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Merck
  • Inhibition of PlexA1-mediated brain tumor growth and tumor-associated angiogenesis using a transmembrane domain targeting peptide.

Inhibition of PlexA1-mediated brain tumor growth and tumor-associated angiogenesis using a transmembrane domain targeting peptide.

Oncotarget (2016-08-11)
Laurent Jacob, Paul Sawma, Norbert Garnier, Lionel A T Meyer, Justine Fritz, Thomas Hussenet, Caroline Spenlé, Jacky Goetz, Julien Vermot, Aurore Fernandez, Nadège Baumlin, Samia Aci-Sèche, Gertraud Orend, Guy Roussel, Gérard Crémel, Monique Genest, Pierre Hubert, Dominique Bagnard
ABSTRACT

The neuropilin-plexin receptor complex regulates tumor cell migration and proliferation and thus is an interesting therapeutic target. High expression of neuropilin-1 is indeed associated with a bad prognosis in glioma patients. Q-RTPCR and tissue-array analyses showed here that Plexin-A1 is highly expressed in glioblastoma and that the highest level of expression correlates with the worse survival of patients. We next identified a developmental and tumor-associated pro-angiogenic role of Plexin-A1. Hence, by using molecular simulations and a two-hybrid like assay in parallel with biochemical and cellular assays we developed a specific Plexin-A1 peptidic antagonist disrupting transmembrane domain-mediated oligomerization of the receptor and subsequent signaling and functional activity. We found that this peptide exhibits anti-tumor activity in vivo on different human glioblastoma models including glioma cancer stem cells. Thus, screening Plexin-A1 expression and targeting Plexin-A1 in glioblastoma patients exhibit diagnostic and therapeutic value.

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U-373 MG (Uppsala) cell line