2020
DOI: 10.1038/s42003-020-01396-0
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Photosensitive tyrosine analogues unravel site-dependent phosphorylation in TrkA initiated MAPK/ERK signaling

Abstract: Tyrosine kinase A (TrkA) is a membrane receptor which, upon ligand binding, activates several pathways including MAPK/ERK signaling, implicated in a spectrum of human pathologies; thus, TrkA is an emerging therapeutic target in treatment of neuronal diseases and cancer. However, mechanistic insights into TrKA signaling are lacking due to lack of site-dependent phosphorylation control. Here we engineer two light-sensitive tyrosine analogues, namely p-azido-L-phenylalanine (AzF) and the caged-tyrosine (ONB), thr… Show more

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Cited by 13 publications
(11 citation statements)
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“…treatment, AzF typically generates a nitrogen radical, which may subsequently be reduced to an amine or form a covalent bond with an adjacent atom within a 3-4 Å distance. Unlike the previous results in the kinase domain region 14 , the Y785 site did not show an apparent photo-controllable activation level of p-ERK after the introduction of AzF. However, in the absence of NGF stimulation, there was no significant difference in p-ERK expression levels with or without light in two mutants (figure 3b).…”
Section: Results and Analysiscontrasting
confidence: 90%
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“…treatment, AzF typically generates a nitrogen radical, which may subsequently be reduced to an amine or form a covalent bond with an adjacent atom within a 3-4 Å distance. Unlike the previous results in the kinase domain region 14 , the Y785 site did not show an apparent photo-controllable activation level of p-ERK after the introduction of AzF. However, in the absence of NGF stimulation, there was no significant difference in p-ERK expression levels with or without light in two mutants (figure 3b).…”
Section: Results and Analysiscontrasting
confidence: 90%
“…To sum up, we supplemented light control results of the TrkA-Y785 site based on our previous research and further expanded the application of genetic code expansion technology in kinase receptors; Combined with the previous research results 14 , we propose that these five phosphorylation sites may have different contributions to the activation of the MAPK pathway, and site-dependent phosphorylation in TrkA may have polymorphic control over the signaling process. Through precise optical control [28][29][30][31][32] , the activity of kinase receptors can be regulated at a single phosphorylation site to achieve the effect of site-directed light-controlled phosphorylation.…”
Section: Discussionmentioning
confidence: 92%
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“…Techniques that rely on the genetic code expansion ( 33 ), which allows the site-specific incorporation of unnatural amino acids into proteins, can potentially enable smaller modifications of the protein. Recently, we have successfully demonstrated the feasibility of controlling TrkA activity using genetic code expansion technique ( 34 ). Another important alternative strategy to reengineering kinase activity is through chemical genetics.…”
Section: Resultsmentioning
confidence: 99%