Citations to this article
Citation Information: J Clin Invest. 1998;101(6):1362-1372. https://doi.org/10.1172/JCI728.
Abstract
One of the hallmarks of SLE is the loss of tolerance to chromatin. The genes and mechanisms that trigger this loss of tolerance remain unknown. Our genetic studies in the NZM2410 lupus strain have implicated genomic intervals on chromosomes 1 (Sle1), 4 (Sle2), and 7 (Sle3) as conferring strong lupus susceptibility. Interestingly, B6 mice that are congenic for Sle1 (B6.NZMc1) have elevated IgG antichromatin Abs. This study explores the antinuclear antibody fine specificities and underlying cellular defects in these mice. On the B6 background, Sle1 by itself is sufficient to generate a robust, spontaneous antichromatin Ab response, staining Hep-2 nuclei homogeneously, and reacting primarily with H2A/H2B/DNA subnucleosomes. This targeted immune response peaks at 7-9 mo of age, affects both sexes with equally high penetrance (> 75%), and interestingly, does not "spread" to other subnucleosomal chromatin components. Sle1 also leads to an expanded pool of histone-reactive T cells, which may have a role in driving the anti-H2A/H2B/DNA B cells. However, these mice do not exhibit any generalized immunological defects or quantitative aberrations in lymphocyte apoptosis. We hypothesize that Sle1 may lead to the presentation of chromatin in an immunogenic fashion, or directly impact tolerance of chromatin-specific B cells.
Authors
C Mohan, E Alas, L Morel, P Yang, E K Wakeland
Total citations by year
Citations to this article in year 2007 (11)
| Title and authors | Publication | Year |
|---|---|---|
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Shared signaling networks that fire up in lupus B cells isolated from genetically distinct mouse models
Tianfu Wu, Xiangmei Qin, Zoran Kurepa, Kirthi Raman Kumar, Kui Liu, Hasna Kanta, Xin J Zhou, Anne B Satterthwaite, Laurie S Davis and Chandra Mohan |
Journal of Clinical Investigation | 2007 |
|
IL-6 produced by dendritic cells from lupus-prone mice inhibits CD4+CD25+ T cell regulatory functions
S Wan, C Xia, L Morel |
Journal of immunology (Baltimore, Md. : 1950) | 2007 |
|
CD19 hyperexpression augments Sle1-induced humoral autoimmunity but not clinical nephritis
X Shi, C Xie, S Chang, XJ Zhou, T Tedder, C Mohan |
Arthritis & Rheumatism | 2007 |
|
Immune-Mediated Diseases
MR Shurin, YS Smolkin |
2007 | |
|
Sle3 and Sle5 can independently couple with Sle1 to mediate severe lupus nephritis
K Liu, QZ Li, Y Yu, C Liang, S Subramanian, Z Zeng, HW Wang, C Xie, XJ Zhou, C Mohan, EK Wakeland |
Genes and Immunity | 2007 |
|
Murine Lupus Susceptibility Locus Sle1a Controls Regulatory T Cell Number and Function through Multiple Mechanisms
CM Cuda, S Wan, ES Sobel, BP Croker, L Morel |
Journal of immunology (Baltimore, Md. : 1950) | 2007 |
|
Genomic view of IFN-α response in pre-autoimmune NZB/W and MRL/lpr mice
Q Lu, N Shen, XM Li, SL Chen |
Genes and Immunity | 2007 |
|
Lupus susceptibility genes may breach tolerance to DNA by impairing receptor editing of nuclear antigen-reactive B cells
Y Liu, L Li, KR Kumar, C Xie, S Lightfoot, XJ Zhou, JF Kearney, M Weigert, C Mohan |
Journal of immunology (Baltimore, Md. : 1950) | 2007 |
|
Immune-Mediated Diseases
MR Shurin, YS Smolkin |
2007 | |
|
Augmentation of NZB Autoimmune Phenotypes by the Sle1c Murine Lupus Susceptibility Interval
BM Giles, SN Tchepeleva, JJ Kachinski, K Ruff, BP Croker, L Morel, SA Boackle |
Journal of immunology (Baltimore, Md. : 1950) | 2007 |
|
Expression of the autoimmune Fcgr2b NZW allele fails to be upregulated in germinal center B cells and is associated with increased IgG production
ZS Rahman, H Niu, D Perry, E Wakeland, T Manser, L Morel |
Genes and Immunity | 2007 |
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