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- Title
Modelling Metabolic Shifts during Cardiomyocyte Differentiation, Iron Deficiency and Transferrin Rescue Using Human Pluripotent Stem Cells.
- Authors
Johnson, Benjamin B.; Reinhold, Johannes; Holmes, Terri L.; Moore, Jamie A.; Cowell, Verity; Bernardo, Andreia S.; Rushworth, Stuart A.; Vassiliou, Vassilios; Smith, James G. W.
- Abstract
Cardiomyocytes rely on specialised metabolism to meet the high energy demand of the heart. During heart development, metabolism matures and shifts from the predominant utilisation of glycolysis and glutamine oxidation towards lactate and fatty acid oxidation. Iron deficiency (ID) leads to cellular metabolism perturbations. However, the exact alterations in substrate metabolism during ID are poorly defined. Using human induced pluripotent stem cell-derived cardiomyocytes (hiPSC-CM), the present study investigated changes in major metabolic substrate utilisation in the context of ID or upon transferrin rescue. Typically, during hiPSC-CM differentiation, the greatest increase in total metabolic output and rate was seen in fatty acid metabolism. When ID was induced, hiPSC-CMs displayed increased reliance on glycolytic metabolism, and six TCA cycle, five amino acid, and four fatty acid substrates were significantly impaired. Transferrin rescue was able to improve TCA cycle substrate metabolism, but the amino acid and fatty acid metabolism remained perturbed. Replenishing iron stores partially reverses the adverse metabolic changes that occur during ID. Understanding the changes in metabolic substrate utilisation and their modification may provide potential for discovery of new biomarkers and therapeutic targets in cardiovascular diseases.
- Subjects
PLURIPOTENT stem cells; TRANSFERRIN; HUMAN stem cells; IRON deficiency; METABOLIC models; FATTY acid oxidation
- Publication
Metabolites (2218-1989), 2022, Vol 12, Issue 1, p9
- ISSN
2218-1989
- Publication type
Article
- DOI
10.3390/metabo12010009