Structural basis for the recognition of spliceosomal SmN/B/B'proteins by the RBM5 OCRE domain in splicing regulation

A Mourão, S Bonnal, K Soni, L Warner, R Bordonné… - Elife, 2016 - elifesciences.org
A Mourão, S Bonnal, K Soni, L Warner, R Bordonné, J Valcarcel, M Sattler
Elife, 2016elifesciences.org
The multi-domain splicing factor RBM5 regulates the balance between antagonistic isoforms
of the apoptosis-control genes FAS/CD95, Caspase-2 and AID. An OCRE (OCtamer REpeat
of aromatic residues) domain found in RBM5 is important for alternative splicing regulation
and mediates interactions with components of the U4/U6. U5 tri-snRNP. We show that the
RBM5 OCRE domain adopts a unique β–sheet fold. NMR and biochemical experiments
demonstrate that the OCRE domain directly binds to the proline-rich C-terminal tail of the …
The multi-domain splicing factor RBM5 regulates the balance between antagonistic isoforms of the apoptosis-control genes FAS/CD95, Caspase-2 and AID. An OCRE (OCtamer REpeat of aromatic residues) domain found in RBM5 is important for alternative splicing regulation and mediates interactions with components of the U4/U6.U5 tri-snRNP. We show that the RBM5 OCRE domain adopts a unique β–sheet fold. NMR and biochemical experiments demonstrate that the OCRE domain directly binds to the proline-rich C-terminal tail of the essential snRNP core proteins SmN/B/B’. The NMR structure of an OCRE-SmN peptide complex reveals a specific recognition of poly-proline helical motifs in SmN/B/B’. Mutation of conserved aromatic residues impairs binding to the Sm proteins in vitro and compromises RBM5-mediated alternative splicing regulation of FAS/CD95. Thus, RBM5 OCRE represents a poly-proline recognition domain that mediates critical interactions with the C-terminal tail of the spliceosomal SmN/B/B’ proteins in FAS/CD95 alternative splicing regulation.
eLife
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