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Mitochondrial matrix chaperone and c-myc inhibition causes enhanced lethality in glioblastoma.

Oncotarget (2017-04-19)
Chiaki Tsuge Ishida, Chang Shu, Marc-Eric Halatsch, Mike-Andrew Westhoff, Dario C Altieri, Georg Karpel-Massler, Markus David Siegelin
ZUSAMMENFASSUNG

Malignant gliomas display high levels of the transcription factor c-myc and organize a tumor specific chaperone network within mitochondria. Here, we show that c-myc along with mitochondrial chaperone inhibition displays massive tumor cell death. Inhibition of mitochondrial matrix chaperones and c-myc was established by utilizing genetic as well as pharmacological approaches. Bromodomain and extraterminal (BET) family protein inhibitors, JQ1 and OTX015, were used for c-myc inhibition. Gamitrinib was applied to interfere with mitochondrial matrix chaperones. A xenograft model was used to determine the in vivo efficacy. Combined inhibition of c-myc and mitochondrial matrix chaperones led to a synergistic reduction of cellular proliferation (CI values less than 1) in established glioblastoma, patient-derived xenograft and stem cell-like glioma cultures. The combinatorial treatment of BET inhibitors and Gamitrinib elicited massive apoptosis induction with dissipation of mitochondrial membrane potential and activation of caspases. Mechanistically, BET-inhibitors and Gamitrinib mediated a pronounced integrated stress response with a PERK-dependent up regulation of ATF4 and subsequent modulation of Bcl-2 family of proteins with down-regulation of Mcl-1 and its interacting partner, Usp9X, and an increase in pro-apoptotic Noxa. Blocking ATF4 by siRNA attenuated Gamitrinib/BET inhibitor mediated increase of Noxa. Knockdown of Noxa and Bak protected from the combinatorial treatment. Finally, the combination treatment of Gamitrinib and OTX015 led to a significantly stronger reduction of tumor growth as compared to single treatments in a xenograft model of human glioma without induction of toxicity. Thus, Gamitrinib in combination with BET-inhibitors should be considered for the development for clinical application.

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Produktbeschreibung

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Tetramethylrhodamin-Ethylester-Perchlorat, suitable for fluorescence, ≥90% (HPCE)
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MISSION® esiRNA, targeting human MYC
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MISSION® esiRNA, targeting human ATF4
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MISSION® esiRNA, targeting human BAK1