Nuclear factor-kappa B (NF-κB) signaling is a central pathway regulating a plethora of cellular functions. Here, we find that RNF32, a RING E3 ubiquitin ligase whose expression is enriched in murine intestinal stem cells, regulates the activity of the IkB kinase (IKK) complex, the signal integration hub for NF-κB activation. The E3 ligase activity of RNF32 depends on Calmodulin, the primary calcium sensor in eukaryotic cells. Increased levels of intracellular calcium ion (Ca2+) induce RNF32 binding to Calmodulin, RNF32 activation, and autoubiquitylation. In turn, polyubiquitin chains conjugated to RNF32 recruit NEMO, the regulatory subunit of the IKK complex. Moreover, Ca2+ rise triggers RNF32 phase separation, which is required for the formation of NEMO condensates and IKK activation. Finally, we show that RNF32 is required for NF-κB activation triggered by bacterial lipopolysaccharides. Collectively, our findings uncover a mechanism controlling NF-κB signaling in the intestinal epithelium.
The E3 ligase RNF32 controls the IκB kinase complex and NF-κB signaling in intestinal stem cells
Angela Lauriola;Mohsen Hajisadeghian;Andrea Vettori;Nicola Vitulo;Michael Assfalg;Mariapina D'Onofrio;Alessandra Astegno;Daniele Guardavaccaro
2025-01-01
Abstract
Nuclear factor-kappa B (NF-κB) signaling is a central pathway regulating a plethora of cellular functions. Here, we find that RNF32, a RING E3 ubiquitin ligase whose expression is enriched in murine intestinal stem cells, regulates the activity of the IkB kinase (IKK) complex, the signal integration hub for NF-κB activation. The E3 ligase activity of RNF32 depends on Calmodulin, the primary calcium sensor in eukaryotic cells. Increased levels of intracellular calcium ion (Ca2+) induce RNF32 binding to Calmodulin, RNF32 activation, and autoubiquitylation. In turn, polyubiquitin chains conjugated to RNF32 recruit NEMO, the regulatory subunit of the IKK complex. Moreover, Ca2+ rise triggers RNF32 phase separation, which is required for the formation of NEMO condensates and IKK activation. Finally, we show that RNF32 is required for NF-κB activation triggered by bacterial lipopolysaccharides. Collectively, our findings uncover a mechanism controlling NF-κB signaling in the intestinal epithelium.
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