Sulfated glycans engage the Ang–Tie pathway to regulate vascular development
Abstract
The angiopoietin (Ang)–Tie pathway is essential for the proper maturation and remodeling of the vasculature. Despite its importance in disease, the mechanisms that control signal transduction through this pathway are poorly understood. Here, we demonstrate that heparan sulfate glycosaminoglycans (HS GAGs) regulate Ang–Tie signaling through direct interactions with both Ang ligands and Tie1 receptors. HS GAGs formed ternary complexes with Ang1 or Ang4 and Tie2 receptors, resulting in potentiation of endothelial survival signaling. In addition, HS GAGs served as ligands for the orphan receptor Tie1. The HS–Tie1 interaction promoted Tie1–Tie2 heterodimerization and enhanced Tie1 stability within the mature vasculature. Loss of HS–Tie1 binding using CRISPR–Cas9-mediated mutagenesis in vivo led to decreased Tie protein levels, pathway suppression and aberrant retinal vascularization. Together, these results reveal that sulfated glycans use dual mechanisms to regulate Ang–Tie signaling and are important for the development and maintenance of the vasculature.
Additional Information
© 2020 Springer Nature Limited. Received 15 August 2019; Accepted 20 August 2020; Published 05 October 2020. We thank S. Pease and staff of the Caltech Genetically Engineered Mouse Services Core for help with generating the Tie1-2A mouse line and J. Costanza and A. Gomez of the Caltech Office of Laboratory Animal Resources for mouse line care and maintenance. We also thank J. Vielmetter and the Caltech Protein Expression Center of the Beckman Institute for help with conducting the SPR experiments. This work was supported by the NIH (5R01GM093627 and 5R01GM127920 to L.C.H.-W.) and the National Science Foundation (CBET-1805022 to W.A.G., DGE-1144469 to M.E.G. and DGE-1745301 to A.W.S.). Data availability: Data generated or analyzed during this study are included in the article and related Supplementary Information or are available from the corresponding author on reasonable request. Publicly available data used in this study include the Tie2 crystal structure (PDB 2GY5), the Tie1 protein sequence (UniProt P35590), the Dec. 2011 murine genome assembly (GRCm38/mm10) and the CHOPCHOP gRNA design tool (https://chopchop.cbu.uib.no/). Source data are provided with this paper. Author Contributions: M.E.G. and L.C.H.-W. conceived the project. Unless otherwise noted, M.E.G. performed the experimental work. A.W.S. conducted some of the microarray, ELISA and cell imaging assays. G.M.M. aided in assay optimization for initial binding experiments and conducted all computational work under the guidance of W.A.G.III. All authors contributed to the design of the experimental and computational work and to data analysis, discussed the results and commented on the manuscript. M.E.G. and L.C.H.-W. wrote the manuscript. L.C.H.-W. supervised the project. The authors declare no competing interests.Attached Files
Accepted Version - nihms-1622377.pdf
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Additional details
- Alternative title
- Sulfated glycans engage the Ang/Tie pathway to regulate postnatal vascular development
- PMCID
- PMC8087285
- Eprint ID
- 104609
- DOI
- 10.1038/s41589-020-00657-7
- Resolver ID
- CaltechAUTHORS:20200728-132413236
- 5R01GM093627
- NIH
- 5R01GM127920
- NIH
- CBET-1805022
- NSF
- DGE-1144469
- NSF Graduate Research Fellowship
- DGE-1745301
- NSF Graduate Research Fellowship
- Created
-
2020-10-05Created from EPrint's datestamp field
- Updated
-
2023-07-18Created from EPrint's last_modified field
- Other Numbering System Name
- WAG
- Other Numbering System Identifier
- 1402