Abstract
Transforming growth factor beta (TGFbeta) superfamily polypeptides regulate cell growth and differentiation by binding to single pass serine/threonine kinases referred to as TGFbeta type I and type II receptors. Signal propagation is dependent upon heteromeric (type I-type II) complex formation and transphosphorylation of the type I receptor by the type II receptor. While many of the phosphorylation events necessary for receptor signaling have recently been characterized, the role of TGFbeta receptor kinase activity in modulating receptor endocytosis has not been addressed. To that end, we have used chimeric receptors consisting of the extracellular domain of the granulocyte/macrophage colony-stimulating factor alpha and beta receptors spliced to the TGFbeta type I and type II transmembrane and cytoplasmic domains to address the specific role of type I and/or type II receptor kinase activity in TGFbeta receptor internalization, down-regulation, and signaling. To inactivate chimeric receptor kinase activity, point mutations in the ATP binding site were made at amino acids 232 and 277 in the type I and type II receptor, respectively. Either of these mutations abolished plasminogen activator inhibitor 1 protein expression stimulated by granulocyte/macrophage colony-stimulating factor activation of chimeric heteromeric type I-type II TGFbeta receptors. They did not, however, modulate TGFbeta signaling stimulated through the endogenous TGFbeta receptor. Although TGFbeta receptor signaling was dependent upon the kinase activity of both chimeric receptors, the initial endocytic response was distinctly regulated by type I and/or type II receptor kinase activity. For instance, while heteromeric receptor complexes containing a kinase-inactive type I receptor were endocytosed similarly to wild type complexes, the kinase activity of the type II TGFbeta receptor was necessary for optimal internalization and receptor down-regulation. Furthermore, these responses were shown to occur independently of type II receptor autophosphorylation but require a type II receptor capable of transphosphorylation.
Highlights
The transforming growth factor  (TGF)1 superfamily of a great deal of information has been generated documenting potential receptor interactions required for TGF signaling, the endocytic fate of the receptor-ligand complex is essentially unexplored
We have employed chimeric receptors consisting of the granulocyte/macrophage colony-stimulating factor (GM-CSF) ␣ and  receptor ligand binding domain fused to the transmembrane and cytoplasmic domain of kinase-inactive type I and type II TGF receptors to examine the role of TGF receptor kinase activity in receptor trafficking and signaling
The designation ␣III, for example, represents clones expressing chimeric receptors consisting of the ligand binding domain of the GM-CSF ␣ receptor fused to the transmembrane and cytoplasmic domain of the type I TGF receptor and the ligand binding domain of the GM-CSF  receptor fused to the transmembrane and cytoplasmic domain of the type II TGF receptor [4]
Summary
The transforming growth factor  (TGF)1 superfamily of a great deal of information has been generated documenting potential receptor interactions required for TGF signaling, the endocytic fate of the receptor-ligand complex is essentially unexplored. Treatment with GM-CSF at either 10 or 100 ng/ml was unable to activate the kinase-dead chimeric receptors, while the addition of TGF stimulated PAI-1 protein expression through endogenous TGF receptor signaling.
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