Perotti Mario, Ghidoli Nadia, Altara Raffaele, Diotti Roberta A, Clementi Nicola, De Marco Donata, Sassi Monica, Clementi Massimo, Burioni Roberto, Mancini Nicasio
Laboratorio di Microbiologia e Virologia, Università Vita-Salute San Raffaele, Milan, Italy.
Autoimmun Rev. 2008 Jun;7(6):468-72. doi: 10.1016/j.autrev.2008.03.008. Epub 2008 Apr 10.
Hepatitis C virus (HCV) infection has been closely related to mixed cryoglobulinemia (MC). During HCV infection, cryoglobulins derive from the restricted expression of few germline genes as VH1-69, a subfamily highly represented in anti-HCV humoral response. Little is known about the self-reacting IgM component of the cryoprecipitate. In the present study, the IgM/K repertoire of an HCV-infected cryoglobulinemic patient was dissected by phage-display on well-characterized anti-HCV/E2 VH1-69-derived monoclonal IgG1/Kappa Fab fragments cloned from the same patient. All selected IgM clones were shown to react with the anti-HCV/E2 antibodies belonging to VH1-69 subfamily. More than 60% of selected clones showed a bias in VH gene usage, restricted to two VH subfamilies frequently described in autoimmune manifestations (VH3-23; VH3-21). Moreover, all selected clones showed an high similarity (>98.5%) to germline genes evidencing their natural origin. A possible hypothesis is that clones belonging to some subfamilies are naturally prone to react against other VH gene subfamilies, as VH 1-69. An antigen-driven stimulation of these subfamilies, and their overexpression as in HCV infection, could lead to a breaking of humoral homeostatic balance exposing the patients to the risk of developing autoimmune disorders.
丙型肝炎病毒(HCV)感染与混合性冷球蛋白血症(MC)密切相关。在HCV感染期间,冷球蛋白源自少数种系基因如VH1-69的限制性表达,VH1-69是在抗HCV体液反应中高度富集的一个亚家族。关于冷沉淀物中自身反应性IgM成分知之甚少。在本研究中,通过噬菌体展示技术,利用从同一例HCV感染的冷球蛋白血症患者克隆的、特征明确的抗HCV/E2 VH1-69来源的单克隆IgG1/κ Fab片段,剖析了该患者的IgM/κ库。所有筛选出的IgM克隆均显示与属于VH1-69亚家族的抗HCV/E2抗体发生反应。超过60%的筛选克隆显示VH基因使用存在偏向性,局限于自身免疫表现中经常描述的两个VH亚家族(VH3-23;VH3-21)。此外,所有筛选出的克隆均显示与种系基因高度相似(>98.5%),证明其天然来源。一个可能的假说是,属于某些亚家族的克隆天然易于与其他VH基因亚家族如VH 1-69发生反应。这些亚家族的抗原驱动刺激以及它们在HCV感染中的过表达,可能导致体液稳态平衡的破坏,使患者面临发生自身免疫性疾病的风险。