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2. Exercise reduces the protein abundance of TXNIP and its interacting partner REDD1 in skeletal muscle: potential role for a PKA-mediated mechanism

Author

Alec B. Chaves, Edwin R. Miranda, Jacob T. Mey, Brian K. Blackburn, Kelly N. Z. Fuller, Blaise Stearns, Andrew Ludlow, David L. Williamson, Joseph A. Houmard, and Jacob M. Haus

Subjects
Physiology, Physiology (medical), Humans, Insulin, Carrier Proteins, Muscle, Skeletal, Exercise, Oxidation-Reduction, Signal Transduction, Transcription Factors, Research Article
Abstract

Thioredoxin-interacting protein (TXNIP) negatively effects the redox state and growth signaling via its interactions with thioredoxin (TRX) and regulated in development and DNA damage response 1 (REDD1), respectively. TXNIP expression is downregulated by pathways activated during aerobic exercise (AE), via posttranslational modifications (PTMs; serine phosphorylation and ubiquitination). The purpose of this investigation was to determine the effects of acute AE on TXNIP expression, posttranslational modifications, and its interacting partners, REDD1 and TRX. Fifteen healthy adults performed 30 min of aerobic exercise (80% V̇o(2max)) with muscle biopsies taken before, immediately following, and 3 h following the exercise bout. To explore potential mechanisms underlying our in vivo findings, primary human myotubes were exposed to two models of exercise, electrical pulse stimulation (EPS) and palmitate-forskolin-ionomycin (PFI). Immediately following exercise, TXNIP protein decreased, but returned to preexercise levels 3 h after exercise. These results were replicated in our PFI exercise model only. Although not statistically significant, there was a trending main effect in serine-phosphorylation status of TXNIP (P = 0.07) immediately following exercise. REDD1 protein decreased 3 h after exercise. AE had no effect on TRX protein expression, gene expression, or the activity of its reducing enzyme, thioredoxin reductase. Consequently, AE had no effect on the TRX: TXNIP interaction. Our results indicate that AE leads to acute reductions in TXNIP and REDD1 protein expression. However, these changes did not result in alterations in the TRX: TXNIP interaction and could not be entirely explained by alterations in TXNIP PTMs or changes in TRX expression or activity. NEW & NOTEWORTHY Aerobic exercise is an effective tool in the prevention and treatment of several chronic metabolic diseases. However, the mechanisms through which these benefits are conferred have yet to be fully elucidated. Our data reveal a novel effect of aerobic exercise on reducing the protein expression of molecular targets that negatively impact redox and insulin/growth signaling in skeletal muscle. These findings contribute to the expanding repository of molecular signatures provoked by aerobic exercise.

Published
2023

3. Exercise increases NPY/AgRP and TH neuron activity in the hypothalamus of female mice

Author

Tony Nguyen, Katrina Free, Hu Huang, Daniel Shookster, Alec B. Chaves, and Taylor Landry

Subjects
medicine.medical_specialty, Tyrosine 3-Monooxygenase, Endocrinology, Diabetes and Metabolism, media_common.quotation_subject, Hypothalamus, Article, Mice, Endocrinology, Internal medicine, Physical Conditioning, Animal, medicine, Aerobic exercise, Animals, Agouti-Related Protein, Neuropeptide Y, media_common, Neurons, Tyrosine hydroxylase, business.industry, Appetite, Crossover study, medicine.anatomical_structure, nervous system, Immunohistochemistry, Female, Neuron, business, Intracellular
Abstract

Recent evidence identifies a potent role for aerobic exercise to modulate the activity of hypothalamic neurons related to appetite; however, these studies have been primarily performed in male rodents. Since females have markedly different neuronal mechanisms regulating food intake, the current study aimed to determine the effects of acute treadmill exercise on hypothalamic neuron populations involved in regulating appetite in female mice. Mature, untrained female mice were exposed to acute sedentary, low- (10 m/min), moderate- (14 m/min), and high (18 m/min)-intensity treadmill exercise in a randomized crossover design. Mice were fasted 10 h before exercise, and food intake was monitored for 48 h after bouts. Immunohistochemical detection of cFOS was performed 3 h post-exercise to determine the changes in hypothalamic neuropeptide Y (NPY)/agouti-related peptide (AgRP), pro-opiomelanocortin (POMC), tyrosine hydroxylase (TH), and SIM1-expressing neuron activity concurrent with the changes in food intake. Additionally, stains for pSTAT3tyr705 and pERKthr202/tyr204 were performed to detect exercise-mediated changes in intracellular signaling. Briefly, moderate- and high-intensity exercises increased 24-h food intake by 5.9 and 19%, respectively, while low-intensity exercise had no effects. Furthermore, increases in NPY/AgRPARC, SIM1PVN, and TH neuron activity were observed 3 h after high-intensity exercise, with no effects on POMCARC neurons. While no effects of exercise on pERKthr202/tyr204 were observed, pSTAT3tyr705 was elevated specifically in NPY/AgRP neurons 3 h post-exercise. Overall, aerobic exercise increased the activity of several appetite-stimulating neuron populations in the hypothalamus of female mice, which may provide insight into previously reported sexual dimorphisms in post-exercise feeding.

Published
2022

4. Order of concentric and eccentric muscle actions affects metabolic responses

Author

Benjamin M Meister, Samantha R. Guarnera, Dillon J Kuszmaul, Alec B. Chaves, Colleen E. Lynch, Zackary J. Valenti, Kerry E. Lynch, William A Fountain, Scott A Mazzetti, and Nicholas A. Carlini

Subjects
Male, medicine.medical_specialty, genetic structures, Once weekly, Physical Therapy, Sports Therapy and Rehabilitation, Squat, Concentric, Oxygen Consumption, Internal medicine, medicine, Eccentric, Humans, Orthopedics and Sports Medicine, Muscle, Skeletal, Exercise, business.industry, Resistance training, Skeletal muscle, Adaptation, Physiological, medicine.anatomical_structure, Metabolic rate, Cardiology, sense organs, medicine.symptom, business, Muscle contraction, Muscle Contraction
Abstract

Background Resistance exercise provides an effective stimulus for improving the metabolic plasticity of skeletal muscle, and the type of acute muscle contraction plays an important role in determining specific responses and adaptations. The purpose of the current investigation was to examine the effect of contraction order on metabolic responses by comparing monophasic concentric and eccentric squats versus a protocol incorporating alternated concentric and eccentric repetitions. Methods Twelve recreationally active men (21.1±1.1yr) performed three nearly identical squat protocols on separate days. Protocols varied only with contraction-type, including 4 sets x 10 reps concentric-only (CON), eccentric-only (ECC), and BOTH which alternated 5 concentric followed by 5 eccentric reps (CON-ECC; sets 1 and 3) and vice versa (ECC-CON; sets 2 and 4). The experimental trials were performed once weekly in a randomized, counterbalanced order, and expired gases were collected using a two-way non-rebreathing mask and oxygen consumption quantified with indirect calorimetry. Subjects raised (CON) and lowered (ECC) the load in 2s, and all sets (2min) and repetitions (8s) were separated by standardized rest intervals. Results From the BOTH protocol, the increase in metabolic rate was significantly greater (p≤0.05) during squats performed with CON-ECC order (0.60±0.11 L·min-1) compared to ECC-CON (0.44±0.07 L·min-1), but excess post-exercise oxygen consumption (EPOC) was opposite, with significantly greater metabolic rate during the 2-minute rest intervals after ECC-CON squats (0.46±0.09 L·min-1) compared to CON-ECC (0.25±0.05 L·min-1). Metabolic rates during and after squats were significantly greater (p±0.05) with CON (0.63±0.09; 0.49±0.10 L·min-1) compared to ECC (0.34±0.04; 0.20±0.04 L·min-1), respectively. Conclusions These data present an interesting paradigm regarding the contraction-dependent metabolic responses to monophasic resistance exercise and suggest a greater EPOC following concentric versus eccentric muscle actions.

Published
2021

5. The effects of aerobic exercise on markers of maternal metabolism during pregnancy

Author

Alec B. Chaves, Samantha M. McDonald, Pedro Acosta-Manzano, Christy M. Isler, Mary-Margaret Remchak, Nicholas T. Broskey, James E. deVente, Virginia A. Aparicio, Linda E. May, Cody Strom, Kelley Haven, and Edward R. Newton

Subjects
0301 basic medicine, Embryology, medicine.medical_specialty, Fingerstick, Health, Toxicology and Mutagenesis, medicine.medical_treatment, 030105 genetics & heredity, Toxicology, 03 medical and health sciences, Insulin resistance, Pregnancy, Internal medicine, medicine, Aerobic exercise, Humans, Insulin, Exercise, Triglycerides, Venipuncture, business.industry, medicine.disease, Lipids, 030104 developmental biology, Endocrinology, Pediatrics, Perinatology and Child Health, Gestation, Female, business, Body mass index, Biomarkers, Developmental Biology
Abstract

Background Optimal maternal metabolism during pregnancy is essential for healthy fetal growth and development. Chronic exercise is shown to positively affect metabolism, predominantly demonstrated in nonpregnant populations. Objective To determine the effects of aerobic exercise on maternal metabolic biomarkers during pregnancy, with expected lower levels of glucose, insulin, and lipids among exercise-trained pregnant women. Methods Secondary data analyses were performed using data from two, longitudinal prenatal exercise intervention studies (ENHANCED by MOM and GESTAFIT). Exercisers completed 150 min of weekly moderate-intensity exercise during pregnancy (24+ weeks) while nonexercisers attended stretching sessions. Pregnant women were 31-33 years of age, predominantly non-Hispanic white, and "normal weight" body mass index. At 16 and 36 weeks of gestation, fasting blood samples were collected via fingerstick and venipuncture. Maternal glucose, insulin, insulin resistance (HOMA-IR), total cholesterol (TC), low-density lipoproteins (LDL), high-density lipoproteins (HDL), and triglycerides (TG) were analyzed. ANCOVA analyses were performed to evaluate the effects of aerobic exercise on markers of maternal metabolism in late pregnancy, controlling for baseline levels. Results Our sample included 12 aerobic exercisers and 54 nonexercising control groups. Significant between-groups differences at 16 weeks of gestation were found for TG (92.3 vs. 121.2 mg/dl, p = .04), TC (186.8 vs. 219.6 mg/dl, p = .002), and LDL (104.1 vs. 128.8 mg/dl, p = .002). Aerobic-trained pregnant women exhibited lower insulin levels in late pregnancy (β = -2.6 μIU/ml, 95% CI:-4.2, -0.95, p = .002) and a reduced increase in insulin levels from 16 to 36 week of gestation (β = -2.3 μIU/ml, 95% CI: -4.4, -0.2, p = .034) compared with nonexercising pregnant women. No statistically significant effects were observed for maternal HOMA-IR, TC, LDL, HDL, TC:HDL, and TG in late pregnancy. Conclusions The observations of this study demonstrate that prenatal exercise may positively affect maternal insulin, with aerobic-trained pregnant women exhibiting lower insulin levels in late pregnancy. Additionally, we found no appreciable effects of prenatal exercise on maternal lipids in late pregnancy.

Published
2020

6. 1328-P: Infant Mesenchymal Stem Cell Insulin Sensitivity Is Associated with Maternal Plasma-Free Fatty Acids, Independent of Obesity Status: The Healthy Start Study

Author

Donghai Zheng, Dana Dabelea, Jonathan A. Johnson, Alec B. Chaves, Joseph A. Houmard, and Kristen E. Boyle

Subjects
chemistry.chemical_classification, medicine.medical_specialty, Pregnancy, Offspring, business.industry, Endocrinology, Diabetes and Metabolism, Insulin, medicine.medical_treatment, Mesenchymal stem cell, Fatty acid, Type 2 diabetes, medicine.disease, Obesity, Endocrinology, Insulin resistance, chemistry, Internal medicine, Internal Medicine, medicine, business
Abstract

Introduction: Maternal obesity is associated with greater neonatal adiposity and increased offspring risk for type 2 diabetes (T2D) later in life. We have previously reported that mesenchymal stem cells (MSCs) isolated from umbilical cord tissue maintain similar metabolic phenotype to the infant, particularly when differentiated to adipocytes or myocytes. A well-established driver in the pathogenesis of T2D is skeletal muscle insulin resistance. Therefore, we hypothesized that MSCs from infants born to mothers with obesity would display insulin resistance when differentiated to myocytes. Objectives: The objective was to determine the effect of maternal obesity on offspring MSC insulin sensitivity (Si). Methods: MSCs were isolated from umbilical cord tissue from offspring born to either normal weight (BMI 21.1 ± 0.9, n = 9) or obese (BMI 32.9 ± 2.1, n = 10) mothers enrolled in the Healthy Start pre-birth cohort study in Colorado. Following differentiation into skeletal muscle myocytes, MSCs were serum starved and incubated with 14C-glucose, in the presence or absence of insulin. The rate of insulin-mediated 14C-glucose incorporation into glycogen, was used as an index of offspring Si. Results: Offspring Si did not correlate with maternal BMI (r = 0.26), nor was BMI different between groups when median-stratified by offspring Si. However, maternal free fatty acid levels positively correlated with offspring Si (r = 0.63, p < 0.05) and were significantly elevated in the high Si group (low Si vs. high Si; 332.1 ± 30.9 vs. 483.3 ± 48.7 uEq/L, p < 0.05). Conclusions: Offspring Si was not related to the BMI of the mother. Moreover, offspring Si was higher in cells from infants born to mothers with higher free fatty acids during pregnancy. Considering the role of insulin in somatic growth pathways, this phenomenon may serve to increase available nutrient storage capacity during early development. Disclosure A.B. Chaves: None. J.A. Johnson: None. D. Zheng: None. D. Dabelea: None. J.A. Houmard: None. K.E. Boyle: None. Funding American Heart Association (14PRE18230008); Nutrition Obesity Research Center (P30DK048520); National Institutes of Health (R01DK076648); Colorado National Center for Advancing Translational Sciences (UL1TR001082)

Published
2020
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7. Dicarbonyl stress and glyoxalase enzyme system regulation in human skeletal muscle

Author

Brian K. Blackburn, Edwin R. Miranda, Joan Briller, Jacob T. Mey, Jacob M. Haus, Marcelo G. Bonini, and Alec B. Chaves

Subjects
Adult, Blood Glucose, Male, 0301 basic medicine, NF-E2-Related Factor 2, Physiology, medicine.medical_treatment, 030209 endocrinology & metabolism, Quadriceps Muscle, Triosephosphate isomerase, Protein Carbonylation, 03 medical and health sciences, chemistry.chemical_compound, Lactoylglutathione lyase, 0302 clinical medicine, Insulin resistance, Aldehyde Reductase, Physiology (medical), medicine, Humans, Insulin, Glyceraldehyde 3-phosphate dehydrogenase, Kelch-Like ECH-Associated Protein 1, biology, Methylglyoxal, Lactoylglutathione Lyase, nutritional and metabolic diseases, Glyceraldehyde-3-Phosphate Dehydrogenases, Skeletal muscle, Middle Aged, medicine.disease, KEAP1, 030104 developmental biology, medicine.anatomical_structure, Diabetes Mellitus, Type 2, chemistry, Biochemistry, Case-Control Studies, biology.protein, Female, Insulin Resistance, Triose-Phosphate Isomerase, Research Article
Abstract

Skeletal muscle insulin resistance is a hallmark of Type 2 diabetes (T2DM) and may be exacerbated by protein modifications by methylglyoxal (MG), known as dicarbonyl stress. The glyoxalase enzyme system composed of glyoxalase 1/2 (GLO1/GLO2) is the natural defense against dicarbonyl stress, yet its protein expression, activity, and regulation remain largely unexplored in skeletal muscle. Therefore, this study investigated dicarbonyl stress and the glyoxalase enzyme system in the skeletal muscle of subjects with T2DM (age: 56 ± 5 yr.; BMI: 32 ± 2 kg/m2) compared with lean healthy control subjects (LHC; age: 27 ± 1 yr.; BMI: 22 ± 1 kg/m2). Skeletal muscle biopsies obtained from the vastus lateralis at basal and insulin-stimulated states of the hyperinsulinemic (40 mU·m−2·min−1)–euglycemic (5 mM) clamp were analyzed for proteins related to dicarbonyl stress and glyoxalase biology. At baseline, T2DM had increased carbonyl stress and lower GLO1 protein expression (−78.8%), which inversely correlated with BMI, percent body fat, and HOMA-IR, while positively correlating with clamp-derived glucose disposal rates. T2DM also had lower NRF2 protein expression (−31.6%), which is a positive regulator of GLO1, while Keap1 protein expression, a negative regulator of GLO1, was elevated (207%). Additionally, insulin stimulation during the clamp had a differential effect on NRF2, Keap1, and MG-modified protein expression. These data suggest that dicarbonyl stress and the glyoxalase enzyme system are dysregulated in T2DM skeletal muscle and may underlie skeletal muscle insulin resistance. Whether these phenotypic differences contribute to the development of T2DM warrants further investigation.

Published
2018
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8. Effect Of Maternal Aerobic Exercise On Glucose And Lipid Metabolism In Offspring Mesenchymal Stem Cells: The Enhanced By Mom Study

Author

James E. deVente, Nicholas T. Broskey, Christy M. Isler, Alec B. Chaves, Polina M. Krassovskaia, Joseph A. Houmard, Donghai Zheng, and Linda E. May

Subjects
medicine.medical_specialty, Endocrinology, Offspring, Internal medicine, Mesenchymal stem cell, medicine, Aerobic exercise, Physical Therapy, Sports Therapy and Rehabilitation, Orthopedics and Sports Medicine, Lipid metabolism, Biology
Published
2021
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9. Influence Of Aerobic Exercise On Select Cytokine And Hormone Levels In Pregnant Women

Author

Nicholas T. Broskey, Mary Remchak, Cody Strom, Linda E. May, Alec B. Chaves, and Samantha M. McDonald

Subjects
medicine.medical_specialty, Cytokine, Endocrinology, business.industry, medicine.medical_treatment, Internal medicine, medicine, Aerobic exercise, Physical Therapy, Sports Therapy and Rehabilitation, Orthopedics and Sports Medicine, business, Hormone
Published
2020
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10. Electrical pulse stimulation induces differential responses in insulin action in myotubes from severely obese individuals

Author

Charles J. Tanner, Sanghee Park, Joseph A. Houmard, Thomas Nielsen, Jonas T. Treebak, Kristen D. Turner, Donghai Zheng, Jeffrey J. Brault, Kai Zou, and Alec B. Chaves

Subjects
0301 basic medicine, Adult, medicine.medical_specialty, Physiology, Glucose uptake, medicine.medical_treatment, Muscle Fibers, Skeletal, 03 medical and health sciences, 0302 clinical medicine, Internal medicine, Medicine, Humans, Insulin, Obesity, Exercise, Cells, Cultured, biology, Myogenesis, business.industry, Skeletal muscle, Electric Stimulation, IRS1, Insulin receptor, 030104 developmental biology, Endocrinology, medicine.anatomical_structure, Glucose, biology.protein, Female, medicine.symptom, business, 030217 neurology & neurosurgery, GLUT4, Muscle contraction, Muscle Contraction, Signal Transduction
Abstract

KEY POINTS: Exercise/exercise training can enhance insulin sensitivity through adaptations in skeletal muscle, the primary site of insulin‐mediated glucose disposal; however, in humans the range of improvement can vary substantially. The purpose of this study was to determine if obesity influences the magnitude of the exercise response in relation to improving insulin sensitivity in human skeletal muscle. Electrical pulse stimulation (EPS; 24 h) of primary human skeletal muscle myotubes improved insulin action in tissue from both lean and severely obese individuals, but responses to EPS were blunted with obesity. EPS improved insulin signal transduction in myotubes from lean but not severely obese subjects and increased AMP accumulation and AMPK Thr(172) phosphorylation, but to a lesser degree in myotubes from the severely obese. These data reveal that myotubes of severely obese individuals enhance insulin action and stimulate exercise‐responsive molecules with contraction, but in a manner and magnitude that differs from lean subjects. ABSTRACT: Exercise/muscle contraction can enhance whole‐body insulin sensitivity; however, in humans the range of improvements can vary substantially. In order, to determine if obesity influences the magnitude of the exercise response, this study compared the effects of electrical pulse stimulation (EPS)‐induced contractile activity upon primary myotubes derived from lean and severely obese (BMI ≥ 40 kg/m(2)) women. Prior to muscle contraction, insulin action was compromised in myotubes from the severely obese as was evident from reduced insulin‐stimulated glycogen synthesis, glucose oxidation, glucose uptake, insulin signal transduction (IRS1, Akt, TBC1D4), and insulin‐stimulated GLUT4 translocation. EPS (24 h) increased AMP, IMP, AMPK Thr(172) phosphorylation, PGC1α content, and insulin action in myotubes of both the lean and severely obese subjects. However, despite normalizing indices of insulin action to levels seen in the lean control (non‐EPS) condition, responses to EPS were blunted with obesity. EPS improved insulin signal transduction in myotubes from lean but not severely obese subjects and EPS increased AMP accumulation and AMPK Thr(172) phosphorylation, but to a lesser degree in myotubes from the severely obese. These data reveal that myotubes of severely obese individuals enhance insulin action and stimulate exercise‐responsive molecules with contraction, but in a manner and magnitude that differs from lean subjects.

Published
2018

11. Increases in insulin signaling following electrical pulse stimulation are blunted in myotubes derived from severely obese individuals with or without type 2 diabetes

Author

Joseph A. Houmard, Seongkyun Lim, Alec B. Chaves, and Donghai Zheng

Subjects
medicine.medical_specialty, biology, Myogenesis, Pulse (signal processing), business.industry, Stimulation, Type 2 diabetes, medicine.disease, Biochemistry, Insulin receptor, Endocrinology, Internal medicine, Genetics, biology.protein, medicine, business, Molecular Biology, Biotechnology
Published
2018
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15. Comparability of Tendo Weightlifting Analyzer with Recreational and Explosive Bench Press Exercise

Author

Alec B. Chaves, Joseph C. Watso, Asif Shakur, Scott A. Mazzetti, Victoria R. Meyers, Patrick Ferraran, William M. Castor, and Thomas Heinbockel

Subjects
Engineering, Spectrum analyzer, Aeronautics, Explosive material, business.industry, Comparability, Physical Therapy, Sports Therapy and Rehabilitation, Orthopedics and Sports Medicine, business, Bench press, Recreation
Published
2015
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