1. Constitutive Activation and Oncogenicity Are Mediated by Loss of Helical Structure at the Cytosolic Boundary of the Thrombopoietin Receptor
- Author
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Jean-Philippe Defour, Emilie Leroy, Sharmila Dass, Thomas Balligand, Gabriel Levy, Céline Mouton, Lidvine Genet, Christian Pecquet, Steven O. Smith, and Stefan N. Constantinescu
- Abstract
Dimerization of the thrombopoietin receptor (TpoR) is necessary for receptor activation and downstream signaling through activated Janus kinase 2. We have shown previously that different orientations of the transmembrane (TM) helices within a receptor dimer can lead to different signaling outputs. Here we addressed the structural basis of activation for receptor mutations S505N and W515K that induce myeloproliferative neoplasms. We show using in vivo bone marrow reconstitution experiments that ligand-independent activation of TpoR by TM asparagine (Asn) substitutions is proportional to the proximity of the mutation to the intracellular membrane surface. Solid-state NMR experiments on TM peptides indicate a progressive loss of helical structure in the juxtamembrane (JM) R/KWQFP motif with either proximity of Asn substitutions to the cytosolic boundary or mutation of W515 in the motif. Mutational studies in the TpoR cytosolic JM region show that the helical loss by itself can induce activation, but is localized to a maximum of 6 amino acids downstream of W515, the rest of the region until Box 1 requiring helicity for receptor function. The constitutive activation of TpoR mutants S505N and W515K can be inhibited by rotation of TM helices within the TpoR dimer, which also restores helicity around W515. Together these data allow us to develop a general model for activation and to explain the critical role of the JM W515 residue in the regulation of receptor activity.(Total manuscript without References and Figure Legends 6507 words, main text (without methods and materials):)
- Published
- 2022