AI Article Synopsis
- Glioblastoma (GBM) is a deadly brain cancer that has a high resistance to treatments, partly due to the presence of cancer stem cells.
- Recent studies show that a genetic change known as homozygous deletion, common in GBM, enhances the stem-like properties of the tumor cells.
- Treatment with L-Alanosine (ALA) reduces these stem-like properties by impairing mitochondrial function and also makes GBM cells more sensitive to the standard chemotherapy drug temozolomide (TMZ), suggesting that targeting purine synthesis could improve treatment outcomes with less toxicity.
Article Abstract
Glioblastoma (GBM) is a lethal brain cancer exhibiting high levels of drug resistance, a feature partially imparted by tumor cell stemness. Recent work shows that homozygous deletion, a genetic alteration occurring in about half of all GBMs, promotes stemness in GBM cells. Exploiting MTAP loss-conferred deficiency in purine salvage, we demonstrate that purine blockade via treatment with L-Alanosine (ALA), an inhibitor of de novo purine synthesis, attenuates stemness of -deficient GBM cells. This ALA-induced reduction in stemness is mediated in part by compromised mitochondrial function, highlighted by ALA-induced elimination of mitochondrial spare respiratory capacity. Notably, these effects of ALA are apparent even when the treatment was transient and with a low dose. Finally, in agreement with diminished stemness and compromised mitochondrial function, we show that ALA sensitizes GBM cells to temozolomide (TMZ) in vitro and in an orthotopic GBM model. Collectively, these results identify purine supply as an essential component in maintaining mitochondrial function in GBM cells and highlight a critical role of mitochondrial function in sustaining GBM stemness. We propose that purine synthesis inhibition can be beneficial in combination with the standard of care for -deficient GBMs, and that it may be feasible to achieve this benefit without inflicting major toxicity.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC9025092 | PMC |
| http://dx.doi.org/10.3390/biomedicines10040751 | DOI Listing |
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