系统自身免疫的基因。

A N Theofilopoulos, D H Kono
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引用次数: 51

摘要

自身免疫性疾病包括范围广泛的疾病,可分为系统性疾病和器官特异性疾病。狼疮是一种典型的系统性自身免疫性疾病,以女性为主,多器官病理和自身抗体为主,主要针对核抗原。此病是异质性的,有不同的器官受累、血清学和临床病程。对狼疮的易感性是遗传的多基因性状,加上环境和随机方差的贡献。最近,几个实验室共同努力,确定易患这种疾病的老鼠和人类的遗传基础。在lpr和金狼疮小鼠中Fas/FasL缺陷的鉴定是凋亡促进基因自发突变与全身自身免疫相关的第一个例子。这项研究有助于阐明这些基因在耐受性和免疫调节中的作用,并将这些结果推断到其他自身免疫性疾病,以及癌症和移植。这些发现还包括转基因和基因敲除小鼠的研究,这些研究有助于确定正常背景和狼疮基因小鼠中特定基因的系统性自身免疫诱导或修饰作用。此外,全基因组搜索的结果已经开始确定各种小鼠品系和人类自发狼疮样疾病的易感位点(和最终的基因)。新出现的情况是,多种遗传因素可以独立地导致小鼠的系统性自身免疫,这加强了人类狼疮可能类似地由不同基因型组成的观点。这种复杂性强调了确定易感等位基因和作用机制的重要性,鉴于目前的技术和哺乳动物基因组定义的未来进展,这项工作当然是可行的。
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The genes of systemic autoimmunity.

Autoimmune diseases include a wide spectrum of disorders, which have been divided into systemic and organ-specific disorders. Lupus, the prototypic systemic autoimmune disease, is characterized by female predominance, multiorgan pathology, and autoantibodies, primarily directed against nuclear antigens. The disease is heterogeneous, with variable organ involvement, serology, and clinical course. Susceptibility to lupus is inherited as a polygenic trait with added contributions from environmental and stochastic variance. Concerted efforts have recently been made by several laboratories to define the genetic basis of this disease in predisposed mice and humans. The identification of the Fas/FasL defects in lpr and gld lupus mice was the first example of spontaneous mutations of apoptosis-promoting genes being associated with systemic autoimmunity. This research was instrumental in clarifying the roles of these genes in tolerance and immunoregulation, and in extrapolating these results to other autoimmune diseases, as well as cancer and transplantation. To these findings have been added those from transgenic and gene knockout mouse studies that have helped to define the systemic autoimmunity-inducing or -modifying effects of specific genes in normal background and lupus-congenic mice. In addition, the findings from genome-wide searches have begun to identify predisposing loci (and ultimately genes) for the spontaneous lupus-like diseases in various mouse strains and in humans. The emerging picture is that multiple genetic contributions can independently lead to systemic autoimmunity in mice, which reinforces the view that human lupus may be similarly composed of diverse genotypes. This complexity underscores the importance of defining the predisposing alleles and mechanisms of action, an undertaking that is certainly feasible given current technologies and future advances in the definition of mammalian genomes.

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