Skeletal muscle (SM) pain and fatigue are common in Fabry disease (FD). Here, we undertook the investigation of the energetic mechanisms related to FD-SM phenotype. A reduced tolerance to aerobic activity and lactate accumulation occurred in FD-mice and patients. Accordingly, in murine FD-SM we detected an increase in fast/glycolytic fibers, mirrored by glycolysis upregulation. In FD-patients, we confirmed a high glycolytic rate and the underutilization of lipids as fuel. In the quest for a tentative mechanism, we found HIF-1 upregulated in FD-mice and patients. This finding goes with miR-17 upregulation that is responsible for metabolic remodeling and HIF-1 accumulation. Accordingly, miR-17 antagomir inhibited HIF-1 accumulation, reverting the metabolic-remodeling in FD-cells. Our findings unveil a Warburg effect in FD, an anaerobic-glycolytic switch under normoxia induced by miR-17-mediated HIF-1 upregulation. Exercise-intolerance, blood-lactate increase, and the underlying miR-17/HIF-1 pathway may become useful therapeutic targets and diagnostic/monitoring tools in FD.
Experimental evidence and clinical implications of Warburg effect in the skeletal muscle of Fabry disease / Gambardella, Jessica; Fiordelisi, Antonella; Cerasuolo, Federica Andrea; Buonaiuto, Antonietta; Avvisato, Roberta; Viti, Alessandro; Sommella, Eduardo; Merciai, Fabrizio; Salviati, Emanuela; Campiglia, Pietro; D'Argenio, Valeria; Parisi, Silvia; Bianco, Antonio; Spinelli, Letizia; Di Vaia, Eugenio; Cuocolo, Alberto; Pisani, Antonio; Riccio, Eleonora; Di Risi, Teodolinda; Ciccarelli, Michele; Santulli, Gaetano; Sorriento, Daniela; Iaccarino, Guido. - In: ISCIENCE. - ISSN 2589-0042. - 26:3(2023), p. 106074. [10.1016/j.isci.2023.106074]
Experimental evidence and clinical implications of Warburg effect in the skeletal muscle of Fabry disease
Gambardella, Jessica;Fiordelisi, Antonella;Cerasuolo, Federica Andrea;Viti, Alessandro;Sommella, Eduardo;D'Argenio, Valeria;Parisi, Silvia;Bianco, Antonio;Spinelli, Letizia;Di Vaia, Eugenio;Cuocolo, Alberto;Pisani, Antonio;Riccio, Eleonora;Di Risi, Teodolinda;Ciccarelli, Michele;Santulli, Gaetano;Sorriento, Daniela;Iaccarino, Guido
2023
Abstract
Skeletal muscle (SM) pain and fatigue are common in Fabry disease (FD). Here, we undertook the investigation of the energetic mechanisms related to FD-SM phenotype. A reduced tolerance to aerobic activity and lactate accumulation occurred in FD-mice and patients. Accordingly, in murine FD-SM we detected an increase in fast/glycolytic fibers, mirrored by glycolysis upregulation. In FD-patients, we confirmed a high glycolytic rate and the underutilization of lipids as fuel. In the quest for a tentative mechanism, we found HIF-1 upregulated in FD-mice and patients. This finding goes with miR-17 upregulation that is responsible for metabolic remodeling and HIF-1 accumulation. Accordingly, miR-17 antagomir inhibited HIF-1 accumulation, reverting the metabolic-remodeling in FD-cells. Our findings unveil a Warburg effect in FD, an anaerobic-glycolytic switch under normoxia induced by miR-17-mediated HIF-1 upregulation. Exercise-intolerance, blood-lactate increase, and the underlying miR-17/HIF-1 pathway may become useful therapeutic targets and diagnostic/monitoring tools in FD.File | Dimensione | Formato | |
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