ZNFX1, an immunoregulatory RNA helicase and E3 ubiquitin ligase, assembles into pleiomorphic polymers

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Abstract

ZNFX1 is an SF1-family RNA helicase essential for innate immunity. Patients with ZNFX1 mutations experience recurrent infections, yet the underlying mechanism remains unclear. We determined cryo-EM structures of ZNFX1 in apo and RNA-bound forms, revealing auto-inhibition of the helicase through a regulatory insertion occluding the RNA-binding groove. ZNFX1 also functions as a bi-catalytic E3 ubiquitin ligase, containing an RZ-finger homologous to RNF213 and a previously unidentified Miz-like domain that catalyze ubiquitylation independently or cooperatively, with activity enhanced by ubiquitin chains. Patient mutations demonstrate that the helicase, E3 ligase, and rigid zinc-finger stalk connecting them are required for function. ZNFX1 can assemble into structured, pleiomorphic polymers via multivalent protein-protein interactions, revealing a mechanism that may facilitate RNA sequestration in stress granules and antiviral activity. These findings establish ZNFX1 as a multifunctional enzyme in innate immunity that couples RNA sensing to ubiquitin signaling and assembles into higher-order structures for signal amplification.
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Abstract ZNFX1 is an SF1-family RNA helicase essential for innate immunity. Patients with ZNFX1 mutations experience recurrent infections, yet the underlying mechanism remains unclear. We determined cryo-EM structures of ZNFX1 in apo and RNA-bound forms, revealing auto-inhibition of the helicase through a regulatory insertion occluding the RNA-binding groove. ZNFX1 also functions as a bi-catalytic E3 ubiquitin ligase, containing an RZ-finger homologous to RNF213 and a previously unidentified Miz-like domain that catalyze ubiquitylation independently or cooperatively, with activity enhanced by ubiquitin chains. Patient mutations demonstrate that the helicase, E3 ligase, and rigid zinc-finger stalk connecting them are required for function. ZNFX1 can assemble into structured, pleiomorphic polymers via multivalent protein-protein interactions, revealing a mechanism that may facilitate RNA sequestration in stress granules and antiviral activity. These findings establish ZNFX1 as a multifunctional enzyme in innate immunity that couples RNA sensing to ubiquitin signaling and assembles into higher-order structures for signal amplification. Competing Interest Statement The authors have declared no competing interest.

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last seen: 2026-05-20T01:45:00.602351+00:00