Scientific Publications Database
Article Title: Engineering PTEN-L for Cell-Mediated DeliveryAuthors: Lavictoire, Sylvie J.; Gont, Alexander; Julian, Lisa M.; Stanford, William L.; Vlasschaert, Caitlyn; Gray, Douglas A.; Jomaa, Danny; Lorimer, Ian A. J.
Journal: MOLECULAR THERAPY-METHODS & CLINICAL DEVELOPMENT Volume 9
Date of Publication:2018
Abstract:
The tumor suppressor PTEN is frequently inactivated in glioblastoma. PTEN-L is a long form of PTEN produced by translation from an alternate upstream start codon. Unlike PTEN, PTEN-L has a signal sequence and a tract of six arginine residues that allow PTEN-L to be secreted from cells and be taken up by neighboring cells. This suggests that PTEN-L could be used as a therapeutic to restore PTEN activity. However, effective delivery of therapeutic proteins to treat CNS cancers such as glioblastoma is challenging. One method under evaluation is cell-mediated therapy, where cells with tumor-homing abilities such as neural stem cells are genetically modified to express a therapeutic protein. Here, we have developed a version of PTEN-L that is engineered for enhanced cell-mediated delivery. This was accomplished by replacement of the native leader sequence of PTEN-L with a leader sequence from human light-chain immunoglobulin G (IgG). This version of PTEN-L showed increased secretion and an increased ability to transfer to neighboring cells. Neural stem cells derived from human fibroblasts could be modified to express this version of PTEN-L and were able to deliver catalytically active light-chain leader PTEN-L (lclPTEN-L) to neighboring glioblastoma cells.