Targeting CA9 restricts pancreatic cancer progression through pH regulation and ROS production.
[PURPOSE] Lactate is a key metabolite produced by glycolytic metabolism, yet it also serves as an energy source for cancer cells.
APA
Yang J, Tong X, et al. (2024). Targeting CA9 restricts pancreatic cancer progression through pH regulation and ROS production.. Cellular oncology (Dordrecht, Netherlands), 47(6), 2367-2382. https://doi.org/10.1007/s13402-024-01022-9
MLA
Yang J, et al.. "Targeting CA9 restricts pancreatic cancer progression through pH regulation and ROS production.." Cellular oncology (Dordrecht, Netherlands), vol. 47, no. 6, 2024, pp. 2367-2382.
PMID
39656421
Abstract
[PURPOSE] Lactate is a key metabolite produced by glycolytic metabolism, yet it also serves as an energy source for cancer cells. Lactate accumulation in the tumor microenvironment (TME) has been demonstrated to correlate with immunosuppressive TME and tumor progression. As a highly glycolytic tumor, it is crucial to decipher the underlying mechanism in pancreatic ductal adenocarcinoma (PDAC).
[METHODS] Bioinformation analysis was used to identify lactate mediated carbonic anhydrase IX (CA9) upregulation. CCK-8, colony formation and mouse xenograft assay were utilized to study the effect of CA9 in PDAC. ECAR, OCR and pHi measurement confirmed the impacts of CA9 in Warburg phenotype. Using confocal microscopy, flow cytometry, qRT-PCR, co-IP, we validated the signaling pathways in PDAC to regulate reactive oxygen species (ROS) production.
[RESULTS] We confirmed that CA9 is highly expressed in PDAC and positively regulated by lactate levels. CA9 can enhance the proliferative and migratory capabilities of PDAC cells. Pharmacologic inhibition or knockdown of CA9 significantly reduce pHi, increase the intracellular lactate and reverse the Warburg phenotype. The intracellular lactate accumulation caused by CA9 knockdown upregulates ROS and mitochondrial dysfunction. Furthermore, it was discovered that the competitive binding of CA9 with FUS inhibits the facilitation of FUS on NOX4 pre-mRNA splicing.
[CONCLUSION] Collectively, our data illustrate that CA9 has a direct regulatory role in pHi homeostasis and ROS production, providing a potential therapeutic target for PDAC treatment.
[METHODS] Bioinformation analysis was used to identify lactate mediated carbonic anhydrase IX (CA9) upregulation. CCK-8, colony formation and mouse xenograft assay were utilized to study the effect of CA9 in PDAC. ECAR, OCR and pHi measurement confirmed the impacts of CA9 in Warburg phenotype. Using confocal microscopy, flow cytometry, qRT-PCR, co-IP, we validated the signaling pathways in PDAC to regulate reactive oxygen species (ROS) production.
[RESULTS] We confirmed that CA9 is highly expressed in PDAC and positively regulated by lactate levels. CA9 can enhance the proliferative and migratory capabilities of PDAC cells. Pharmacologic inhibition or knockdown of CA9 significantly reduce pHi, increase the intracellular lactate and reverse the Warburg phenotype. The intracellular lactate accumulation caused by CA9 knockdown upregulates ROS and mitochondrial dysfunction. Furthermore, it was discovered that the competitive binding of CA9 with FUS inhibits the facilitation of FUS on NOX4 pre-mRNA splicing.
[CONCLUSION] Collectively, our data illustrate that CA9 has a direct regulatory role in pHi homeostasis and ROS production, providing a potential therapeutic target for PDAC treatment.
MeSH Terms
Humans; Reactive Oxygen Species; Pancreatic Neoplasms; Animals; Cell Line, Tumor; Disease Progression; Carbonic Anhydrase IX; Hydrogen-Ion Concentration; Cell Proliferation; Carcinoma, Pancreatic Ductal; Mice; Lactic Acid; Mice, Nude; Cell Movement; CA-19-9 Antigen; Mice, Inbred BALB C; Mitochondria; Gene Expression Regulation, Neoplastic; Antigens, Neoplasm
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