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Conformational alteration in glycan induces phospholipase Cβ1 activation and angiogenesis
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Conformational alteration in glycan induces phospholipase Cβ1 activation and angiogenesis
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Journal Article
Conformational alteration in glycan induces phospholipase Cβ1 activation and angiogenesis
2022
Overview
Background
In endothelial cells, phospholipase C (PLC) β1-activated Ca
2+
is a crucial second messenger for the signaling pathways governing angiogenesis. PLCβ1 is inactivated by complexing with an intracellular protein called translin-associated factor X (TRAX). This study demonstrates specific interactions between Globo H ceramide (GHCer) and TRAX, which highlight a new angiogenic control through PLCβ1 activation.
Methods
Globo-series glycosphingolipids (GSLs), including GHCer and stage-specific embryonic antigen-3 ceramide (SSEA3Cer), were analyzed using enzyme-linked immunosorbent assay (ELISA) and Biacore for their binding with TRAX. Angiogenic activities of GSLs in human umbilical vein endothelial cells (HUVECs) were evaluated. Molecular dynamics (MD) simulation was used to study conformations of GSLs and their molecular interactions with TRAX. Fluorescence resonance energy transfer (FRET) analysis of HUVECs by confocal microscopy was used to validate the release of PLCβ1 from TRAX. Furthermore, the in vivo angiogenic activity of extracellular vesicles (EVs) containing GHCer was confirmed using subcutaneous Matrigel plug assay in mice.
Results
The results of ELISA and Biacore analysis showed a stable complex between recombinant TRAX and synthetic GHCer with K
d
of 40.9 nM. In contrast, SSEA3Cer lacking a fucose residue of GHCer at the terminal showed ~ 1000-fold decrease in the binding affinity. These results were consistent with their angiogenic activities in HUVECs. The MD simulation indicated that TRAX interacted with the glycan moiety of GHCer at amino acid Q223, Q219, L142, S141, and E216. At equilibrium the stable complex maintained 4.6 ± 1.3 H-bonds. TRAX containing double mutations with Q223A and Q219A lost its ability to interact with GHCer in both MD simulation and Biacore assays. Removal of the terminal fucose from GHCer to become SSEA3Cer resulted in decreased H-bonding to 1.2 ± 1.0 by the MD simulation. Such specific H-bonding was due to the conformational alteration in the whole glycan which was affected by the presence or absence of the fucose moiety. In addition, ELISA, Biacore, and in-cell FRET assays confirmed the competition between GHCer and PLCβ1 for binding to TRAX. Furthermore, the Matrigel plug assay showed robust vessel formation in the plug containing tumor-secreted EVs or synthetic GHCer, but not in the plug with SSEA3Cer. The FRET analysis also indicated the disruption of colocalization of TRAX and PLCβ1 in cells by GHCer derived from EVs.
Conclusions
Overall, the fucose residue in GHCer dictated the glycan conformation for its complexing with TRAX to release TRAX-sequestered PLCβ1, leading to Ca
2+
mobilization in endothelial cells and enhancing angiogenesis in tumor microenvironments.
Publisher
BioMed Central,Springer Nature B.V,BMC
Subject
/ Animals
/ Antigens
/ Assaying
/ Binding
/ Biomedical and Life Sciences
/ Ceramide
/ DNA-Binding Proteins - genetics
/ DNA-Binding Proteins - metabolism
/ Embryos
/ Enzyme-linked immunosorbent assay
/ Fluorescence resonance energy transfer
/ Fucose
/ Glycan
/ Glycerol
/ Human Umbilical Vein Endothelial Cells - metabolism
/ Humans
/ Kinases
/ Mice
/ Mutation
/ Phospholipase C beta - genetics
/ Phospholipase C beta - metabolism
/ Plasmids
/ Plugs
/ Proteins
/ Residues
/ Sodium
/ TRAX
/ Tumors
