Comprehensive approach for identification of functional FCGR2C alleles resulting in protein expression as a determinant for predicting predisposition to autoimmunity

Immunomedicine Pub Date : 2021-08-31 DOI:10.1002/imed.1027
Dorit Lehmann Ph.D., Sabine Unterthurner M.Sc., Verena Berg M.Sc., Karin Hock Ph.D., Padmapriya Ponnuswamy Ph.D., Mantas Malisauskas Ph.D., Brian A. Crowe Ph.D., Bekir Erguener Ph.D., Christoph Bock Ph.D., Greg Hather Ph.D., Birgit M. Reipert Ph.D., Ivan Bilic Ph.D.
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Abstract

The balance of activating and inhibitory signals from the low affinity Fc gamma receptors modulates immune responses triggered by IgG antibody-immune complexes. In homeostasis, this leads to antigen clearance, while in autoimmune diseases to unwanted immune response. Besides the activating receptors FcɣRIIa, FcɣRIIIa, and the inhibitory FcɣRIIb receptor, a third activating receptor, FcɣRIIc, was shown to be expressed on several immune cell types, however, only in the presence of a functional FCGR2C-ORF allele. FcɣRIIc expression is associated with autoimmune diseases such as idiopathic thrombocytopenic purpura, systemic lupus erythematosus or systemic sclerosis. Thus, the determination of the functional FCGR2C gene resulting in protein expression on immune cells becomes highly relevant, particularly in the context of unwanted immune responses through inadvertent FcɣRIIc activation by molecules targeting stimulation of the inhibitory receptor FcɣRIIb, currently pursued by several pharmaceutical companies. The high degree of homology within the FCGR2/3 gene cluster complicates development of an accurate method for identification of FcɣRIIc expression. Here we describe a comprehensive approach to characterize genetic status of the FCGR2C gene locus consisting of cDNA sequencing, SNaPshot genotyping and low-coverage next-generation sequencing. This might enable Mendelian randomization hypothesis testing across autoimmune diseases to personalize therapies and enhance treatment outcomes.

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鉴定功能性FCGR2C等位基因的综合方法,导致蛋白表达作为预测自身免疫易感性的决定因素
来自低亲和力Fc γ受体的激活和抑制信号的平衡调节由IgG抗体-免疫复合物触发的免疫反应。在体内平衡中,这导致抗原清除,而在自身免疫性疾病中则导致不必要的免疫反应。除了激活受体Fc - RIIa、Fc - RIIIa和抑制受体Fc - RIIb外,第三种激活受体Fc - RIIc被证明在几种免疫细胞类型上表达,然而,只有在功能性FCGR2C-ORF等位基因存在的情况下才表达。Fc α RIIc表达与自身免疫性疾病有关,如特发性血小板减少性紫癜、系统性红斑狼疮或系统性硬化症。因此,确定功能性FCGR2C基因导致免疫细胞上的蛋白质表达变得高度相关,特别是在目前几家制药公司正在追求的,通过靶向刺激抑制受体Fc - RIIb的分子无意中激活Fc - RIIc而产生不必要的免疫反应的背景下。FCGR2/3基因簇内的高度同源性使开发一种准确鉴定Fc α RIIc表达的方法变得复杂。在这里,我们描述了一种全面的方法来表征FCGR2C基因座的遗传状态,包括cDNA测序、SNaPshot基因分型和低覆盖率的下一代测序。这可能使孟德尔随机化假设检验能够在自身免疫性疾病中进行个性化治疗并提高治疗效果。
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