Department of Pediatrics and Pediatric Rheumatology Service, Ruth Children's Hospital, Rambam Health Care Campus.
Rappaport Faculty of Medicine, Technion-Israel Institute of Technology.
Rheumatology (Oxford). 2021 Oct 2;60(10):4888-4898. doi: 10.1093/rheumatology/keab017.
To investigate phenotypic and molecular characteristics of a consanguineous family with autosomal-recessive, polyarticular, juvenile isiopathic arthriris (JIA) with extra-articular manifestations, including renal amyloidosis and Crohn's disease, associated with a novel homozygous truncating variant in LACC1.
Whole exome sequencing (WES) or targeted Sanger verification were performed in 15 participants. LACC1 expression and cytokine array were analysed in patient-derived and CRISPR/Cas9-generated LACC1-knockout macrophages (Mϕ).
A homozygous truncating variant (p.Glu348Ter) in LACC1 was identified in three affected and one asymptomatic family member, and predicted harmful by causing premature stop of the LACC1 protein sequences, and by absence from ethnically-matched controls and public variation databases. Expression studies in patient-derived macrophages (Mϕ) showed no endogenous p.Glu348Ter-LACC1 RNA transcription or protein expression, compatible with nonsense-mediated mRNA decay. WES analysis in the asymptomatic homozygous subject for p. Glu348Ter-LACC1 detected an exclusive heterozygous variant (p.Arg928Gln) in complement component C5. Further complement activity analysis suggested a protective role for the p.Arg928Gln-C5 variant as a phenotypic modifier of LACC1-associated disease. Finally, cytokine profile analysis indicated increased levels of pro-inflammatory cytokines in LACC1-disrupted as compared with wild-type Mϕ.
Our findings reinforce the role of LACC1 disruption in autosomal-recessive JIA, extend the clinical spectrum and intra-familial heterogeneity of the disease-associated phenotype, indicate a modulatory effect of complement factor C5 on phenotypic severity, and suggest an inhibitory role for wild-type LACC1 on pro-inflammatory pathways.
研究一个常染色体隐性、多关节、幼年特发性关节炎(JIA)伴关节外表现的同系家族的表型和分子特征,包括肾淀粉样变性和克罗恩病,与一种新的纯合截短变体 LACC1 相关。
对 15 名参与者进行全外显子组测序(WES)或靶向 Sanger 验证。在患者来源和 CRISPR/Cas9 生成的 LACC1 敲除巨噬细胞(Mϕ)中分析 LACC1 表达和细胞因子阵列。
在 3 名受影响和 1 名无症状家族成员中发现了 LACC1 中的纯合截短变体(p.Glu348Ter),并通过导致 LACC1 蛋白序列过早停止以及在与种族匹配的对照和公共变异数据库中缺失而预测为有害。在患者来源的巨噬细胞(Mϕ)中的表达研究表明,没有内源性 p.Glu348Ter-LACC1 RNA 转录或蛋白质表达,与无意义介导的 mRNA 衰变一致。在无症状纯合子 p.Glu348Ter-LACC1 的个体中进行 WES 分析,检测到补体成分 C5 中的一个独特杂合变体(p.Arg928Gln)。进一步的补体活性分析表明,p.Arg928Gln-C5 变体作为 LACC1 相关疾病表型的表型修饰因子具有保护作用。最后,细胞因子谱分析表明,与野生型 Mϕ 相比,LACC1 缺失的 Mϕ 中促炎细胞因子水平升高。
我们的研究结果强化了 LACC1 破坏在常染色体隐性 JIA 中的作用,扩展了疾病相关表型的临床谱和家族内异质性,表明补体因子 C5 对表型严重程度具有调节作用,并提示野生型 LACC1 对促炎途径具有抑制作用。
