Altered behaviour and immune response in mice with NHLRC2 p.Asp148Tyr variant

IF 3.5 Q2 IMMUNOLOGY

Brain, behavior, & immunity - health Pub Date : 2025-05-22 DOI:10.1016/j.bbih.2025.101020

Anniina E. Hiltunen , Salla M. Kangas , Aishwarya Gondane , Henna Koivisto , Kari Salokas , Anne Heikkinen , Miia H. Salo , Tapio Röning , Antti Tallgren , Virpi Glumoff , Maria C. Denis , Niki Karagianni , Johanna Myllyharju , Markku Varjosalo , Heikki Tanila , Harri M. Itkonen , Mika Rämet , Johanna Uusimaa , Reetta Hinttala

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Abstract

Fibrosis, neurodegeneration and cerebral angiomatosis (FINCA) is a childhood-onset neurodevelopmental disorder with multi-organ manifestations, including recurrent infections. It is caused by variants in NHLRC2, initiating a cascade of unknown pathological events.

We investigated the FINCA disease-causing p.Asp148Tyr variant in NHLRC2 by analysing transcriptional changes in mouse embryonic stem cells (mESCs). We conducted behavioural and immunological phenotyping of FINCA mice compound heterozygous for the Nhlrc2 knockout allele and p.Asp148Tyr variant and explored their T cell populations and cytokine production in splenocytes. Additionally, we employed proximity-labelling mass spectrometry to identify changes in protein–protein interactions resulting from the p.Asp148Tyr variant in human embryonic kidney cells.

We discovered significant transcriptional changes in mESCs homozygous for the p.Asp148Tyr variant or Nhlrc2 knockout allele compared to wild-type cells, with genes involved in cell metabolism, adhesion, neurodevelopment and immune response. FINCA mice exhibited hyperactivity and decreased exploration of new object in adolescence, and an altered innate immune response, particularly in interferon γ production. By comparing p.Asp148Tyr-induced changes in gene expression in mouse cells and putative interaction partners in human cells, we identified Rho GTPase signalling as a common affected pathway.

Our study provides insights into the molecular pathways impacted by the p.Asp148Tyr NHLRC2. The FINCA mouse, which recapitulates several features of the human condition, particularly neurodevelopmental and immune response defects, serves as a tool for investigations on the role of environmental triggers in disease pathogenesis. Our results suggest that targeting immune pathways could offer a strategy for therapeutic intervention in FINCA disease.

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携带NHLRC2 p.Asp148Tyr变异的小鼠行为和免疫反应的改变

纤维化、神经变性和脑血管瘤病（FINCA）是一种儿童期发病的多器官神经发育障碍，包括复发性感染。它是由NHLRC2的变异引起的，引发一系列未知的病理事件。我们通过分析小鼠胚胎干细胞（mESCs）的转录变化，研究了NHLRC2中FINCA致病的p.Asp148Tyr变异。我们对Nhlrc2敲除等位基因和p.Asp148Tyr变异的FINCA小鼠进行了行为和免疫学表型分析，并探讨了它们在脾细胞中的T细胞群和细胞因子的产生。此外，我们采用接近标记质谱法鉴定了人类胚胎肾细胞中p.Asp148Tyr变异导致的蛋白质-蛋白质相互作用的变化。我们发现，与野生型细胞相比，mESCs纯合的p.Asp148Tyr变异或Nhlrc2敲除等位基因的转录发生了显著变化，这些基因涉及细胞代谢、粘附、神经发育和免疫反应。FINCA小鼠在青春期表现出多动症和对新物体的探索减少，以及先天免疫反应的改变，特别是干扰素γ的产生。通过比较p. asp148tyr诱导的小鼠细胞和人类细胞中可能的相互作用伙伴基因表达的变化，我们发现Rho GTPase信号传导是一个共同的受影响途径。我们的研究为p.Asp148Tyr NHLRC2影响的分子途径提供了见解。FINCA小鼠概括了人类状况的几个特征，特别是神经发育和免疫反应缺陷，可作为研究环境触发因素在疾病发病机制中的作用的工具。我们的研究结果表明，靶向免疫途径可以为FINCA疾病的治疗干预提供一种策略。

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