Structural basis by which alternative splicing confers specificity in fibroblast growth factor receptors

Brian K. Yeh; Makoto Igarashi; Anna V. Eliseenkova; Alexander N. Plotnikov; Ifat Sher; Dina Ron; Stuart A. Aaronson; Moosa Mohammadi

doi:10.1073/pnas.0436500100

Structural basis by which alternative splicing confers specificity in fibroblast growth factor receptors

Brian K. Yeh, Makoto Igarashi, Anna V. Eliseenkova, Alexander N. Plotnikov, Ifat Sher, Dina Ron, Stuart A. Aaronson, Moosa Mohammadi^*

^*Corresponding author for this work

Research output: Contribution to journal › Article › peer-review

164 Scopus citations

Abstract

Binding specificity between fibroblast growth factors (FGFs) and their receptors (FGFRs) is essential for mammalian development and is regulated primarily by two alternatively spliced exons, IIIb ("b") and IIIc ("c"), that encode the second half of Ig-like domain 3 (D3) of FGFRs. FGF7 and FGF10 activate only the b isoform of FGFR2 (FGFR2b). Here, we report the crystal structure of the ligand-binding portion of FGFR2b bound to FGF10. Unique contacts between divergent regions in FGF10 and two b-specific loops in D3 reveal the structural basis by which alternative splicing provides FGF10-FGFR2b specificity. Structure-based mutagenesis of FGF10 confirms the importance of the observed contacts for FGF10 biological activity. Interestingly, FGF10 binding induces a previously unobserved rotation of receptor Ig domain 2 (D2) to introduce specific contacts with FGF10. Hence, both D2 and D3 of FGFR2b contribute to the exceptional specificity between FGF10 and FGFR2b. We propose that ligand-induced conformational change in FGFRs may also play an important role in determining specificity for other FGF-FGFR complexes.

Original language	English
Pages (from-to)	2266-2271
Number of pages	6
Journal	Proceedings of the National Academy of Sciences of the United States of America
Volume	100
Issue number	5
DOIs	https://doi.org/10.1073/pnas.0436500100
State	Published - 4 Mar 2003
Externally published	Yes

Funding

Funders	Funder number
National Cancer Institute	R01CA085214
National Institute of Dental and Craniofacial Research	R01DE013686

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title = "Structural basis by which alternative splicing confers specificity in fibroblast growth factor receptors",

abstract = "Binding specificity between fibroblast growth factors (FGFs) and their receptors (FGFRs) is essential for mammalian development and is regulated primarily by two alternatively spliced exons, IIIb ({"}b{"}) and IIIc ({"}c{"}), that encode the second half of Ig-like domain 3 (D3) of FGFRs. FGF7 and FGF10 activate only the b isoform of FGFR2 (FGFR2b). Here, we report the crystal structure of the ligand-binding portion of FGFR2b bound to FGF10. Unique contacts between divergent regions in FGF10 and two b-specific loops in D3 reveal the structural basis by which alternative splicing provides FGF10-FGFR2b specificity. Structure-based mutagenesis of FGF10 confirms the importance of the observed contacts for FGF10 biological activity. Interestingly, FGF10 binding induces a previously unobserved rotation of receptor Ig domain 2 (D2) to introduce specific contacts with FGF10. Hence, both D2 and D3 of FGFR2b contribute to the exceptional specificity between FGF10 and FGFR2b. We propose that ligand-induced conformational change in FGFRs may also play an important role in determining specificity for other FGF-FGFR complexes.",

author = "Yeh, {Brian K.} and Makoto Igarashi and Eliseenkova, {Anna V.} and Plotnikov, {Alexander N.} and Ifat Sher and Dina Ron and Aaronson, {Stuart A.} and Moosa Mohammadi",

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doi = "10.1073/pnas.0436500100",

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AU - Yeh, Brian K.

AU - Igarashi, Makoto

AU - Eliseenkova, Anna V.

AU - Plotnikov, Alexander N.

AU - Sher, Ifat

AU - Ron, Dina

AU - Aaronson, Stuart A.

AU - Mohammadi, Moosa

PY - 2003/3/4

Y1 - 2003/3/4

N2 - Binding specificity between fibroblast growth factors (FGFs) and their receptors (FGFRs) is essential for mammalian development and is regulated primarily by two alternatively spliced exons, IIIb ("b") and IIIc ("c"), that encode the second half of Ig-like domain 3 (D3) of FGFRs. FGF7 and FGF10 activate only the b isoform of FGFR2 (FGFR2b). Here, we report the crystal structure of the ligand-binding portion of FGFR2b bound to FGF10. Unique contacts between divergent regions in FGF10 and two b-specific loops in D3 reveal the structural basis by which alternative splicing provides FGF10-FGFR2b specificity. Structure-based mutagenesis of FGF10 confirms the importance of the observed contacts for FGF10 biological activity. Interestingly, FGF10 binding induces a previously unobserved rotation of receptor Ig domain 2 (D2) to introduce specific contacts with FGF10. Hence, both D2 and D3 of FGFR2b contribute to the exceptional specificity between FGF10 and FGFR2b. We propose that ligand-induced conformational change in FGFRs may also play an important role in determining specificity for other FGF-FGFR complexes.

AB - Binding specificity between fibroblast growth factors (FGFs) and their receptors (FGFRs) is essential for mammalian development and is regulated primarily by two alternatively spliced exons, IIIb ("b") and IIIc ("c"), that encode the second half of Ig-like domain 3 (D3) of FGFRs. FGF7 and FGF10 activate only the b isoform of FGFR2 (FGFR2b). Here, we report the crystal structure of the ligand-binding portion of FGFR2b bound to FGF10. Unique contacts between divergent regions in FGF10 and two b-specific loops in D3 reveal the structural basis by which alternative splicing provides FGF10-FGFR2b specificity. Structure-based mutagenesis of FGF10 confirms the importance of the observed contacts for FGF10 biological activity. Interestingly, FGF10 binding induces a previously unobserved rotation of receptor Ig domain 2 (D2) to introduce specific contacts with FGF10. Hence, both D2 and D3 of FGFR2b contribute to the exceptional specificity between FGF10 and FGFR2b. We propose that ligand-induced conformational change in FGFRs may also play an important role in determining specificity for other FGF-FGFR complexes.

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Structural basis by which alternative splicing confers specificity in fibroblast growth factor receptors

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