TY - JOUR
T1 - FUBP1 is a general splicing factor facilitating 3′ splice site recognition and splicing of long introns
AU - Ebersberger, Stefanie
AU - Hipp, Clara
AU - Mulorz, Miriam M.
AU - Buchbender, Andreas
AU - Hubrich, Dalmira
AU - Kang, Hyun Seo
AU - Martínez-Lumbreras, Santiago
AU - Kristofori, Panajot
AU - Sutandy, F. X.Reymond
AU - Llacsahuanga Allcca, Lidia
AU - Schönfeld, Jonas
AU - Bakisoglu, Cem
AU - Busch, Anke
AU - Hänel, Heike
AU - Tretow, Kerstin
AU - Welzel, Mareen
AU - Di Liddo, Antonella
AU - Möckel, Martin M.
AU - Zarnack, Kathi
AU - Ebersberger, Ingo
AU - Legewie, Stefan
AU - Luck, Katja
AU - Sattler, Michael
AU - König, Julian
N1 - Publisher Copyright:
© 2023 The Author(s)
PY - 2023/8/3
Y1 - 2023/8/3
N2 - Splicing of pre-mRNAs critically contributes to gene regulation and proteome expansion in eukaryotes, but our understanding of the recognition and pairing of splice sites during spliceosome assembly lacks detail. Here, we identify the multidomain RNA-binding protein FUBP1 as a key splicing factor that binds to a hitherto unknown cis-regulatory motif. By collecting NMR, structural, and in vivo interaction data, we demonstrate that FUBP1 stabilizes U2AF2 and SF1, key components at the 3′ splice site, through multivalent binding interfaces located within its disordered regions. Transcriptional profiling and kinetic modeling reveal that FUBP1 is required for efficient splicing of long introns, which is impaired in cancer patients harboring FUBP1 mutations. Notably, FUBP1 interacts with numerous U1 snRNP-associated proteins, suggesting a unique role for FUBP1 in splice site bridging for long introns. We propose a compelling model for 3′ splice site recognition of long introns, which represent 80% of all human introns.
AB - Splicing of pre-mRNAs critically contributes to gene regulation and proteome expansion in eukaryotes, but our understanding of the recognition and pairing of splice sites during spliceosome assembly lacks detail. Here, we identify the multidomain RNA-binding protein FUBP1 as a key splicing factor that binds to a hitherto unknown cis-regulatory motif. By collecting NMR, structural, and in vivo interaction data, we demonstrate that FUBP1 stabilizes U2AF2 and SF1, key components at the 3′ splice site, through multivalent binding interfaces located within its disordered regions. Transcriptional profiling and kinetic modeling reveal that FUBP1 is required for efficient splicing of long introns, which is impaired in cancer patients harboring FUBP1 mutations. Notably, FUBP1 interacts with numerous U1 snRNP-associated proteins, suggesting a unique role for FUBP1 in splice site bridging for long introns. We propose a compelling model for 3′ splice site recognition of long introns, which represent 80% of all human introns.
KW - NMR spectroscopy
KW - cancer mutations
KW - exon/intron definition
KW - iCLIP
KW - intrinsically disordered regions
KW - intron bridging
KW - multivalent interactions
KW - protein-RNA interactions
KW - splice site recognition
KW - splicing
UR - http://www.scopus.com/inward/record.url?scp=85166539523&partnerID=8YFLogxK
U2 - 10.1016/j.molcel.2023.07.002
DO - 10.1016/j.molcel.2023.07.002
M3 - Article
C2 - 37506698
AN - SCOPUS:85166539523
SN - 1097-2765
VL - 83
SP - 2653-2672.e15
JO - Molecular Cell
JF - Molecular Cell
IS - 15
ER -