| dc.description.abstract |
<p>The type III TGF-β receptor (TβRIII) is a TGF-β co-receptor that presents ligand
to the type II TGF-β receptor to initiate signaling. TβRIII also undergoes ectodomain
shedding to release a soluble form (sTβRIII) that can bind ligand, sequestering it
away from cell surface receptors. We have previously identified a TβRIII extracellular
mutant that has enhanced ectodomain shedding (“super shedding (SS)” – TβRIII-SS).
Here we utilize TβRIII-SS to study the balance of cell surface and soluble TβRIII
in the context of lung cancer. We demonstrate that expressing TβRIII-SS in lung cancer
cell models induces epithelial-mesenchymal transition (EMT) and that these TβRIII-SS
(EMT) cells are less migratory, invasive and adhesive and more resistance to gemcitabine.
Moreover, TβRIII-SS (EMT) cells exhibit decreased tumorigenicity but increased tumor
growth in vitro and in vivo. These studies suggest that the balance of cell surface
and soluble TβRIII may regulate a dichotomous role for TβRIII during cancer progression.</p><p>We
have also demonstrated that cathepsin G and neutrophil elastase, proteases stored
in the azurophil granules of neutrophils, can induce cleavage of cell surface TβRIII
though no functional sTβRIII was detected. Similarly, activated neutrophils could
induce TβRIII shedding on cancer cells. Interestingly, neutrophils generate sTβRIII
that is resistant to shedding. These studies suggest that neutrophils may modulate
the balance of cell surface and soluble TβRIII in the tumor microenvironment.</p>
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