Rajesh R Nair1, Debbie Piktel2, Quincy A Hathaway3,4, Stephanie L Rellick5, Patrick Thomas2, Pushkar Saralkar6, Karen H Martin1,2, Werner J Geldenhuys4,6,7, John M Hollander3,4, Laura F Gibson8,9. 1. Department of Microbiology, Immunology and Cell Biology, West Virginia University School of Medicine, Morgantown, West Virginia, USA. 2. West Virginia University Cancer Institute, Robert C. Byrd Health Sciences Center, West Virginia University, PO Box 9104, Morgantown, West Virginia, 26506, USA. 3. Division of Exercise Physiology, West Virginia University School of Medicine, Morgantown, West Virginia, USA. 4. Mitochondria, Metabolism and Bioenergetics Working Group, West Virginia University School of Medicine, Morgantown, West Virginia, USA. 5. Department of Physiology and Pharmacology, West Virginia University School of Medicine, Morgantown, West Virginia, USA. 6. Department of Pharmaceutical Sciences, West Virginia University School of Pharmacy, Morgantown, West Virginia, USA. 7. Department of Neuroscience, West Virginia University School of Medicine, Morgantown, West Virginia, USA. 8. Department of Microbiology, Immunology and Cell Biology, West Virginia University School of Medicine, Morgantown, West Virginia, USA. lgibson@hsc.wvu.edu. 9. West Virginia University Cancer Institute, Robert C. Byrd Health Sciences Center, West Virginia University, PO Box 9104, Morgantown, West Virginia, 26506, USA. lgibson@hsc.wvu.edu.
Abstract
PURPOSE: Pyrvinium pamoate (PP) is an anthelmintic drug that has been found to have anti-cancer activity in several cancer types. In the present study, we evaluated PP for potential anti-leukemic activity in B cell acute lymphoblastic leukemia (ALL) cell lines, in an effort to evaluate the repurposing potential of this drug in leukemia. METHODS: ALL cells were treated with PP at various concentrations to determine its effect on cell proliferation. Metabolic function was tested by evaluating Extracellular Acidification Rate (ECAR) and Oxygen Consumption Rate (OCR). Lastly, 3D spheroids were grown, and PP was reformulated into nanoparticles to evaluate distribution effectiveness. RESULTS: PP was found to inhibit ALL proliferation, with varied selectivity to different ALL cell subtypes. We also found that PP's cell death activity was specific for leukemic cells, as primary normal immune cells were resistant to PP-mediated cell death. Metabolic studies indicated that PP, in part, inhibits mitochondrial oxidative phosphorylation. To increase the targeting of PP to a hypoxic bone tumor microenvironment (BTME) niche, we successfully encapsulated PP in a nanoparticle drug delivery system and demonstrated that it retained its anti-leukemic activity in a hemosphere assay. CONCLUSION: We have demonstrated that PP is a novel therapeutic lead compound that counteracts the respiratory reprogramming found in refractory ALL cells and can be effectively formulated into a nanoparticle delivery system to target the BTME.
PURPOSE: Pyrvinium pamoate (PP) is an anthelmintic drug that has been found to have anti-cancer activity in several cancer types. In the present study, we evaluated PP for potential anti-leukemic activity in B cell acute lymphoblastic leukemia (ALL) cell lines, in an effort to evaluate the repurposing potential of this drug in leukemia. METHODS: ALL cells were treated with PP at various concentrations to determine its effect on cell proliferation. Metabolic function was tested by evaluating Extracellular Acidification Rate (ECAR) and Oxygen Consumption Rate (OCR). Lastly, 3D spheroids were grown, and PP was reformulated into nanoparticles to evaluate distribution effectiveness. RESULTS: PP was found to inhibit ALL proliferation, with varied selectivity to different ALL cell subtypes. We also found that PP's cell death activity was specific for leukemic cells, as primary normal immune cells were resistant to PP-mediated cell death. Metabolic studies indicated that PP, in part, inhibits mitochondrial oxidative phosphorylation. To increase the targeting of PP to a hypoxic bone tumor microenvironment (BTME) niche, we successfully encapsulated PP in a nanoparticle drug delivery system and demonstrated that it retained its anti-leukemic activity in a hemosphere assay. CONCLUSION: We have demonstrated that PP is a novel therapeutic lead compound that counteracts the respiratory reprogramming found in refractory ALL cells and can be effectively formulated into a nanoparticle delivery system to target the BTME.
Entities:
Keywords:
B cell acute lymphoblastic leukemia; drug resistance; mitochondrial respiration; nanoparticles
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