Kiely P D, Thiru S, Oliveira D B
Department of Medicine, University of Cambridge School of Clinical Medicine, Addenbrooke's Hospital, United Kingdom.
Lab Invest. 1995 Aug;73(2):284-93.
Mercuric chloride (HgCl2) induces an autoimmune syndrome in susceptible strains of rodent. In the Brown Norway (BN) rat, this is characterized by autoreactive T cells, high levels of total IgE, IgG autoantibodies, including anti-collagen types I and II, and tissue injury, including glomerulonephropathy and necrotizing vasculitis of the gut. The high total IgE levels and evidence showing ex vivo down-regulation of IFN gamma and in vivo up-regulation of IL-4 suggest that HgCl2-induced autoimmunity occurs in a Th2 lymphokine environment.
HgCl2-autoimmunity was induced in BN rats using standard methods. Anti-collagen (types I and II) Ab and IgG subclasses were measured by ELISA. Arthritis was scored on Days 13 to 17 after HgCl2 treatment. Ankle joints and synovium were examined with standard histologic and immunohistochemical techniques. The incidence and severity of arthritis were compared in normal and R73 (anti-alpha/beta T cell receptor mAb)-treated BN rats. After R73 treatment, T cell function was assessed by measuring the total IgE and anti-type II collagen response to HgCl2, and FACS was used to assess the number of peripheral blood OX19+ lymphocytes (T cell marker).
A self-limiting inflammatory arthritis develops in more than 82% of animals and is more severe in males. Histologically, there is a predominant ED1+ macrophage synovial infiltrate, areas of fibrinoid necrosis, and vasculitis and erosions of cartilage. The peak anti-collagen (type I and II) Ab titer does not correlate with arthritis incidence or severity. Treatment with R73 markedly reduces the rise in total IgE and IgG anti-type II collagen, reduces OX19+ peripheral blood lymphocytes, and abolishes the arthritis.
HgCl2 induces a T cell-dependent inflammatory arthritis in the BN rat. In contrast with other animal models, HgCl2-induced arthritis is associated with an apparent Th2 lymphokine response.
氯化汞(HgCl2)可在易感啮齿动物品系中诱发自身免疫综合征。在棕色挪威(BN)大鼠中,其特征为自身反应性T细胞、高水平的总IgE、IgG自身抗体(包括抗I型和II型胶原蛋白抗体)以及组织损伤(包括肾小球肾炎和肠道坏死性血管炎)。总IgE水平升高以及体外IFNγ下调和体内IL-4上调的证据表明,HgCl2诱导的自身免疫发生在Th2淋巴细胞因子环境中。
采用标准方法在BN大鼠中诱导HgCl2-自身免疫。通过ELISA检测抗胶原蛋白(I型和II型)抗体和IgG亚类。在HgCl2处理后第13至17天对关节炎进行评分。用标准组织学和免疫组织化学技术检查踝关节和滑膜。比较正常和R73(抗α/βT细胞受体单克隆抗体)处理的BN大鼠中关节炎的发病率和严重程度。R73处理后,通过测量对HgCl2的总IgE和抗II型胶原蛋白反应评估T细胞功能,并用流式细胞术评估外周血OX19+淋巴细胞(T细胞标志物)数量。
超过82%的动物发生自限性炎性关节炎,雄性更为严重。组织学上,主要有ED1+巨噬细胞滑膜浸润、纤维蛋白样坏死区域、血管炎和软骨侵蚀。抗胶原蛋白(I型和II型)抗体滴度峰值与关节炎发病率或严重程度无关。R73处理显著降低总IgE和抗II型胶原蛋白IgG的升高,减少OX19+外周血淋巴细胞,并消除关节炎。
HgCl2在BN大鼠中诱导T细胞依赖性炎性关节炎。与其他动物模型不同,HgCl2诱导的关节炎与明显的Th2淋巴细胞因子反应相关。
