FGF1 Fusions with the Fc Fragment of IgG1 for the Assembly of GFPpolygons-Mediated Multivalent Complexes Recognizing FGFRs
FGFRs are cell surface receptors that, when activated by specific FGFs ligands, transmit signals through the plasma membrane, regulating key cellular processes such as differentiation, division, motility, metabolism and death. We have recently shown that the modulation of the spatial distribution of...
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MDPI AG
2021-07-01
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| Series: | Biomolecules |
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| Online Access: | https://www.mdpi.com/2218-273X/11/8/1088 |
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doaj-e24828ebb36049e88ad5cdbeb56eb2cd2021-08-26T13:33:30ZengMDPI AGBiomolecules2218-273X2021-07-01111088108810.3390/biom11081088FGF1 Fusions with the Fc Fragment of IgG1 for the Assembly of GFPpolygons-Mediated Multivalent Complexes Recognizing FGFRsMarta Poźniak0Weronika Zarzycka1Natalia Porębska2Agata Knapik3Paulina Marczakiewicz-Perera4Malgorzata Zakrzewska5Jacek Otlewski6Łukasz Opaliński7Department of Protein Engineering, Faculty of Biotechnology, University of Wrocław, 50-387 Wrocław, PolandDepartment of Protein Engineering, Faculty of Biotechnology, University of Wrocław, 50-387 Wrocław, PolandDepartment of Protein Engineering, Faculty of Biotechnology, University of Wrocław, 50-387 Wrocław, PolandDepartment of Protein Engineering, Faculty of Biotechnology, University of Wrocław, 50-387 Wrocław, PolandDepartment of Protein Engineering, Faculty of Biotechnology, University of Wrocław, 50-387 Wrocław, PolandDepartment of Protein Engineering, Faculty of Biotechnology, University of Wrocław, 50-387 Wrocław, PolandDepartment of Protein Engineering, Faculty of Biotechnology, University of Wrocław, 50-387 Wrocław, PolandDepartment of Protein Engineering, Faculty of Biotechnology, University of Wrocław, 50-387 Wrocław, PolandFGFRs are cell surface receptors that, when activated by specific FGFs ligands, transmit signals through the plasma membrane, regulating key cellular processes such as differentiation, division, motility, metabolism and death. We have recently shown that the modulation of the spatial distribution of FGFR1 at the cell surface constitutes an additional mechanism for fine-tuning cellular signaling. Depending on the multivalent, engineered ligand used, the clustering of FGFR1 into diverse supramolecular complexes enhances the efficiency and modifies the mechanism of receptor endocytosis, alters FGFR1 lifetime and modifies receptor signaling, ultimately determining cell fate. Here, we present a novel approach to generate multivalent FGFR1 ligands. We functionalized FGF1 for controlled oligomerization by developing N- and C-terminal fusions of FGF1 with the Fc fragment of human IgG1 (FGF1-Fc and Fc-FGF1). As oligomerization scaffolds, we employed GFPpolygons, engineered GFP variants capable of well-ordered multivalent display, fused to protein G to ensure binding of Fc fragment. The presented strategy allows efficient assembly of oligomeric FGFR1 ligands with up to twelve receptor binding sites. We show that multivalent FGFR1 ligands are biologically active and trigger receptor clustering on the cell surface. Importantly, the approach described in this study can be easily adapted to oligomerize alternative growth factors to control the activity of other cell surface receptors.https://www.mdpi.com/2218-273X/11/8/1088FGF1FGFRspatial distributionendocytosissignaling |
| collection |
DOAJ |
| language |
English |
| format |
Article |
| sources |
DOAJ |
| author |
Marta Poźniak Weronika Zarzycka Natalia Porębska Agata Knapik Paulina Marczakiewicz-Perera Malgorzata Zakrzewska Jacek Otlewski Łukasz Opaliński |
| spellingShingle |
Marta Poźniak Weronika Zarzycka Natalia Porębska Agata Knapik Paulina Marczakiewicz-Perera Malgorzata Zakrzewska Jacek Otlewski Łukasz Opaliński FGF1 Fusions with the Fc Fragment of IgG1 for the Assembly of GFPpolygons-Mediated Multivalent Complexes Recognizing FGFRs Biomolecules FGF1 FGFR spatial distribution endocytosis signaling |
| author_facet |
Marta Poźniak Weronika Zarzycka Natalia Porębska Agata Knapik Paulina Marczakiewicz-Perera Malgorzata Zakrzewska Jacek Otlewski Łukasz Opaliński |
| author_sort |
Marta Poźniak |
| title |
FGF1 Fusions with the Fc Fragment of IgG1 for the Assembly of GFPpolygons-Mediated Multivalent Complexes Recognizing FGFRs |
| title_short |
FGF1 Fusions with the Fc Fragment of IgG1 for the Assembly of GFPpolygons-Mediated Multivalent Complexes Recognizing FGFRs |
| title_full |
FGF1 Fusions with the Fc Fragment of IgG1 for the Assembly of GFPpolygons-Mediated Multivalent Complexes Recognizing FGFRs |
| title_fullStr |
FGF1 Fusions with the Fc Fragment of IgG1 for the Assembly of GFPpolygons-Mediated Multivalent Complexes Recognizing FGFRs |
| title_full_unstemmed |
FGF1 Fusions with the Fc Fragment of IgG1 for the Assembly of GFPpolygons-Mediated Multivalent Complexes Recognizing FGFRs |
| title_sort |
fgf1 fusions with the fc fragment of igg1 for the assembly of gfppolygons-mediated multivalent complexes recognizing fgfrs |
| publisher |
MDPI AG |
| series |
Biomolecules |
| issn |
2218-273X |
| publishDate |
2021-07-01 |
| description |
FGFRs are cell surface receptors that, when activated by specific FGFs ligands, transmit signals through the plasma membrane, regulating key cellular processes such as differentiation, division, motility, metabolism and death. We have recently shown that the modulation of the spatial distribution of FGFR1 at the cell surface constitutes an additional mechanism for fine-tuning cellular signaling. Depending on the multivalent, engineered ligand used, the clustering of FGFR1 into diverse supramolecular complexes enhances the efficiency and modifies the mechanism of receptor endocytosis, alters FGFR1 lifetime and modifies receptor signaling, ultimately determining cell fate. Here, we present a novel approach to generate multivalent FGFR1 ligands. We functionalized FGF1 for controlled oligomerization by developing N- and C-terminal fusions of FGF1 with the Fc fragment of human IgG1 (FGF1-Fc and Fc-FGF1). As oligomerization scaffolds, we employed GFPpolygons, engineered GFP variants capable of well-ordered multivalent display, fused to protein G to ensure binding of Fc fragment. The presented strategy allows efficient assembly of oligomeric FGFR1 ligands with up to twelve receptor binding sites. We show that multivalent FGFR1 ligands are biologically active and trigger receptor clustering on the cell surface. Importantly, the approach described in this study can be easily adapted to oligomerize alternative growth factors to control the activity of other cell surface receptors. |
| topic |
FGF1 FGFR spatial distribution endocytosis signaling |
| url |
https://www.mdpi.com/2218-273X/11/8/1088 |
| work_keys_str_mv |
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