Your search keyword '"Molina, Anthony JA"' showing total 5 results

1. Mitochondrial morphology controls fatty acid utilization by changing CPT1 sensitivity to malonyl‐CoA

Author

Ngo, Jennifer, Choi, Dong Wook, Stanley, Illana A, Stiles, Linsey, Molina, Anthony JA, Chen, Pei‐Hsuan, Lako, Ana, Sung, Isabelle Chiao Han, Goswami, Rishov, Kim, Min‐young, Miller, Nathanael, Baghdasarian, Siyouneh, Kim‐Vasquez, Doyeon, Jones, Anthony E, Roach, Brett, Gutierrez, Vincent, Erion, Karel, Divakaruni, Ajit S, Liesa, Marc, Danial, Nika N, and Shirihai, Orian S

Subjects

Biochemistry and Cell Biology, Biological Sciences, Nutrition, Metabolic and endocrine, Fatty Acids, Malonyl Coenzyme A, Carnitine O-Palmitoyltransferase, Oxidation-Reduction, Mitochondria, CPT1, fatty acid oxidation, fission, fusion, mitochondrial dynamics, Information and Computing Sciences, Medical and Health Sciences, Developmental Biology, Biological sciences, Biomedical and clinical sciences

Abstract

Changes in mitochondrial morphology are associated with nutrient utilization, but the precise causalities and the underlying mechanisms remain unknown. Here, using cellular models representing a wide variety of mitochondrial shapes, we show a strong linear correlation between mitochondrial fragmentation and increased fatty acid oxidation (FAO) rates. Forced mitochondrial elongation following MFN2 over-expression or DRP1 depletion diminishes FAO, while forced fragmentation upon knockdown or knockout of MFN2 augments FAO as evident from respirometry and metabolic tracing. Remarkably, the genetic induction of fragmentation phenocopies distinct cell type-specific biological functions of enhanced FAO. These include stimulation of gluconeogenesis in hepatocytes, induction of insulin secretion in islet β-cells exposed to fatty acids, and survival of FAO-dependent lymphoma subtypes. We find that fragmentation increases long-chain but not short-chain FAO, identifying carnitine O-palmitoyltransferase 1 (CPT1) as the downstream effector of mitochondrial morphology in regulation of FAO. Mechanistically, we determined that fragmentation reduces malonyl-CoA inhibition of CPT1, while elongation increases CPT1 sensitivity to malonyl-CoA inhibition. Overall, these findings underscore a physiologic role for fragmentation as a mechanism whereby cellular fuel preference and FAO capacity are determined.

Published

2023

2. Skeletal Muscle Mitochondrial Respiration Is Elevated in Female Cynomolgus Macaques Fed a Western Compared with a Mediterranean Diet

Author

Gonzalez-Armenta, Jenny L, Gao, Zhengrong, Appt, Susan E, Vitolins, Mara Z, Michalson, Kristofer T, Register, Thomas C, Shively, Carol A, and Molina, Anthony JA

Subjects

Biomedical and Clinical Sciences, Nutrition and Dietetics, Obesity, Prevention, Nutrition, Complementary and Integrative Health, Diabetes, Metabolic and endocrine, Cardiovascular, Animals, Blood Glucose, Carnitine O-Palmitoyltransferase, Diet, Mediterranean, Diet, Western, Energy Metabolism, Fatty Acids, Female, Insulin, Insulin Resistance, Macaca fascicularis, Mitochondria, Muscle, Muscle, Skeletal, Western, Mediterranean, diet, skeletal muscle, mitochondria, bioenergetics, nonhuman primates, Animal Production, Food Sciences, Nutrition & Dietetics, Animal production, Food sciences, Nutrition and dietetics

Abstract

BackgroundWestern diets are associated with increased incidences of obesity, hypertension, diabetes, and hypercholesterolemia, whereas Mediterranean diets, richer in polyphenols, monounsaturated fats, fruits, vegetables, poultry, and fish, appear to have cardiometabolic health benefits. Previous work has included population-based studies with limited evidence for causation or animal studies focused on single macro- or micronutrients; therefore, primate animal models provide an opportunity to determine potential mechanisms underlying the effects of dietary patterns on health and disease.ObjectiveThe aim of this study was to determine the effects of whole dietary patterns, either a Western or Mediterranean diet, on skeletal muscle mitochondrial bioenergetics in cynomolgus macaques.MethodsIn this study, 22 adult female cynomolgus macaques (∼11-14 y by dentition) were fed either a Western or Mediterranean diet for 30 mo. The Western diet was designed to mimic the diet of a middle-aged American woman and the Mediterranean diet included key aspects of Mediterranean diets studied in humans, such as plant-based proteins and fat, complex carbohydrates, and fiber. Diets were matched on macronutrient composition (16% protein, 54% carbohydrate, and 31% fat) and cholesterol content. Skeletal muscle was collected for high-resolution respirometry, citrate synthase activity, and western blot measurements. Pearson correlation analysis between respirometry measures and measures of carbohydrate metabolism was also performed.ResultsWe found that consumption of a Western diet resulted in significantly higher mitochondrial respiration with fatty acid oxidation (FAO) (53%), FAO + complex I (52%), complex I + II (31%), max electron transport system (ETS) (31%), and ETS rotenone sensitive (31%) than did consumption of a Mediterranean diet. In addition, measures of respiration in response to fatty acids were significantly and positively correlated with both insulin resistance and plasma insulin concentrations.ConclusionsThis study highlights the importance of dietary composition in mitochondrial bioenergetics and that diet can influence skeletal muscle mitochondrial respiration independently of other factors such as macronutrient composition.

Published

2019

3. Blood-based bioenergetic profiling is related to differences in brain morphology in African Americans with Type 2 diabetes

Author

Mahapatra, Gargi, Smith, S Carrie, Hughes, Timothy M, Wagner, Benjamin, Maldjian, Joseph A, Freedman, Barry I, and Molina, Anthony JA

Subjects

Brain Disorders, Neurosciences, Diabetes, Clinical Research, Metabolic and endocrine, African Americans, Aged, Aged, 80 and over, Biomarkers, Brain, Cross-Sectional Studies, Diabetes Complications, Diabetes Mellitus, Type 2, Energy Metabolism, Female, Humans, Leukocytes, Mononuclear, Magnetic Resonance Imaging, Male, Middle Aged, Mitochondria, Predictive Value of Tests, Black or African American, bioenergetics, diabetes, mitochondria, neuroimaging, Medical and Health Sciences, Cardiovascular System & Hematology

Abstract

Blood-based bioenergetic profiling has promising applications as a minimally invasive biomarker of systemic bioenergetic capacity. In the present study, we examined peripheral blood mononuclear cell (PBMC) mitochondrial function and brain morphology in a cohort of African Americans with long-standing Type 2 diabetes. Key parameters of PBMC respiration were correlated with white matter, gray matter, and total intracranial volumes. Our analyses indicate that these relationships are primarily driven by the relationship of systemic bioenergetic capacity with total intracranial volume, suggesting that systemic differences in mitochondrial function may play a role in overall brain morphology.

Published

2018

4. Regulators of mitochondrial quality control differ in subcutaneous fat of metabolically healthy and unhealthy obese monkeys

Author

Kavanagh, Kylie, Davis, Ashley T, Peters, Diane E, LeGrand, Andre C, Bharadwaj, Manish S, and Molina, Anthony JA

Subjects

Biochemistry and Cell Biology, Biomedical and Clinical Sciences, Nutrition and Dietetics, Biological Sciences, Obesity, Nutrition, 2.1 Biological and endogenous factors, Aetiology, Stroke, Metabolic and endocrine, Oral and gastrointestinal, Cardiovascular, Adiponectin, Animals, Biomarkers, Chlorocebus aethiops, Disease Models, Animal, Macrophage Activation, Macrophages, Metabolic Syndrome, Mitochondria, Subcutaneous Fat, Uncoupling Protein 3, Endocrinology & Metabolism

Abstract

ObjectiveObesity exists with and without accompanying cardiometabolic disease, termed metabolically unhealthy obesity (MUO) and healthy obesity (MHO), respectively. Underlying differences in the ability of subcutaneous (SQ) fat to respond to nutrient excess are emerging as a key pathway. This study aimed to document the first spontaneous animal model of MHO and MUO and differences in SQ adipose tissue.MethodsVervet monkeys (Chlorocebus aethiops; N = 171) were screened for metabolic syndrome. A subset of MHO and MUO monkeys (n = 6/group) had SQ fat biopsies collected for histological evaluations and examination of key mitochondrial proteins.ResultsObesity was seen in 20% of monkeys, and within this population, 31% were healthy, which mirrors human prevalence estimates. MUO monkeys had more than 60% lower adiponectin concentrations despite similar fat cell size, uncoupling protein 3, and activated macrophage abundance. However, alternatively activated/anti-inflammatory macrophages were 70% lower. Deficiencies of 50% or more in mitochondrial quality control regulators and selected mitochondrial fission and fusion markers were observed in the SQ fat of MUO monkeys despite comparable mitochondrial content.ConclusionsA novel and translatable spontaneously obese animal model of MHO and MUO, occurring independently of dietary factors, was characterized. Differences in mitochondrial quality and inflammatory cell populations of subcutaneous fat may underpin divergent metabolic health.

Published

2017

5. Relationships between mitochondrial content and bioenergetics with obesity, body composition and fat distribution in healthy older adults

Author

Bharadwaj, Manish S, Tyrrell, Daniel J, Leng, Iris, Demons, Jamehl L, Lyles, Mary F, Carr, J Jeffrey, Nicklas, Barbara J, and Molina, Anthony JA

Subjects

Health Sciences, Sports Science and Exercise, Aging, Nutrition, Prevention, Clinical Research, Diabetes, Obesity, Metabolic and endocrine, Adiposity, Mitochondria, Muscle, Health services and systems, Public health

Abstract

BackgroundMitochondrial function declines with age; however, the relationship between adiposity and mitochondrial function among older adults is unclear. This study examined relationships between skeletal muscle mitochondrial content and electron transport chain complex 2 driven respiration with whole body and thigh composition, body fat distribution, and insulin sensitivity in older adults.Methods25 healthy, sedentary, weight-stable men (N = 13) and women (N = 12) >65 years of age, with a BMI range of 18-35 kg/m(2), participated in this study. Vastus lateralis biopsies were analyzed for citrate synthase (CS) activity and succinate mediated respiration of isolated mitochondria. Whole body and thigh composition were measured by DXA and CT. HOMA-IR was calculated using fasting glucose and insulin as an estimate of insulin sensitivity.ResultsSimilar to reports in middle-aged adults, skeletal muscle CS activity was negatively correlated with BMI (R = -0.43) in our cohort of older adults. Higher total and thigh adiposity were correlated with lower CS activity independent of BMI (R = -0.50 and -0.71 respectively). Maximal complex 2 driven mitochondrial respiration was negatively correlated with lower body adiposity in males (R = -0.66). In this cohort of non-diabetic older adults, both HOMA-IR and insulin were positively correlated with CS activity when controlling for BMI (R = 0.57 and 0.66 respectively).ConclusionsAdiposity and body composition are correlated with skeletal muscle mitochondrial content and electron transport chain function in healthy, sedentary, community dwelling, older adults. Specific relationships of mitochondrial bioenergetics with gender and insulin sensitivity are also apparent.Trial registrationClinicalTrials.gov identifier NCT01049698.

Published

2015