Metabolic modeling of muscle metabolism identifies key reactions linked to insulin resistance phenotypes
نویسندگان
چکیده
OBJECTIVE Dysregulated muscle metabolism is a cardinal feature of human insulin resistance (IR) and associated diseases, including type 2 diabetes (T2D). However, specific reactions contributing to abnormal energetics and metabolic inflexibility in IR are unknown. METHODS We utilize flux balance computational modeling to develop the first systems-level analysis of IR metabolism in fasted and fed states, and varying nutrient conditions. We systematically perturb the metabolic network to identify reactions that reproduce key features of IR-linked metabolism. RESULTS While reduced glucose uptake is a major hallmark of IR, model-based reductions in either extracellular glucose availability or uptake do not alter metabolic flexibility, and thus are not sufficient to fully recapitulate IR-linked metabolism. Moreover, experimentally-reduced flux through single reactions does not reproduce key features of IR-linked metabolism. However, dual knockdowns of pyruvate dehydrogenase (PDH), in combination with reduced lipid uptake or lipid/amino acid oxidation (ETFDH), does reduce ATP synthesis, TCA cycle flux, and metabolic flexibility. Experimental validation demonstrates robust impact of dual knockdowns in PDH/ETFDH on cellular energetics and TCA cycle flux in cultured myocytes. Parallel analysis of transcriptomic and metabolomics data in humans with IR and T2D demonstrates downregulation of PDH subunits and upregulation of its inhibitory kinase PDK4, both of which would be predicted to decrease PDH flux, concordant with the model. CONCLUSIONS Our results indicate that complex interactions between multiple biochemical reactions contribute to metabolic perturbations observed in human IR, and that the PDH complex plays a key role in these metabolic phenotypes.
منابع مشابه
AMP-activated protein kinase and muscle insulin resistance.
The Metabolic Syndrome, which includes obesity and type 2 diabetes, is reaching alarming proportions. A key factor is insulin resistance, defined as a reduced ability of insulin to stimulate glucose utilization and storage. Compelling evidence links insulin resistance with an excess fatty acid supply over energy need, resulting in lipid accumulation in non-adipose tissues. The AMPK pathway play...
متن کاملمکانیسم مولکولی دیسلیپیدمی متابولیک در وضعیتهای مقاومت به انسولین
Insulin resistant states are emerging rapidly and lots of efforts have gone into understanding their pathogenesis and major metabolic consequences. Hypertriglyceridemia, a major complication of this metabolic syndrome, seems to be caused by overproduction of lipoproteins (LPs) containing apo B that are rich in triglycerides. Some in vitro and in vivo models have been introduced so as to under...
متن کاملInvestigation on metabolism of cisplatin resistant ovarian cancer using a genome scale metabolic model and microarray data
Objective(s): Many cancer cells show significant resistance to drugs that kill drug sensitive cancer cells and non-tumor cells and such resistance might be a consequence of the difference in metabolism. Therefore, studying the metabolism of drug resistant cancer cells and comparison with drug sensitive and normal cell lines is the objective of this research. Material and Methods:Metabolism of c...
متن کاملAssociation of Pediatric Stress Hyperglycemia with Insulin Metabolism Disorders
Introduction: Transient hyperglycemia is a condition that happens during acute physiologic stress in children. The aim of this study is to determine if there is any relation between stress hyperglycemia and diabetes mellitus and metabolic syndrome in pediatric patients. Materials and Methods: The study was performed on children hospitalized in Amirkola pediatric hospital, North of Iran, bet...
متن کاملCross-talk between skeletal muscle and immune cells: muscle-derived mediators and metabolic implications.
Skeletal muscles contain resident immune cell populations and their abundance and type is altered in inflammatory myopathies, endotoxemia or different types of muscle injury/insult. Within tissues, monocytes differentiate into macrophages and polarize to acquire pro- or anti-inflammatory phenotypes. Skeletal muscle macrophages play a fundamental role in repair and pathogen clearance. These even...
متن کامل