A critical region of A20 unveiled by missense TNFAIP3 variations that lead to autoinflammation.
Elma El KhouriFarah DiabCamille LouvrierEman AssrawiAphrodite DaskalopoulouAlexandre NguyenWilliam PiterbothSamuel DeshayesAlexandra DesdoitsBruno CopinFlorence Dastot Le MoalSonia Athina KarabinaSerge AmselemAchille AoubaIrina GiurgeaPublished in: eLife (2023)
A20 haploinsufficiency (HA20) is an autoinflammatory disease caused by heterozygous loss-of-function variations in TNFAIP3 , the gene encoding the A20 protein. Diagnosis of HA20 is challenging due to its heterogeneous clinical presentation and the lack of pathognomonic symptoms. While the pathogenic effect of TNFAIP3 truncating variations is clearly established, that of missense variations is difficult to determine. Herein, we identified a novel TNFAIP3 variation, p.(Leu236Pro), located in the A20 ovarian tumor (OTU) domain and demonstrated its pathogenicity. In the patients' primary cells, we observed reduced A20 levels. Protein destabilization was predicted in silico for A20_Leu236Pro and enhanced proteasomal degradation was confirmed in vitro through a flow cytometry-based functional assay. By applying this approach to the study of another missense variant, A20_Leu275Pro, for which no functional characterization has been performed to date, we showed that this variant also undergoes enhanced proteasomal degradation. Moreover, we showed a disrupted ability of A20_Leu236Pro to inhibit the NF-κB pathway and to deubiquitinate its substrate TRAF6. Structural modeling revealed that two residues involved in OTU pathogenic missense variations (i.e. Glu192Lys and Cys243Tyr) establish common interactions with Leu236. Interpretation of newly identified missense variations is challenging, requiring, as illustrated here, functional demonstration of their pathogenicity. Together with functional studies, in silico structure analysis is a valuable approach that allowed us (i) to provide a mechanistic explanation for the haploinsufficiency resulting from missense variations and (ii) to unveil a region within the OTU domain critical for A20 function.
Keyphrases
- intellectual disability
- flow cytometry
- induced apoptosis
- signaling pathway
- end stage renal disease
- molecular docking
- early onset
- ejection fraction
- escherichia coli
- chronic kidney disease
- immune response
- single cell
- high throughput
- small molecule
- amino acid
- biofilm formation
- gene expression
- copy number
- physical activity
- genome wide
- cell proliferation
- sleep quality
- newly diagnosed
- protein protein
- inflammatory response