Abstract
Viperin (RSAD2) is an interferon-stimulated antiviral protein that belongs to the radical S-adenosylmethionine (SAM) enzyme family. Viperin's iron-sulfur (Fe/S) cluster is critical for its antiviral activity against many different viruses. CIA1 (CIAO1), an essential component of the cytosolic iron-sulfur protein assembly (CIA) machinery, is crucial for Fe/S cluster insertion into viperin and hence for viperin's antiviral activity. In the CIA pathway, CIA1 cooperates with CIA2A, CIA2B, and MMS19 targeting factors to form various complexes that mediate the dedicated maturation of specific Fe/S recipient proteins. To date, however, the mechanisms of how viperin acquires its radical SAM Fe/S cluster to gain antiviral activity are poorly understood. Using co-immunoprecipitation and 55Fe-radiolabeling experiments, we therefore studied the roles of CIA2A, CIA2B, and MMS19 for Fe/S cluster insertion. CIA2B and MMS19 physically interacted with the C terminus of viperin and used CIA1 as the primary viperin-interacting protein. In contrast, CIA2A bound to viperin's N terminus in a CIA1-, CIA2B-, and MMS19-independent fashion. Of note, the observed interaction of both CIA2 isoforms with a single Fe/S target protein is unprecedented in the CIA pathway. 55Fe-radiolabeling experiments with human cells depleted of CIA1, CIA2A, CIA2B, or MMS19 revealed that CIA1, but none of the other CIA factors, is predominantly required for 55Fe/S cluster incorporation into viperin. Collectively, viperin maturation represents a novel CIA pathway with a minimal requirement of the CIA-targeting factors and represents a new paradigm for the insertion of the Fe/S cofactor into a radical SAM protein.
Highlights
Viperin (RSAD2) is an interferon-stimulated antiviral protein that belongs to the radical S-adenosylmethionine (SAM) enzyme family
The observed interaction of both CIA2 isoforms with a single family. Viperin’s iron–sulfur (Fe/S) target protein is unprecedented in the cytosolic iron–sulfur protein assembly (CIA) pathway. 55Fe-radiolabeling experiments with human cells depleted of CIA1, CIA2A, CIA2B, or MMS19 revealed that CIA1, but none of the other CIA factors, is predominantly required for 55Fe/S cluster incorporation into viperin
Because this radical SAM Fe/S cluster has been found to be essential for the antiviral function of viperin, detailed knowledge about its maturation mechanism is crucial for understanding the physiological basis of viperin activation
Summary
Viperin (RSAD2) is an interferon-stimulated antiviral protein that belongs to the radical S-adenosylmethionine (SAM) enzyme family. CIA1 (CIAO1), an essential component of the cytosolic iron–sulfur protein assembly (CIA) machinery, is crucial for Fe/S cluster insertion into viperin and for viperin’s antiviral activity. Viperin maturation represents a novel CIA pathway with a minimal requirement of the CIA-targeting factors and represents a new paradigm for the insertion of the Fe/S cofactor into a radical SAM protein. The C-terminal domain (residues 218 –361) has been shown to mediate protein–protein interactions, e.g. with the HCV proviral factor hVAP-33 [20] and with CIA1 ( known as CIAO1), a component of the cytosolic iron–sulfur protein assembly (CIA) machinery [6]. The central domain (residues 71–182) is homologous to the MoaA subfamily of radical SAM enzymes [11] It contains a conserved cysteine-rich motif (CXXXCXXC) responsible for binding a [4Fe-4S] cluster that uses SAM as the. Despite the central importance of the radical SAM domain for viperin function, little is known about the maturation of its Fe/S cluster and about the assembly of SAM-coordinated [4Fe-4S] clusters in general [6]
Sign-in/Register to view highlights & summary Sign-in/Register to access full text options 
Free) 
Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Schedule a call
