Targeting cellular respiration as a therapeutic strategy in glioblastoma
BUFFALO, NY- May 19, 2023 – A new research perspective was published in Oncotarget’s Volume 14 on May 4, 2023, entitled, “Targeting cellular respiration as a therapeutic strategy in glioblastoma.” Credit: 2023 Shang et al. BUFFALO, NY- May 19, 2023 – A new research perspective was published in Oncotarget’s Volume 14 on May 4, 2023, […]
BUFFALO, NY- May 19, 2023 – A new research perspective was published in Oncotarget’s Volume 14 on May 4, 2023, entitled, “Targeting cellular respiration as a therapeutic strategy in glioblastoma.”
Credit: 2023 Shang et al.
BUFFALO, NY- May 19, 2023 – A new research perspective was published in Oncotarget’s Volume 14 on May 4, 2023, entitled, “Targeting cellular respiration as a therapeutic strategy in glioblastoma.”
While glycolysis is abundant in malignancies, mitochondrial metabolism is significant as well. Mitochondria harbor the enzymes relevant for cellular respiration, which is a critical pathway for both regeneration of reduction equivalents and energy production in the form of ATP.
In this research perspective, researchers Enyuan Shang, Trang Thi Thu Nguyen, Mike-Andrew Westhoff, Georg Karpel-Massler, and Markus D. Siegelin from Columbia University Medical Center, City University of New York and Ulm University Medical Center discuss their recent finding that FDA-approved HDAC-inhibitors may have a profound impact on energy metabolism in solid tumor cells, including glioblastoma (GBM).
“Because of the impact of HDAC-inhibitors on metabolism we hypothesized that imipridones, which suppress cellular respiration, might synergize with these compounds to significantly enhance killing of GBM cells [38]. Indeed, we found that imipridones reversed HDAC-inhibitor induced activation of cellular respiration and in turn the combination treatment facilitated induction of intrinsic apoptosis in a manner that was partially reliant on the anti-apoptotic Bcl-2 family members.”
The oxidation of NADH2 and FADH2 are fundamental since NAD and FAD are the key components of the TCA-cycle that is critical to entertain biosynthesis in cancer cells. The TCA-cycle itself is predominantly fueled through carbons from glucose, glutamine, fatty acids and lactate.
Targeting mitochondrial energy metabolism appears feasible through several drug compounds that activate the CLPP protein or interfere with NADH-dehydrogenase, pyruvate-dehydrogenase, enzymes of the TCA-cycle and mitochondrial matrix chaperones. While these compounds have demonstrated anti-cancer effects in vivo, recent research suggests which patients most likely benefit from such treatments.
“In summary, targeting tumor cell metabolism is relevant and future research needs to identify patient populations that particularly benefit from such treatments. Moreover, while most studies related to metabolism still rest predominantly on the tumor cells it is critical to extend such observations to the microenvironment of the tumors, especially with regards to the immune system [41, 42].”
Read the full paper: DOI: https://doi.org/10.18632/oncotarget.28424
Correspondence to: Markus D. Siegelin
Email: ms4169@cumc.columbia.edu
Keywords: glioblastoma, metabolism, lactate, carbon tracing, central carbon metabolism
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Journal
Oncotarget
DOI
10.18632/oncotarget.28424
Method of Research
Commentary/editorial
Subject of Research
Cells
Article Title
Targeting cellular respiration as a therapeutic strategy in glioblastoma
Article Publication Date
4-May-2023
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