Lmtk3 As A Novel Regulator Of Oncogenic Kit In Kit-Mutant Cancers.

11044 Background: Multiple cancers, such as gastrointestinal stromal tumors (GIST) and melanoma, have been shown to be caused by somatic activating mutations in the receptor tyrosine kinase KIT. The major cause of death in patients with advanced KIT -mutant cancers is due to the development of KIT tyrosine kinase inhibitor-resistant (TKI-resistant) metastatic disease. Drug resistance arises almost exclusively from secondary mutations within KIT, highlighting the importance of KIT in the proliferation and survival of these tumors. Methods: We performed a human kinase siRNA screen in multiple KIT -mutant cancer cell lines using viability as a read out. We defined candidate targets as those whose knockdown decreased viability in all cell lines. Validation and mechanistic studies were done using a library of KIT-mutant GIST and melanoma cells. Results: We identified lemur tyrosine kinase 3 (LMTK3) as candidate target in three KIT -mutant cell lines. LMTK3 silencing reduced the viability of all KIT -mutant GIST and melanoma cells tested to date, including cell lines with KIT TKI-resistance mutations. Importantly, LMTK3 silencing decreased the viability of KIT -mutant cells specifically, but not that of KIT-independent GIST and melanoma cells. Further, we found that decreased cell viability was due to induction of apoptosis, as assessed by measuring caspase 3 and 7 activity within 96 hours of LMTK3 silencing. LMTK3 knockdown also reduced tumor growth in vivo in a GIST xenograft model. Because these cells depend so heavily on KIT and the loss of KIT signaling results in cell death, we hypothesized that LMTK3 silencing may affect this pathway. Indeed, LMTK3 silencing decreased levels of autophosphorylated KIT. We also observed a significant decrease in total KIT protein expression. This phenotype and corresponding viability was rescued with exogenous expression of full length LMTK3. Conclusions: LMTK3 is an important regulator of oncogenic KIT expression and activity in KIT-mutant GIST and melanoma and represents a novel, tractable target.