Honjo Kazuhito, Kubagawa Yoshiki, Suzuki Yusuke, Takagi Miyuki, Ohno Hiroshi, Bucy R Pat, Izui Shozo, Kubagawa Hiromi
Department of Pathology, University of Alabama at Birmingham, Birmingham, AL 35294, USA.
Department of Internal Medicine, Division of Nephrology, Juntendo University School of Medicine, Tokyo 113-8421, Japan.
Int Immunol. 2014 Dec;26(12):659-72. doi: 10.1093/intimm/dxu070. Epub 2014 Jul 3.
The IgM-Fc receptor (FcμR) is involved in IgM homeostasis as evidenced by increased pre-immune serum IgM and natural auto-antibodies of both IgM and IgG isotypes in Fcmr-deficient C57BL/6 (B6) mice. To determine the impact of Fcmr-ablation on autoimmunity, we introduced the Fcmr null mutation onto the Fas-deficient autoimmune-prone B6.MRL Fas (lpr/lpr) mouse background (B6/lpr). Both IgM and IgG auto-antibodies against dsDNA or chromatin appeared earlier in FcμR(-) B6/lpr than FcμR(+) B6/lpr mice, but this difference became less pronounced with age. Splenic B2 cells, which were 2-fold elevated in FcμR(+) B6/lpr mice, were reduced to normal B6 levels in FcμR(-) B6/lpr mice, whereas splenic B1 cells were comparable in both groups of B6/lpr mice. By contrast, marginal zone (MZ) B cells were markedly reduced in FcμR(-) B6/lpr mice compared with either FcμR(+) B6/lpr or wild type (WT) B6 mice. This reduction appeared to result from rapid differentiation of MZ B cells into plasma cells in the absence of FcμR, as IgM antibody to a Smith (Sm) antigen, to which MZ B cells are known to preferentially respond, was greatly increased in both groups (B6/lpr and B6) of FcμR(-) mice compared with FcμR(+) B6/lpr or B6 mice. Mott cells, aberrant plasma cells with intra-cytoplasmic inclusions, were also increased in the absence of FcμR. Despite these abnormalities, the severity of renal pathology and function and survival were all indistinguishable between FcμR(-) and FcμR(+) B6/lpr mice. Collectively, these findings suggest that FcμR plays important roles in the regulation of auto-antibody production, Mott cell formation and the differentiation of MZ B cells into plasma cells in B6.MRL Fas (lpr/lpr) mice.
IgM-Fc受体(FcμR)参与IgM的稳态,FcμR缺陷的C57BL/6(B6)小鼠的免疫前血清IgM以及IgM和IgG同种型的天然自身抗体增加就证明了这一点。为了确定FcμR缺失对自身免疫的影响,我们将FcμR无效突变引入到Fas缺陷的自身免疫易感B6.MRL Fas(lpr/lpr)小鼠背景(B6/lpr)中。与FcμR(+) B6/lpr小鼠相比,针对双链DNA或染色质的IgM和IgG自身抗体在FcμR(-) B6/lpr小鼠中出现得更早,但这种差异随着年龄增长变得不那么明显。FcμR(+) B6/lpr小鼠中脾脏B2细胞数量升高了2倍,而在FcμR(-) B6/lpr小鼠中则降至正常B6水平,而两组B6/lpr小鼠的脾脏B1细胞数量相当。相比之下,与FcμR(+) B6/lpr或野生型(WT)B6小鼠相比,FcμR(-) B6/lpr小鼠的边缘区(MZ)B细胞明显减少。这种减少似乎是由于在缺乏FcμR的情况下MZ B细胞迅速分化为浆细胞,因为与FcμR(+) B6/lpr或B6小鼠相比,FcμR(-)小鼠组(B6/lpr和B6)中针对已知MZ B细胞优先应答的史密斯(Sm)抗原的IgM抗体大大增加。在缺乏FcμR的情况下,具有胞浆内包涵体的异常浆细胞——莫特细胞也增加了。尽管存在这些异常,但FcμR(-)和FcμR(+) B6/lpr小鼠在肾脏病理、功能和存活率方面均无明显差异。总体而言,这些发现表明FcμR在B6.MRL Fas(lpr/lpr)小鼠自身抗体产生的调节、莫特细胞形成以及MZ B细胞向浆细胞的分化中起重要作用。