The chaperones RuvBL1 and RuvBL2 are members of the AAA+ ATPase family and participate in diverse cellular processes, including DNA repair, transcriptional regulation, and assembly of macromolecular complexes such as snoRNPs. The biogenesis of box H/ACA snoRNPs additionally requires the assembly factor SHQ1. These protein-RNA complexes are essential for ribosome biogenesis and telomerase stability and are linked to diseases such as dyskeratosis congenita and cancer. Despite detailed knowledge of mature complexes, their assembly mechanisms remain unclear. We characterize a trimeric interaction between SHQ1 and RuvBL1:RuvBL2, providing insight into early maturation of the protein-only precursor of box H/ACA snoRNPs. SHQ1 binds the flexible domain II of RuvBL1:RuvBL2, corresponding to the dodecamerization interface, suggesting disruption of this interface and promotion of hexamer formation. We further purified a complex containing RuvBL1:RuvBL2, SHQ1, and DKC1, the catalytic component of H/ACA snoRNPs and a client of SHQ1. This demonstrates that SHQ1 and DKC1 can simultaneously associate with RuvBL1:RuvBL2, potentially facilitating DKC1 release and subsequent snoRNA binding. Additionally, we identified a direct interaction between SHQ1 and RPAP3, a co-chaperone of RuvBL1:RuvBL2. Hence, RPAP3 may be responsible for recruiting SHQ1:DKC1 to RuvBL1:RuvBL2. Since SHQ1 shares a domain with PIH1D1, an integral member of the R2TP complex, our findings suggest that early H/ACA snoRNP maturation may involve the R2T instead of the previously proposed R2TP complex.
Busse, P., Paiva, A. C., Santo, P. E., Gizardin-Fredon, H., Cassona, C., Chargot, M.-E., Malta, C., Verheggen, C., Oksannen, H., Butcher, S. J., Cianferani, S., Manival, X., Bertrand, E., Plisson-Chastang, C., Sousa, P. M. F., Bandeiras, T. M.
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