Modulation of Fgf Pathway Signaling and Vascular Differentiation Using Designed Oligomeric Assemblies

Modulation of Fgf Pathway Signaling and Vascular Differentiation Using Designed Oligomeric Assemblies Publisher Pubmed

Edman NI^{1, 2, 3, 4} ; Phal A^{5, 6} ; Redler RL⁷ ; Schlichthaerle T^{1, 2} ; Srivatsan SR^{2, 4, 8} ; Ehnes DD^{1, 5} ; Etemadi A^{1, 2, 9} ; An SJ¹⁰ ; Favor A^{1, 2} ; Li Z^{1, 2} ; Praetorius F^{1, 2} ; Gordon M^{1, 5} ; Vincent T^{5, 6, 11} ; Marchiano S⁵ Show All Authors

Edman NI^{1, 2, 3, 4}
Phal A^{5, 6}
Redler RL⁷
Schlichthaerle T^{1, 2}
Srivatsan SR^{2, 4, 8}
Ehnes DD^{1, 5}
Etemadi A^{1, 2, 9}
An SJ¹⁰
Favor A^{1, 2}
Li Z^{1, 2}
Praetorius F^{1, 2}
Gordon M^{1, 5}
Vincent T^{5, 6, 11}
Marchiano S⁵
Blakely L⁵
Lin C⁸
Yang W^{1, 2}
Coventry B^{1, 2}
Hicks DR^{1, 2}
Cao L^{1, 2}
Bethel N^{1, 2, 12}
Heine P^{1, 2}
Murray A^{1, 2}
Gerben S^{1, 2}
Carter L^{1, 2}
Miranda M^{1, 2}
Negahdari B⁹
Lee S¹⁰
Trapnell C^{8, 13, 14}
Zheng Y^{5, 6, 15}
Murry CE^{5, 6, 15, 16, 17}
Schweppe DK⁸
Freedman BS^{5, 6, 11, 13, 16, 18}
Stewart L^{1, 2}
Ekiert DC^{7, 19}
Schlessinger J¹⁰
Shendure J^{8, 12, 13, 14}
Bhabha G⁷
Ruoholabaker H^{1, 5, 6, 8}
Baker D^{1, 2, 12}

Source: Cell Published:2024

Abstract

Many growth factors and cytokines signal by binding to the extracellular domains of their receptors and driving association and transphosphorylation of the receptor intracellular tyrosine kinase domains, initiating downstream signaling cascades. To enable systematic exploration of how receptor valency and geometry affect signaling outcomes, we designed cyclic homo-oligomers with up to 8 subunits using repeat protein building blocks that can be modularly extended. By incorporating a de novo-designed fibroblast growth factor receptor (FGFR)-binding module into these scaffolds, we generated a series of synthetic signaling ligands that exhibit potent valency- and geometry-dependent Ca2+ release and mitogen-activated protein kinase (MAPK) pathway activation. The high specificity of the designed agonists reveals distinct roles for two FGFR splice variants in driving arterial endothelium and perivascular cell fates during early vascular development. Our designed modular assemblies should be broadly useful for unraveling the complexities of signaling in key developmental transitions and for developing future therapeutic applications. © 2024 The Author(s)

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Babak Negahdari (2)

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Style	Citing Format
MLA	Edman NI, et al.. "Modulation of Fgf Pathway Signaling and Vascular Differentiation Using Designed Oligomeric Assemblies." Cell, vol. 187, no. 14, 2024, pp. 3726-3740.e43.
APA	Edman NI, Phal A, Redler RL, Schlichthaerle T, Srivatsan SR, Ehnes DD, Etemadi A, An SJ, Favor A, Li Z, Praetorius F, Gordon M, Vincent T, Marchiano S, Blakely L, Lin C, Yang W, Coventry B, Hicks DR, ... Baker D (2024). Modulation of Fgf Pathway Signaling and Vascular Differentiation Using Designed Oligomeric Assemblies. Cell, 187(14), 3726-3740.e43.
Chicago	Edman NI, Phal A, Redler RL, Schlichthaerle T, Srivatsan SR, Ehnes DD, Etemadi A, et al.. "Modulation of Fgf Pathway Signaling and Vascular Differentiation Using Designed Oligomeric Assemblies." Cell 187, no. 14 (2024): 3726-3740.e43.
Harvard	Edman NI et al. (2024) 'Modulation of Fgf Pathway Signaling and Vascular Differentiation Using Designed Oligomeric Assemblies', Cell, 187(14), pp. 3726-3740.e43.
Vancouver	Edman NI, Phal A, Redler RL, Schlichthaerle T, Srivatsan SR, Ehnes DD, et al.. Modulation of Fgf Pathway Signaling and Vascular Differentiation Using Designed Oligomeric Assemblies. Cell. 2024;187(14):3726-3740.e43.
BibTex	@article{ author = {Edman NI and Phal A and Redler RL and Schlichthaerle T and Srivatsan SR and Ehnes DD and Etemadi A and An SJ and Favor A and Li Z and Praetorius F and Gordon M and Vincent T and Marchiano S and Blakely L and Lin C and Yang W and Coventry B and Hicks DR and Cao L and Bethel N and Heine P and Murray A and Gerben S and Carter L and Miranda M and Negahdari B and Lee S and Trapnell C and Zheng Y and Murry CE and Schweppe DK and Freedman BS and Stewart L and Ekiert DC and Schlessinger J and Shendure J and Bhabha G and Ruoholabaker H and Baker D}, title = {Modulation of Fgf Pathway Signaling and Vascular Differentiation Using Designed Oligomeric Assemblies}, journal = {Cell}, volume = {187}, number = {14}, pages = {3726-3740.e43}, year = {2024} }
RIS	TY - JOUR AU - Edman NI AU - Phal A AU - Redler RL AU - Schlichthaerle T AU - Srivatsan SR AU - Ehnes DD AU - Etemadi A AU - An SJ AU - Favor A AU - Li Z AU - Praetorius F AU - Gordon M AU - Vincent T AU - Marchiano S AU - Blakely L AU - Lin C AU - Yang W AU - Coventry B AU - Hicks DR AU - Cao L AU - Bethel N AU - Heine P AU - Murray A AU - Gerben S AU - Carter L AU - Miranda M AU - Negahdari B AU - Lee S AU - Trapnell C AU - Zheng Y AU - Murry CE AU - Schweppe DK AU - Freedman BS AU - Stewart L AU - Ekiert DC AU - Schlessinger J AU - Shendure J AU - Bhabha G AU - Ruoholabaker H AU - Baker D TI - Modulation of Fgf Pathway Signaling and Vascular Differentiation Using Designed Oligomeric Assemblies JO - Cell VL - 187 IS - 14 SP - 3726 EP - 3740.e43 PY - 2024 ER -

Style

Citing Format

MLA

Edman NI, et al.. "Modulation of Fgf Pathway Signaling and Vascular Differentiation Using Designed Oligomeric Assemblies." Cell, vol. 187, no. 14, 2024, pp. 3726-3740.e43.

APA

Edman NI, Phal A, Redler RL, Schlichthaerle T, Srivatsan SR, Ehnes DD, Etemadi A, An SJ, Favor A, Li Z, Praetorius F, Gordon M, Vincent T, Marchiano S, Blakely L, Lin C, Yang W, Coventry B, Hicks DR, ... Baker D (2024). Modulation of Fgf Pathway Signaling and Vascular Differentiation Using Designed Oligomeric Assemblies. Cell, 187(14), 3726-3740.e43.

Chicago

Edman NI, Phal A, Redler RL, Schlichthaerle T, Srivatsan SR, Ehnes DD, Etemadi A, et al.. "Modulation of Fgf Pathway Signaling and Vascular Differentiation Using Designed Oligomeric Assemblies." Cell 187, no. 14 (2024): 3726-3740.e43.

Harvard

Edman NI et al. (2024) 'Modulation of Fgf Pathway Signaling and Vascular Differentiation Using Designed Oligomeric Assemblies', Cell, 187(14), pp. 3726-3740.e43.

Vancouver

Edman NI, Phal A, Redler RL, Schlichthaerle T, Srivatsan SR, Ehnes DD, et al.. Modulation of Fgf Pathway Signaling and Vascular Differentiation Using Designed Oligomeric Assemblies. Cell. 2024;187(14):3726-3740.e43.

BibTex

@article{ author = {Edman NI and Phal A and Redler RL and Schlichthaerle T and Srivatsan SR and Ehnes DD and Etemadi A and An SJ and Favor A and Li Z and Praetorius F and Gordon M and Vincent T and Marchiano S and Blakely L and Lin C and Yang W and Coventry B and Hicks DR and Cao L and Bethel N and Heine P and Murray A and Gerben S and Carter L and Miranda M and Negahdari B and Lee S and Trapnell C and Zheng Y and Murry CE and Schweppe DK and Freedman BS and Stewart L and Ekiert DC and Schlessinger J and Shendure J and Bhabha G and Ruoholabaker H and Baker D}, title = {Modulation of Fgf Pathway Signaling and Vascular Differentiation Using Designed Oligomeric Assemblies}, journal = {Cell}, volume = {187}, number = {14}, pages = {3726-3740.e43}, year = {2024} }

RIS

TY - JOUR
AU - Edman NI
AU - Phal A
AU - Redler RL
AU - Schlichthaerle T
AU - Srivatsan SR
AU - Ehnes DD
AU - Etemadi A
AU - An SJ
AU - Favor A
AU - Li Z
AU - Praetorius F
AU - Gordon M
AU - Vincent T
AU - Marchiano S
AU - Blakely L
AU - Lin C
AU - Yang W
AU - Coventry B
AU - Hicks DR
AU - Cao L
AU - Bethel N
AU - Heine P
AU - Murray A
AU - Gerben S
AU - Carter L
AU - Miranda M
AU - Negahdari B
AU - Lee S
AU - Trapnell C
AU - Zheng Y
AU - Murry CE
AU - Schweppe DK
AU - Freedman BS
AU - Stewart L
AU - Ekiert DC
AU - Schlessinger J
AU - Shendure J
AU - Bhabha G
AU - Ruoholabaker H
AU - Baker D
TI - Modulation of Fgf Pathway Signaling and Vascular Differentiation Using Designed Oligomeric Assemblies
JO - Cell
VL - 187
IS - 14
SP - 3726
EP - 3740.e43
PY - 2024
ER -

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Authors

Abstract