Andersson J, Coutinho A, Melchers F
J Exp Med. 1978 Jun 1;147(6):1744-54. doi: 10.1084/jem.147.6.1744.
The frequency of mitogen-reactive B cells yielding an IgG plaque-forming cell (PFC) response has been determined in vitro by limiting dilution analysis under culture conditions which allow every growth-induced B cell to grow and mature into a clone of Ig-secreting cells. The frequencies of lipopolysaccharide (LPS)-and lipoprotein-reactive precursors for IgG-secreting cells in the spleen of 6--8 wk old C3H/Tif and of C57BL/67 mice were found to be between 1 in 30 and 1 in 40 B cells and, therefore, only one tenth of the frequencies of mitogen-reactive precursors of clones secreting IgM. All IgG-secreting cells developed by switching in clones which previously contained IgM-secreting cells. This was shown in two experiments where the total number of mitogen-reactive precursor yielding IgM-secreting cell clones was limited such that 82 or 90% of all responding cultures originated from one precursor. Thus, of 480 cultures in the first and 720 cultures in the second experiment, 86 and 98 cultures were found positive, yielding IgM-secreting cells at day 5. When the same cultures were assayed at day 7 for IgG-secreting cells 9 and 10 cultures were found positive. All 19 cultures with IgG-secreting cells previously had contained IgM-secreting cells. The probability that IgG-secreting cells and IgM-secreting cells would have arisen from independent precursors can be calculated using Fisher's exact test of independence. For the two experiments those probabilities are 3.4 X 10(-7) and 4.0 X 10(-9). Since we have previously shown that each cell in a mitogen-stimulated, growing B-cell clone divides, and that each dividing cell secretes Ig, we conclude from these experiments that the large majority--in our experiments all--of the IgG-secreting cells in mitogen-stimulated B-cell clones develop by switch from IgM-secreting cells. IgG-secreting cells develop either early or late during growth of a single IgM-secreting cell clone. The switch to IgG secretion, therefore, is not fixed in the time of clonal growth after mitogenic stimulation.
通过在培养条件下进行有限稀释分析,体外测定了产生IgG空斑形成细胞(PFC)反应的丝裂原反应性B细胞的频率,该培养条件能使每个生长诱导的B细胞生长并成熟为一个分泌Ig的细胞克隆。发现在6 - 8周龄的C3H/Tif和C57BL/6小鼠脾脏中,分泌IgG细胞的脂多糖(LPS)和脂蛋白反应性前体细胞的频率在每30个B细胞中有1个至每40个B细胞中有1个之间,因此,仅为分泌IgM的克隆的丝裂原反应性前体细胞频率的十分之一。所有分泌IgG的细胞都是在先前含有分泌IgM细胞的克隆中通过类别转换产生的。这在两个实验中得到了证明,在这两个实验中,产生分泌IgM细胞克隆的丝裂原反应性前体细胞的总数受到限制,使得所有反应性培养物中的分别有82%或90%源自一个前体细胞。因此,在第一个实验的480个培养物和第二个实验的720个培养物中,分别有86个和98个培养物在第5天被发现呈阳性,产生分泌IgM的细胞。当在第7天对相同的培养物进行分泌IgG细胞检测时,发现分别有9个和10个培养物呈阳性。所有19个分泌IgG细胞的培养物之前都含有分泌IgM的细胞。分泌IgG细胞和分泌IgM细胞由独立前体细胞产生的概率可以使用费舍尔独立性精确检验来计算。对于这两个实验,这些概率分别为3.4×10⁻⁷和4.0×10⁻⁹。由于我们之前已经表明,丝裂原刺激的生长中的B细胞克隆中的每个细胞都会分裂,并且每个分裂细胞都会分泌Ig,我们从这些实验中得出结论,在丝裂原刺激的B细胞克隆中绝大多数(在我们的实验中是所有)分泌IgG的细胞是通过从分泌IgM的细胞进行类别转换而产生的。分泌IgG的细胞在单个分泌IgM细胞克隆生长的早期或晚期产生。因此,向IgG分泌的类别转换在丝裂原刺激后的克隆生长时间上并不固定。