Literature DB >> 28512247

Targetable T-type Calcium Channels Drive Glioblastoma.

Ying Zhang1, Nichola Cruickshanks1, Fang Yuan1, Baomin Wang1, Mary Pahuski1, Julia Wulfkuhle2, Isela Gallagher2, Alexander F Koeppel3, Sarah Hatef1, Christopher Papanicolas1, Jeongwu Lee4, Eli E Bar5, David Schiff6, Stephen D Turner3, Emanuel F Petricoin2, Lloyd S Gray7, Roger Abounader8,6,9.   

Abstract

Glioblastoma (GBM) stem-like cells (GSC) promote tumor initiation, progression, and therapeutic resistance. Here, we show how GSCs can be targeted by the FDA-approved drug mibefradil, which inhibits the T-type calcium channel Cav3.2. This calcium channel was highly expressed in human GBM specimens and enriched in GSCs. Analyses of the The Cancer Genome Atlas and REMBRANDT databases confirmed upregulation of Cav3.2 in a subset of tumors and showed that overexpression associated with worse prognosis. Mibefradil treatment or RNAi-mediated attenuation of Cav3.2 was sufficient to inhibit the growth, survival, and stemness of GSCs and also sensitized them to temozolomide chemotherapy. Proteomic and transcriptomic analyses revealed that Cav3.2 inhibition altered cancer signaling pathways and gene transcription. Cav3.2 inhibition suppressed GSC growth in part by inhibiting prosurvival AKT/mTOR pathways and stimulating proapoptotic survivin and BAX pathways. Furthermore, Cav3.2 inhibition decreased expression of oncogenes (PDGFA, PDGFB, and TGFB1) and increased expression of tumor suppressor genes (TNFRSF14 and HSD17B14). Oral administration of mibefradil inhibited growth of GSC-derived GBM murine xenografts, prolonged host survival, and sensitized tumors to temozolomide treatment. Our results offer a comprehensive characterization of Cav3.2 in GBM tumors and GSCs and provide a preclinical proof of concept for repurposing mibefradil as a mechanism-based treatment strategy for GBM. Cancer Res; 77(13); 3479-90. ©2017 AACR. ©2017 American Association for Cancer Research.

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Year:  2017        PMID: 28512247      PMCID: PMC5505315          DOI: 10.1158/0008-5472.CAN-16-2347

Source DB:  PubMed          Journal:  Cancer Res        ISSN: 0008-5472            Impact factor:   12.701


  50 in total

Review 1.  Imaging structured space-time patterns of Ca2+ signals: essential information for decisions in cell division.

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Authors:  José A Rodríguez-Gómez; Konstantín L Levitsky; José López-Barneo
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Review 5.  End organ protection by calcium-channel blockers.

Authors:  D Tzivoni
Journal:  Clin Cardiol       Date:  2001-02       Impact factor: 2.882

6.  Inhibition of T-type Ca²⁺ channels by endostatin attenuates human glioblastoma cell proliferation and migration.

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Journal:  Br J Pharmacol       Date:  2012-06       Impact factor: 8.739

Review 7.  Radiation resistance of cancer stem cells: the 4 R's of radiobiology revisited.

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8.  Cancer Stem Cells under Hypoxia as a Chemoresistance Factor in Breast and Brain.

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9.  Mibefradil, a novel therapy for glioblastoma multiforme: cell cycle synchronization and interlaced therapy in a murine model.

Authors:  Stephen T Keir; Henry S Friedman; David A Reardon; Darell D Bigner; Lloyd A Gray
Journal:  J Neurooncol       Date:  2012-10-20       Impact factor: 4.130

10.  Differential connexin function enhances self-renewal in glioblastoma.

Authors:  Masahiro Hitomi; Loic P Deleyrolle; Erin E Mulkearns-Hubert; Awad Jarrar; Meizhang Li; Maksim Sinyuk; Balint Otvos; Sylvain Brunet; William A Flavahan; Christopher G Hubert; Winston Goan; James S Hale; Alvaro G Alvarado; Ao Zhang; Mark Rohaus; Muna Oli; Vinata Vedam-Mai; Jeff M Fortin; Hunter S Futch; Benjamin Griffith; Qiulian Wu; Chun-Hong Xia; Xiaohua Gong; Manmeet S Ahluwalia; Jeremy N Rich; Brent A Reynolds; Justin D Lathia
Journal:  Cell Rep       Date:  2015-05-07       Impact factor: 9.423
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  30 in total

1.  Mibefradil, a T-type Ca2+ channel blocker also blocks Orai channels by action at the extracellular surface.

Authors:  Pengyun Li; Hussein N Rubaiy; Gui-Lan Chen; Thomas Hallett; Nawel Zaibi; Bo Zeng; Rahul Saurabh; Shang-Zhong Xu
Journal:  Br J Pharmacol       Date:  2019-08-19       Impact factor: 8.739

Review 2.  Targeting Ion Channels for Cancer Treatment: Current Progress and Future Challenges.

Authors:  Alina L Capatina; Dimitris Lagos; William J Brackenbury
Journal:  Rev Physiol Biochem Pharmacol       Date:  2022       Impact factor: 5.545

3.  The tumor-suppressive long noncoding RNA DRAIC inhibits protein translation and induces autophagy by activating AMPK.

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Review 4.  Ion Channels and Their Role in the Pathophysiology of Gliomas.

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Review 5.  Drug repurposing for the treatment of glioblastoma multiforme.

Authors:  Claudia Abbruzzese; Silvia Matteoni; Michele Signore; Luca Cardone; Kavindra Nath; Jerry D Glickson; Marco G Paggi
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6.  Prognostic relevance of a T-type calcium channels gene signature in solid tumours: A correlation ready for clinical validation.

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Journal:  Genes Dev       Date:  2018-04-19       Impact factor: 11.361

Review 8.  Repurposing of Anticancer Stem Cell Drugs in Brain Tumors.

Authors:  Hisham F Bahmad; Darine Daher; Abed A Aljamal; Mohamad K Elajami; Kei Shing Oh; Juan Carlos Alvarez Moreno; Ruben Delgado; Richard Suarez; Ana Zaldivar; Roshanak Azimi; Amilcar Castellano; Robert Sackstein; Robert J Poppiti
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Review 9.  The Use of Antihypertensive Drugs as Coadjuvant Therapy in Cancer.

Authors:  José A Carlos-Escalante; Marcela de Jesús-Sánchez; Alejandro Rivas-Castro; Pavel S Pichardo-Rojas; Claudia Arce; Talia Wegman-Ostrosky
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Review 10.  Mechanisms of Invasion in Glioblastoma: Extracellular Matrix, Ca2+ Signaling, and Glutamate.

Authors:  Jae-Seon So; Hyeono Kim; Kyung-Seok Han
Journal:  Front Cell Neurosci       Date:  2021-06-02       Impact factor: 5.505
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