Office of Biotechnology Products, Center for Drug Evaluation and Research, Food and Drug Administration, Silver Spring, MD, USA.
Fina Biosolutions LLC, Rockville, MD, USA.
Int Immunol. 2018 Nov 14;30(12):569-578. doi: 10.1093/intimm/dxy052.
The B-cell response to antigen is critically regulated by co-receptors. CD21 (complement receptor 2) amplifies the response to antigen linked to its ligands, specific C3 fragments. In contrast, human Fc receptor-like 5 (FCRL5), a novel IgG receptor, was reported to inhibit B-cell receptor (BCR) signaling. Here, we show that CD21 and FCRL5 physically associate, suggesting that immune complexes containing both C3 fragment and IgG could simultaneously engage the pre-assembled receptors. We found that activating signaling molecules such as CD19, active PLCγ2 and BTK were rapidly recruited to FCRL5 upon engagement, suggesting a novel activating function for FCRL5. We confirmed that FCRL5 through its ITIMs (immunoreceptor tyrosine-based inhibitory motif) inhibited BCR signaling in the absence of CD21 stimulation. In contrast, triple engagement of FCRL5, CD21 and the BCR led to a superior calcium response compared to CD21 and BCR co-stimulation, in both cell lines and tonsil B cells. Furthermore, the novel activating function was independent of established FCRL5 signaling motifs. While human peripheral B cells express either FCRL5 or CD21, we identified a sizable subset of tonsil B cells which co-express the two receptors. We propose that FCRL5 has dual signaling capacity, while CD21 co-engagement serves as molecular switch, converting FCRL5 from a negative to a positive co-receptor. In tissues, B cells that co-express FCRL5 and CD21 could robustly respond to IgG immune complexes loaded with C3 fragments.
B 细胞对抗原的反应受到共受体的严格调控。CD21(补体受体 2)通过与其配体(特定的 C3 片段)结合,放大对与抗原结合的反应。相比之下,人 Fc 受体样 5(FCRL5)是一种新型的 IgG 受体,据报道其抑制 B 细胞受体(BCR)信号转导。在这里,我们发现 CD21 和 FCRL5 物理上相互关联,表明同时含有 C3 片段和 IgG 的免疫复合物可以同时结合预组装的受体。我们发现,激活的信号分子,如 CD19、活性 PLCγ2 和 BTK,在与 FCRL5 结合后迅速被募集到 FCRL5,这表明 FCRL5 具有新的激活功能。我们证实,FCRL5 通过其 ITIMs(免疫受体酪氨酸基抑制基序)在没有 CD21 刺激的情况下抑制 BCR 信号转导。相反,FCRL5、CD21 和 BCR 的三重结合导致与 CD21 和 BCR 共刺激相比,在细胞系和扁桃体 B 细胞中产生更优的钙反应。此外,这种新的激活功能不依赖于已建立的 FCRL5 信号基序。虽然人外周 B 细胞表达 FCRL5 或 CD21,但我们发现扁桃体 B 细胞中有相当大的一部分同时表达这两种受体。我们提出,FCRL5 具有双重信号转导能力,而 CD21 的共结合充当分子开关,将 FCRL5 从负共受体转换为正共受体。在组织中,同时表达 FCRL5 和 CD21 的 B 细胞可以对加载有 C3 片段的 IgG 免疫复合物产生强烈反应。
