Slifka M K, Matloubian M, Ahmed R
Department of Microbiology and Immunology, University of California at Los Angeles School of Medicine 90024.
J Virol. 1995 Mar;69(3):1895-902. doi: 10.1128/JVI.69.3.1895-1902.1995.
Antiviral antibody production is often sustained for long periods after resolution of an acute viral infection. Despite extensive documentation of this phenomenon, the mechanisms involved in maintaining long-term antibody production remain poorly defined. As a first step towards understanding the nature of long-term humoral immunity, we examined the anatomical location of antibody-producing cells during acute viral infection. Using the lymphocytic choriomeningitis virus (LCMV) model, we found that after resolution of the acute infection, when antiviral plasma cells in the spleen decline, a population of virus-specific plasma cells appears in the bone marrow and constitutes the major source of long-term antibody production. Following infection of adult mice, LCMV-specific antibody-secreting cells (ASC) peaked in the spleen at 8 days postinfection but were undetectable in the bone marrow at that time. The infection was essentially cleared by 15 days, and the ASC numbers in the spleen rapidly declined while an increasing population of LCMV-specific ASC began to appear in the bone marrow. Compared with the peak response at 8 days postinfection, time points from 30 days to more than 1 year later demonstrated greater-than-10-fold reductions in splenic ASC. In contrast, LCMV-specific plasma cell numbers in the bone marrow remained high and correlated with the high levels of antiviral serum antibody. The presence of LCMV-specific plasma cells in the bone marrow was not due to persistent infection at this site, since the virus was cleared from both the spleen and bone marrow with similar kinetics as determined by infectivity and PCR assays. The immunoglobulin G subclass profile of antibody-secreting cells derived from bone marrow and the spleen correlated with the immunoglobulin G subclass distribution of LCMV-specific antibody in the serum. Upon rechallenge with LCMV, the spleen exhibited a substantial increase in virus-specific plasma cell numbers during the early phase of the secondary response, followed by an equally sharp decline. Bone marrow ASC populations and LCMV-specific antibody levels in the serum did not change during the early phase of the reinfection, but both increased about two-fold by 15 days postchallenge. After both primary and secondary viral infections, LCMV-specific plasma cells were maintained in the bone marrow, showing that the bone marrow is a major site of long-term antibody production after acute viral infection. These results documenting long-term persistence of plasma cells in the bone marrow suggest a reexamination of our current notions regarding the half-life of plasma cells.
在急性病毒感染消退后,抗病毒抗体的产生通常会持续很长时间。尽管对这一现象已有广泛记录,但维持长期抗体产生的机制仍不清楚。作为理解长期体液免疫本质的第一步,我们研究了急性病毒感染期间产生抗体细胞的解剖位置。利用淋巴细胞性脉络丛脑膜炎病毒(LCMV)模型,我们发现急性感染消退后,脾脏中的抗病毒浆细胞数量下降时,一群病毒特异性浆细胞出现在骨髓中,并构成长期抗体产生的主要来源。成年小鼠感染LCMV后,LCMV特异性抗体分泌细胞(ASC)在感染后8天在脾脏中达到峰值,但此时在骨髓中无法检测到。感染在15天时基本清除,脾脏中的ASC数量迅速下降,而骨髓中LCMV特异性ASC的数量开始增加。与感染后8天的峰值反应相比,感染后30天至1年多的时间点,脾脏中的ASC减少了10倍以上。相比之下,骨髓中LCMV特异性浆细胞的数量仍然很高,并且与抗病毒血清抗体的高水平相关。骨髓中LCMV特异性浆细胞的存在并非由于该部位的持续感染,因为通过感染性和PCR检测确定,病毒从脾脏和骨髓中清除的动力学相似。来自骨髓和脾脏的抗体分泌细胞的免疫球蛋白G亚类谱与血清中LCMV特异性抗体的免疫球蛋白G亚类分布相关。再次用LCMV攻击后,在二次反应的早期阶段,脾脏中病毒特异性浆细胞的数量大幅增加,随后同样急剧下降。在再次感染的早期阶段,骨髓ASC群体和血清中LCMV特异性抗体水平没有变化,但在攻击后15天两者均增加了约两倍。在初次和二次病毒感染后,LCMV特异性浆细胞都保留在骨髓中,这表明骨髓是急性病毒感染后长期抗体产生的主要部位。这些记录骨髓中浆细胞长期存在的结果表明,需要重新审视我们目前关于浆细胞半衰期的观念。