PM-02 DIACYLGLYCEROL KINASE ALPHA INHIBITION PROLONGS SURVIVAL OF MICE WITH PRIMARY AND METASTATIC BRAIN TUMORS

Diacylglycerol kinases (DGKs) are a family of highly conserved enzymes that are promiscuously responsive to growth factors and other mitogenic signaling cascades. DGKs are activated by binding of Ca2+ and phosphoserine, and catalyze conversion of diacylglycerol (DAG) to phosphatidic acid (PA). PA ha...

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Published in:Neuro-oncology (Charlottesville, Va.) Va.), 2014-11, Vol.16 (suppl 5), p.v169-v169
Main Authors: Floyd, D., Comeau, L., Boroda, S., Hayes, N., Roller, D., Xiao, A., Friedman, A., Boyd, L., Gioeli, D., Harris, T., Purow, B.
Format: Article
Language:English
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Summary:Diacylglycerol kinases (DGKs) are a family of highly conserved enzymes that are promiscuously responsive to growth factors and other mitogenic signaling cascades. DGKs are activated by binding of Ca2+ and phosphoserine, and catalyze conversion of diacylglycerol (DAG) to phosphatidic acid (PA). PA has multiple effects on downstream cellular signaling, while activated DGKs can associate with scaffolding proteins, or undergo degradation or translocation to the nucleus through atypical localization signals and thereby promote cell division and survival. A repurposed small-molecule inhibitor of DGK alpha activity is shown here to antagonize tumor growth in xenografts of primary and metastatic brain tumors and syngeneic mouse tumor grafts. Based on recent prior research and in this work in xenograft models, DGK alpha inhibition may arrest or kill tumors through cancer addiction to DGK alpha activity. Here, in syngeneic tumor models of primary and metastatic brain tumors, an additional anti-tumor effect of DGK alpha inhibition via up-regulation of normal immune function is possibly present. This work uses two syngeneic in vivo tumor models to compare DGK alpha inhibition with the monoclonal antibody immunotherapy anti-CTLA-4, and also tests the effect of combination of the two treatments on survival, tumor size, and immunologic activity. The anti-tumor activity of the DGK alpha inhibitor and the contribution of other DGK family members is shown using cell-based toxicity and flow cytometry assays. Direct interaction between the inhibitor and DGK alpha is shown with biochemical reconstitution of inhibitor-enzyme interactions These early results suggest that DGK alpha inhibition may be a promising strategy for patients with glioblastoma and melanoma brain metastasis.
ISSN:1522-8517
1523-5866
DOI:10.1093/neuonc/nou268.2