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Genetically programmed alternative splicing of NEMO mediates an autoinflammatory disease phenotype
- Lee, Younglang;
- Wessel, Alex W;
- Xu, Jiazhi;
- Reinke, Julia G;
- Lee, Eries;
- Kim, Somin M;
- Hsu, Amy P;
- Zilberman-Rudenko, Jevgenia;
- Cao, Sha;
- Enos, Clinton;
- Brooks, Stephen R;
- Deng, Zuoming;
- Lin, Bin;
- de Jesus, Adriana A;
- Hupalo, Daniel N;
- Piotto, Daniela GP;
- Terreri, Maria T;
- Dimitriades, Victoria R;
- Dalgard, Clifton L;
- Holland, Steven M;
- Goldbach-Mansky, Raphaela;
- Siegel, Richard M;
- Hanson, Eric P
- et al.
Abstract
Host defense and inflammation are regulated by the NF-κB essential modulator (NEMO), a scaffolding protein with a broad immune cell and tissue expression profile. Hypomorphic mutations in inhibitor of NF-κB kinase regulatory subunit gamma (IKBKG) encoding NEMO typically present with immunodeficiency. Here, we characterized a pediatric autoinflammatory syndrome in 3 unrelated male patients with distinct X-linked IKBKG germline mutations that led to overexpression of a NEMO protein isoform lacking the domain encoded by exon 5 (NEMO-Δex5). This isoform failed to associate with TANK binding kinase 1 (TBK1), and dermal fibroblasts from affected patients activated NF-κB in response to TNF but not TLR3 or RIG-I-like receptor (RLR) stimulation when isoform levels were high. By contrast, T cells, monocytes, and macrophages that expressed NEMO-Δex5 exhibited increased NF-κB activation and IFN production, and blood cells from these patients expressed a strong IFN and NF-κB transcriptional signature. Immune cells and TNF-stimulated dermal fibroblasts upregulated the inducible IKK protein (IKKi) that was stabilized by NEMO-Δex5, promoting type I IFN induction and antiviral responses. These data revealed how IKBKG mutations that lead to alternative splicing of skipping exon 5 cause a clinical phenotype we have named NEMO deleted exon 5 autoinflammatory syndrome (NDAS), distinct from the immune deficiency syndrome resulting from loss-of-function IKBKG mutations.
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