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Abstract
Although KIT-mutant GISTs can be effectively treated with tyrosine kinase inhibitors (TKIs), many patients develop resistance to imatinib mesylate (IM) as well as the FDA-approved later-line agents sunitinib, regorafenib and ripretinib. Resistance mechanisms mainly involve secondary mutations in the KIT receptor tyrosine kinase gene indicating continued dependency on the KIT signaling pathway. The fact that the type of secondary mutation confers either sensitivity or resistance towards TKIs and the notion that secondary mutations exhibit intra- and intertumoral heterogeneity complicates the optimal choice of treatment in the imatinib-resistant setting. Therefore, new strategies that target KIT independently of its underlying mutations are urgently needed. Homoharringtonine (HHT) is a first-in-class inhibitor of protein biosynthesis and is FDA-approved for the treatment of chronic myeloid leukemia (CML) that is resistant to at least two TKIs. HHT has also shown activity in KIT-mutant mastocytosis models, which are intrinsically resistant to imatinib and most other TKIs. We hypothesized that HHT could be effective in GIST through downregulation of KIT expression and subsequent decrease of KIT activation and downstream signaling. Testing several GIST cell line models, HHT led to a significant reduction in nascent protein synthesis and was highly effective in the nanomolar range in IM-sensitive and IM-resistant GIST cell lines. HHT treatment resulted in a rapid and complete abolishment of KIT expression and activation, while KIT mRNA levels were minimally affected. The response to HHT involved induction of apoptosis as well as cell cycle arrest. The antitumor activity of HHT was confirmed in a GIST xenograft model. Taken together, inhibition of protein biosynthesis is a promising strategy to overcome TKI resistance in GIST.
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1 UPMC Hillman Cancer Center, Research Pavilion, Cancer Therapeutics Program, Pittsburgh, USA (GRID:grid.412689.0) (ISNI:0000 0001 0650 7433)
2 UPMC Hillman Cancer Center, Research Pavilion, Cancer Therapeutics Program, Pittsburgh, USA (GRID:grid.412689.0) (ISNI:0000 0001 0650 7433); University of Pittsburgh School of Medicine, Department of Neurological Surgery, Pittsburgh, USA (GRID:grid.21925.3d) (ISNI:0000 0004 1936 9000)
3 University Hospital Heidelberg, Molecular Urooncology/Precision Oncology of Urological Tumors, Department of Urology, Heidelberg, Germany (GRID:grid.5253.1) (ISNI:0000 0001 0328 4908)
4 UPMC Hillman Cancer Center, Research Pavilion, Cancer Therapeutics Program, Pittsburgh, USA (GRID:grid.412689.0) (ISNI:0000 0001 0650 7433); University of Pittsburgh School of Medicine, Department of Neurological Surgery, Pittsburgh, USA (GRID:grid.21925.3d) (ISNI:0000 0004 1936 9000); The University of Pennsylvania, Department of Neurological Surgery, Philadelphia, USA (GRID:grid.25879.31) (ISNI:0000 0004 1936 8972)
5 UPMC Hillman Cancer Center, Cancer Virology Program, Pittsburgh, USA (GRID:grid.478063.e) (ISNI:0000 0004 0456 9819); University of Pittsburgh School of Medicine, Department of Microbiology and Molecular Genetics, Pittsburgh, USA (GRID:grid.21925.3d) (ISNI:0000 0004 1936 9000)
6 UPMC Hillman Cancer Center, Research Pavilion, Cancer Therapeutics Program, Pittsburgh, USA (GRID:grid.412689.0) (ISNI:0000 0001 0650 7433); University Hospital Heidelberg, Molecular Urooncology/Precision Oncology of Urological Tumors, Department of Urology, Heidelberg, Germany (GRID:grid.5253.1) (ISNI:0000 0001 0328 4908); University of Pittsburgh School of Medicine, Department of Pathology, Pittsburgh, USA (GRID:grid.21925.3d) (ISNI:0000 0004 1936 9000)