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Disrupting Glutamine Metabolism Aids to Treat Chemotherapy Resistant Pancreatic Cancer

Disrupting Glutamine Metabolism Aids to Treat Chemotherapy Resistant Pancreatic Cancer

by Dr. Suman Mukhopadhyay on Jan 27 2020 6:16 PM
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Highlights:

  • A way to utilize existing chemotherapy in a more efficient manner in treating pancreatic cancer has been discovered
  • Scientists have identified a novel therapeutic strategy by targeting glutamine metabolism as a biological target for the disease
  • Targeted inhibition of glutamine metabolism pathway could be used as a distinctive therapeutic opportunity with chemotherapy for treating pancreatic cancer- opening up a new therapeutic route for combating chemo-resistance
Targeting glutamine metabolism may increase the efficacy of chemotherapeutic drugs to treat pancreatic cancer, reveals a new study.
The team led by Frank McCormick, Ph.D., FRS, D.Sc. (Hon), RAS National Program Advisor at the Frederick National Laboratory and professor emeritus, UCSF Helen Diller Family Comprehensive Cancer Center, assessed the relationship between metabolic signaling and the KRAS-driven cancer cells’ survival in several pancreatic cancer cell lines, finding that the cells are uniquely dependent on metabolic activities to resist current chemotherapies.

In particular, our team pinpointed an association between glutamine metabolism and NRF2, a master regulator of the antioxidant system, that is critical for the cancer cells’ protection. Our investigation revealed that expression of NRF2 on pancreatic cancer cells is associated with poor prognosis and that altering the expression by inhibiting glutamine metabolism helps regulate the cells’ sensitivity to chemotherapy.

The findings are published in the journal Cancer Research, a journal of the American Association for Cancer Research.

About Pancreatic Cancer

Current therapeutic options for pancreatic cancer are limited. Many pancreatic tumors resist chemotherapies, which poses a significant clinical challenge for doctors and patients and contributes to a high rate of recurrence. Mutated KRAS is a critical driver of pancreatic cancer, and studies have linked it to altered metabolism in pancreatic tumor cells. Tumors harboring these oncogenic mutations remain among the most difficult to treat, so there is an urgent need for effective therapies.

Research to Overcome Resistance of Pancreatic Cancers

The team tested the combination therapy in mice by using glutaminase inhibitors alongside gemcitabine, a first-line chemotherapy. The results were encouraging: the treated mice lived longer and had less tumor burdens than controls, supporting the idea that glutamine inhibition improves the effectiveness of chemotherapy.

Dr. Suman Mukhopadhyay, the postdoctoral research fellow at the RAS Initiative and first author of the study, believes further research is warranted to determine if this represents a therapeutic intervention for the significant percentage of pancreatic cancer patients harboring KRAS mutations that have, to date, been resistant to current therapies.

Additionally, it will be worthwhile in future studies to evaluate whether the findings from this work have implications for cancers with similar KRAS mutations.

Reference:
  1. Undermining glutaminolysis bolsters chemotherapy while NRF2 promotes chemoresistance in KRAS-driven pancreatic cancers - (https://cancerres.aacrjournals.org/content/early/2020/01/09/0008-5472.CAN-19-1363)


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