到IRBC膜瘤的外部尖端。这些数据与牛巴贝斯虫的抗原变异和细胞粘附之间的联系一致,并表明VESA1抗原作为牛巴贝斯虫-IRBC上的内皮细胞配体。
