I don't know how you can say that, Wnt works on Tyrosine Kinase and GSk-3 which communicate downstream to upregulate beta catenin adhesion and neutralise/limit phosphorylation of beta catenin, respectively. Its not a case that Wnt upregulates beta-catenin all by itself as if by magic but works via intermediaries. This information is not esoteric, it is plastered all of the internet.
I do not understand what you mean by this. If Tyrosine Kinase has an an EGFR site and ECGC blocks EGF from binding to those sites, and EGF - EGFR binding is necessary, at least in part, for beta catenin binding/adhesion then wouldn't BCGC negatviely affect beta catenin production if TK played any role in that production (which it does).
No you said how it didn't work, and also I already explained how EGCG worked in my post prior to this. But repetition never harmed anyone.
I feel as though we are just going back and forth here.
Fundamentally I believe TK plays an important role in Beta-Catenin binding as do other proteins. Further you speak as though EGF only affects certain TK but not others, which isn't the case. You also don't seem to appreciate the difference between Wnt Proteins and signalling, as TK as well as GSK-3 all play their part in Wnt signalling, making it impossible to say TK nor GSK isn't important for our purposes. Finally, on this matter it is because EGF affects TK and GSK-3, as well as others, that so far their hasn't been a single suggestion of an EGF inhibitor that doesn't affect Wnt signalling. GO FIGURE.
Nevertheless, as much as I enjoyed and learnt from this conversation, it clearly isn't going to be developed any futher. My reason for this discussion was to see if any practical information could be garnered from the theory and I believe there has been some. Has anyone considered upregulating Wnt signalling over an extended period of time. As in applying Lithium Chloride for a month prior to the wounding, during the wounding and then applying an EGFR inhibitor and lithium chloride 3 days prior to the wounding. My thinking is that the ability for beta-catenin to bind and the lack/limitation of it being phosphorylated would make the beta-catenin more potent in its ability to pair with Lef1. This should obviate the affect of the EGFR-inhibitor on Wnt signalling, or at least it should limit the effect. Also the mice that over expressed Wnt signalling, were they genetically engineered (i seem to remember it was) to do this or was it done through some sort of feed and were they overexpressing Wnt before wounding or only prior to wounding? Of course this is just a theory. I'll be trying this out on myself soon.
mbwu780]well if you are going to make sweeping statements and inferences about tyrsoine kinases when you really mean only one/a few then it helps to be specific. But your earlier idea seemed to rely on all tyrosine kinases being the same or as you later clarified all tyrosine kinases having a EGF receptor binding site.
