Department of Internal Medicine, Rheumatology Division, The University of Michigan, Ann Arbor, MI 48109-2200, USA.
J Autoimmun. 2012 May;38(2-3):J135-43. doi: 10.1016/j.jaut.2011.11.001. Epub 2011 Dec 3.
Systemic lupus erythematosus (SLE) is an autoimmune disease primarily afflicting women. The reason for the gender bias is unclear, but genetic susceptibility, estrogen and environmental agents appear to play significant roles in SLE pathogenesis. Environmental agents can contribute to lupus susceptibility through epigenetic mechanisms. We used (C57BL/6xSJL)F1 mice transgenic for a dominant-negative MEK (dnMEK) that was previously shown to be inducibly and selectively expressed in T cells. In this model, induction of the dnMEK by doxycycline treatment suppresses T cell ERK signaling, decreasing DNA-methyltransferase expression and resulting in DNA demethylation, overexpression of immune genes Itgal (CD11a) and Tnfsf7 (CD70), and anti-dsDNA antibody. To examine the role of gender and estrogen in this model, male and female transgenic mice were neutered and implanted with time-release pellets delivering placebo or estrogen. Doxycycline induced IgG anti-dsDNA antibodies in intact and neutered, placebo-treated control female but not male transgenic mice. Glomerular IgG deposits were also found in the kidneys of female but not male transgenic mice, and not in the absence of doxycycline. Estrogen enhanced anti-dsDNA IgG antibodies only in transgenic, ERK-impaired female mice. Decreased ERK activation also resulted in overexpression and demethylation of the X-linked methylation-sensitive gene CD40lg in female but not male mice, consistent with demethylation of the second X chromosome in the females. The results show that both estrogen and female gender contribute to the female predisposition in lupus susceptibility through hormonal and epigenetic X-chromosome effects and through suppression of ERK signaling by environmental agents.
系统性红斑狼疮(SLE)是一种主要影响女性的自身免疫性疾病。性别偏见的原因尚不清楚,但遗传易感性、雌激素和环境因素似乎在 SLE 发病机制中起重要作用。环境因素可以通过表观遗传机制导致狼疮易感性。我们使用(C57BL/6xSJL)F1 小鼠,该小鼠过表达一种显性负 MEK(dnMEK),先前的研究表明该 MEK 可在 T 细胞中诱导性和选择性表达。在该模型中,通过强力霉素处理诱导 dnMEK 可抑制 T 细胞 ERK 信号转导,降低 DNA 甲基转移酶的表达,导致 DNA 去甲基化、免疫基因 Itgal(CD11a)和 Tnfsf7(CD70)的过表达以及抗 dsDNA 抗体的产生。为了研究性别和雌激素在该模型中的作用,雄性和雌性转基因小鼠被去势并植入释放安慰剂或雌激素的缓释丸。在完整的和去势的、安慰剂治疗的对照雌性转基因小鼠中,强力霉素诱导 IgG 抗 dsDNA 抗体,但在雄性转基因小鼠中未诱导。在雌性转基因小鼠的肾脏中也发现了肾小球 IgG 沉积,但在未给予强力霉素的情况下则未发现。雌激素仅增强了 ERK 受损的雌性转基因小鼠的 IgG 抗 dsDNA 抗体。ERK 激活减少还导致雌性而非雄性小鼠中 X 连锁甲基化敏感基因 CD40lg 的过度表达和去甲基化,这与雌性的第二个 X 染色体去甲基化一致。结果表明,雌激素和女性性别均通过激素和表观遗传 X 染色体效应以及环境因素对 ERK 信号的抑制作用,导致狼疮易感性的女性倾向。