Histidine Enhances the Anticancer Effect of Gemcitabine against Pancreatic Cancer via Disruption of Amino Acid Homeostasis and Oxidant-Antioxidant Balance.
Narendra KumarSatyanarayana RachaganiGopalakrishnan NatarajanAlexandra CrookThiyagarajan GopalVinothkumar RajamanickamJyoti Bala KaushalNagabhishek Sirpu NateshRobert PowersSurinder Kumar BatraViswanathan SaraswathiPublished in: Cancers (2023)
Due to the severe toxicity posed by chemotherapeutic drugs, adjuvant nutritional intervention has gained increased attention in the treatment of pancreatic cancer (PC). Amino acid (AA) metabolism is aberrantly regulated in PC and circulating histidine (His) levels are low in PC patients. We hypothesized that His uptake and/or metabolism is dysregulated in PC and that combining His with gemcitabine (Gem), a drug used in the treatment of PC, will enhance the anti-cancer effects of Gem. We performed in vitro and in vivo studies to determine the anticancer effect of the combination of His and Gem against lethal PC. We demonstrate that circulating His levels are low in both human subjects and genetically engineered mice exhibiting pancreatic tumors. Interestingly, the expression of histidine ammonia lyase, an enzyme involved in His catabolism, is higher in PC compared to normal subjects. His + Gem exerts a more potent cytotoxic effect in PC cells compared to individual treatments. His treatment results in a profound increase in His accumulation, accompanied by a depletion of a number of AAs, promoting cancer cell survival and/or glutathione (GSH) synthesis. His but not Gem increases hydrogen peroxide and depletes cellular GSH. Supplementation with GSH protects cells against His + Gem-induced cytotoxicity. Further, our in vivo studies demonstrate that His + Gem potently reduced tumor mass and improved mouse survival. Taken together, our data suggest that PC cells exhibit an aberrant His uptake/accumulation which, in turn, leads to oxidative stress and depletion of AA pool, thereby enhancing the anticancer effect of Gem.
Keyphrases
- oxidative stress
- hydrogen peroxide
- amino acid
- endothelial cells
- randomized controlled trial
- nitric oxide
- squamous cell carcinoma
- induced apoptosis
- newly diagnosed
- early stage
- dna damage
- diabetic rats
- cell cycle arrest
- intellectual disability
- emergency department
- working memory
- anti inflammatory
- high fat diet induced
- autism spectrum disorder
- metabolic syndrome
- deep learning
- binding protein
- cell proliferation
- big data
- squamous cell
- heat shock
- patient reported
- end stage renal disease
- ischemia reperfusion injury
- chronic kidney disease
- signaling pathway
- heat shock protein