Abstract
AKT1(E17K) is a gain-of-function mutation that constitutively activates the PI3K-AKT pathway. However, how AKT1(E17K) is regulated in cancer pathogenesis remains elusive. Here, RNA immunoprecipitation sequencing (RIP-seq) is performed to interrogate the AKT1(E17K)-interacting lncRNAs and identify that SVIL-AS1 preferentially binds to AKT1(E17K) rather than AKT1(WT) proteins. It is found that SVIL-AS1 enhances AKT1 phosphorylation and downstream signaling. SVIL-AS1 knockdown dramatically inhibits the growth of AKT1(E17K) cells in vitro and in vivo. Notably, AKT1 and SVIL-AS1 interaction is AKT1 phosphorylation-dependent. SVIL-AS1 also interacts with PPP2R2A, a subunit of phosphatase PP2A holoenzyme, and blocks the binding of PPP2R2A to AKT1(E17K) to prevent AKT1 dephosphorylation. Moreover, AKT1(E17K) cells are not effectively inhibited by the allosteric AKT inhibitor, whereas silencing SVIL-AS1 sensitizes AKT1(E17K) cells to AKT1 allosteric inhibitor, as well as the PI3Kα inhibitor. In breast cancer tissues, SVIL-AS1 is highly expressed and associated with p-AKT1 level and poor prognosis of patients. Together, the findings discover a novel lncRNA regulator of mutant oncoprotein which preferentially prevents AKT1(E17K) dephosphorylation. Targeting SVIL-AS1 may help to improve the responses to inhibitors of the PI3K-AKT pathway, especially in AKT1(E17K) mutant tumors.