State Key Laboratory of Molecular Biology, CAS Center for Excellence in Molecular Cell Science, Shanghai Institute of Biochemistry and Cell Biology, Chinese Academy of Sciences, University of Chinese Academy of Sciences, Shanghai, China.
The MOE Key Laboratory of Cell Proliferation and Differentiation, Genome Editing Research Center, School of Life Sciences, Peking-Tsinghua Center for Life Sciences, Peking University, Beijing, China.
EMBO J. 2022 Jun 1;41(11):e109324. doi: 10.15252/embj.2021109324. Epub 2022 Apr 26.
In activated B cells, activation-induced cytidine deaminase (AID) generates programmed DNA lesions required for antibody class switch recombination (CSR), which may also threaten genome integrity. AID dynamically shuttles between cytoplasm and nucleus, and the majority stays in the cytoplasm due to active nuclear export mediated by its C-terminal peptide. In immunodeficient-patient cells expressing mutant AID lacking its C-terminus, a catalytically active AID-delC protein accumulates in the nucleus but nevertheless fails to support CSR. To resolve this apparent paradox, we dissected the function of AID-delC proteins in the CSR process and found that they cannot efficiently target antibody genes. We demonstrate that AID-delC proteins form condensates both in vivo and in vitro, dependent on its N-terminus and on a surface arginine-rich patch. Co-expression of AID-delC and wild-type AID leads to an unbalanced nuclear AID-delC/AID ratio, with AID-delC proteins able to trap wild-type AID in condensates, resulting in a dominant-negative phenotype that could contribute to immunodeficiency. The co-condensation model of mutant and wild-type proteins could be an alternative explanation for the dominant-negative effect in genetic disorders.
在活化的 B 细胞中,激活诱导的胞嘧啶脱氨酶(AID)产生了抗体类别转换重组(CSR)所需的程序性 DNA 损伤,这也可能威胁到基因组的完整性。AID 在细胞质和细胞核之间动态穿梭,由于其 C 末端肽介导的活跃核输出,大多数 AID 留在细胞质中。在表达缺乏 C 末端的突变 AID 的免疫缺陷患者细胞中,催化活性的 AID-delC 蛋白在细胞核中积累,但仍不能支持 CSR。为了解决这个明显的悖论,我们剖析了 AID-delC 蛋白在 CSR 过程中的功能,发现它们不能有效地靶向抗体基因。我们证明,AID-delC 蛋白在体内和体外都能形成凝聚物,这依赖于其 N 末端和表面富含精氨酸的区域。AID-delC 和野生型 AID 的共表达导致核内 AID-delC/AID 比例失衡,AID-delC 蛋白能够将野生型 AID 困在凝聚物中,导致显性负表型,这可能导致免疫缺陷。突变型和野生型蛋白的共凝聚模型可能是遗传疾病中显性负效应的另一种解释。
