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Abstract
Germ line missense mutations in the RET (rearranged during transfection) oncogene are the cause of multiple endocrine neoplasia, type 2 (MEN2), but at present surgery is the only treatment available for MEN2 patients. In this study, the ability of Sorafenib (BAY 43-9006) to act as a RET inhibitor was investigated. Sorafenib inhibited the activity of purified recombinant kinase domain of wild type RET and RET(V804M) with IC(50) values of 5.9 and 7.9 nm, respectively. Interestingly, these values were 6-7-fold lower than the IC(50) for the inhibition of B-RAF(V600E). In cell-based assays, Sorafenib inhibited the kinase activity and signaling of wild type and oncogenic RET in MEN2 tumor and established cell lines at a concentration between 15 and 150 nm. In contrast, inhibition of oncogenic B-RAF- or epidermal growth factor-induced ERK1/2 phosphorylation required micromolar concentrations of Sorafenib demonstrating the high specificity of this drug in targeting RET. Moreover, prolonged exposure to Sorafenib resulted in inhibition of cell proliferation and RET protein degradation. Using lysosomal and proteasomal inhibitors, we demonstrate that Sorafenib induces RET lysosomal degradation independent of proteasomal targeting. Furthermore, we provide a structural model of the Sorafenib.RET complex in which Sorafenib binds to and induces the DFG(out) conformation of the RET kinase domain. These results strengthen the argument that Sorafenib may be effective in the treatment of MEN2 patients. In addition, because inhibition of RET is not impaired by mutation of the Val(804) gatekeeper residue, MEN2 tumors may be less susceptible to acquired Sorafenib resistance.
Highlights
Germ line missense activating point mutations in the RET oncogene cause the cancer syndrome multiple endocrine neoplasia type 2 (MEN2) [1, 8]
MEN2A patients develop, in addition to Medullary thyroid carcinoma (MTC), pheochromocytoma and hyperplasia of the parathyroid (HPT)
A recent study [20] reported that Sorafenib could inhibit the kinase activity and signaling of wild type and oncogenic RET. We have extended these studies to further investigate: (i) the effect of Sorafenib against the enzymatic activity of purified recombinant kinase domain of RETWT and RETV804M, (ii) the specificity of RET inhibition by Sorafenib, (iii) the mechanism of oncogenic RET degradation induced by Sorafenib, and (iv) the structural insights of the mechanism by which Sorafenib inhibits RET kinase activity
Summary
Cell Lines and Reagents—HEK293 (human embryonic kidney) cells were transfected with pCMV vector alone or pCMV vector containing wild type RET (RETWT), the MEN2A mutant RETC634R, the MEN2B mutant RETM918T, or the FMTC mutant RETS891A. MZ-CRC-1 (human medullary thyroid carcinoma cell line harboring the MEN2B-RETM918T oncoprotein) and TGW-1 (human neuroblastoma cell line expressing wild type RET and GFR␣1 co-receptor) were grown in Dulbecco’s modified Eagle’s medium supplemented with 10% fetal bovine serum. To assess the activity of the Sorafenib used in these experiments, an in vitro kinase assay with recombinant B-RAFV600E was performed (Fig. 1D). Tions to convert the c-Kit activation segment sequence to that In Vivo Inhibition of RET Phosphorylation, Downstream Sigof RET Superimposing this model onto the B-RAF1⁄7Sorafenib naling, and Cell Proliferation by Sorafenib—It has recently been complex (Protein Data Bank code 1UWH) [24] allowed a fit of demonstrated that Sorafenib can inhibit RET activation and Sorafenib to the RET protein model.
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