Morin as a Modulator of Hepatic Glucose Fluxes: A Balance Between Antihyperglycemic Potential and Mitochondrial Toxicity
Letícia Fernanda Nanami, Eduardo Makiyama Klosowski, Márcio Shigueaki Mito, Giovana Natiele Machado Esquissato, Gabriel Arcanjo Viana, Ana Clara Oliveira Abido, Mariane Carneiro da Silva, Ana Paula da Silva Mendonça, Gabriele Sauthier Romano de Melo, Paulo Sérgio Alves Bueno

TL;DR
Morin affects liver glucose metabolism by reducing glucose production and increasing glycogen breakdown, but it also harms mitochondria and reduces cell viability.
Contribution
The study reveals morin's dual impact on glucose regulation and mitochondrial toxicity in liver and kidney cells.
Findings
Morin inhibits gluconeogenesis and stimulates glycogenolysis in perfused rat livers.
Morin disrupts mitochondrial energy metabolism and reduces ATP levels in liver mitochondria.
Morin decreases cell viability in HepG2 and VERO cells, indicating toxicity.
Abstract
This study evaluated the acute effects of morin on gluconeogenesis and glycogenolysis, key metabolic pathways that maintain glycemia, in perfused rat livers. It also assessed the acute effects of morin on mitochondrial energy metabolism and toxicity in hepatic cancer cells (HepG2) and renal epithelial cells (VERO), alongside its impact on the activity of key enzymes. Liver perfusion experiments assessed glucose fluxes, oxygen consumption, adenine nucleotide levels, and enzyme activities. Isolated mitochondria evaluated the effects of morin on oxidative phosphorylation. Enzymatic assays and MTT tests conducted in vitro determined the effects on hepatic enzymes and cell viability. In perfused rat livers, morin generally inhibited gluconeogenesis from various substrates, stimulated glycogenolysis and glycolysis, and altered oxygen consumption. Experiments on morin biotransformation…
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Taxonomy
TopicsMitochondrial Function and Pathology · Pancreatic function and diabetes · Metabolism, Diabetes, and Cancer
