posted on 2024-09-12, 10:19authored byPaul A O'sullivan, Aigerim Aidarova, Inna S Afonina, Joan Manils, Teresa LM Thurston, Rachel Instrell, Michael Howell, Stefan Boeing, Sashini Ranawana, Melanie Herpels, Riwia Chetien, Matilda Bassa, Helen Flynn, David Frith, Ambrosius P Snijders, Ashleigh Howes, Rudi Beyaert, Anne M Bowcock, Steven C Ley
Rare mutations in CARD14 promote psoriasis by inducing CARD14-BCL10-MALT1 complexes that activate NF-kB and MAP kinases. Here, the downstream signalling mechanism of the highly penetrant CARD14E138Aalteration is described. In addition to BCL10 and MALT1, CARD14E138A associated with several proteins important in innate immune signalling. Interactions with M1-specific ubiquitin E3 ligase HOIP, and K63-specific ubiquitin E3 ligase TRAF6 promoted BCL10 ubiquitination and were essential for NF-kB and MAP kinase activation. In contrast, the ubiquitin binding proteins A20 and ABIN1, both genetically associated with psoriasis development, negatively regulated signalling by inducing CARD14E138A turnover. CARD14E138A localized to early endosomes and was associated with the AP2 adaptor complex. AP2 function was required for CARD14E138A activation of mTOR complex 1, which stimulated keratinocyte metabolism, but not for NF-kB nor MAP kinase activation. Furthermore, rapamycin ameliorated CARD14E138A-induced keratinocyte proliferation and epidermal acanthosis in mice, suggesting that blocking mTORC1 may be therapeutically beneficial in CARD14-dependent psoriasis.
Funding
Crick (Grant ID: 10103, Grant title: Ley FC001103)
Crick (Grant ID: CC1107, Grant title: STP Bioinformatics & Biostatistics)
Crick (Grant ID: CC1071, Grant title: STP High Throughput Screening)
Crick (Grant ID: CC1063, Grant title: STP Proteomics)