84 results on '"Koumanov F"'
Search Results
2. Ensilicated tetanus antigen retains immunogenicity: in vivo study and time-resolved SAXS characterization
- Author
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Doekhie, A., Dattani, R., Chen, Y-C., Yang, Y., Smith, A., Silve, A. P., Koumanov, F., Wells, S. A., Edler, K. J., Marchbank, K. J., Elsen, J. M. H. van den, and Sartbaeva, A.
- Published
- 2020
- Full Text
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3. Glucagon-like peptide-1 secretion in people with versus without type 2 diabetes:a systematic review and meta-analysis of cross-sectional studies
- Author
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Watkins, J D, Carter, S, Atkinson, G, Koumanov, F, Betts, J A, Holst, J.J., Gonzalez, J T, Watkins, J D, Carter, S, Atkinson, G, Koumanov, F, Betts, J A, Holst, J.J., and Gonzalez, J T
- Abstract
AIMS/HYPOTHESIS: The aim of this systematic review was to synthesise the study findings on whether GLP-1 secretion in response to a meal tolerance test is affected by the presence of type 2 diabetes (T2D). The influence of putative moderators such as age, sex, meal type, meal form, and assay type were also explored.METHODS: A literature search identified 32 relevant studies. The sample mean and SD for fasting GLP-1 TOTAL and GLP-1 TOTAL iAUC were extracted and used to calculate between-group standardised mean differences (SMD), which were meta-analysed using a random-effects model to derive pooled estimates of Hedges' g and 95 % prediction intervals (PI). RESULTS: Pooled across 18 studies, the overall SMD in GLP-1 TOTAL iAUC between individuals with T2D (n = 270, 1047 ± 930 pmol·L -1·min) and individuals without T2D (n = 402, 1204 ± 937 pmol·L -1·min) was very small, not statistically significant and heterogenous across studies (g = -0.15, p = 0.43, PI: -1.53, 1.23). Subgroup analyses demonstrated an effect of assay type whereby Hedges' g for GLP-1 iAUC was greater in individuals with, versus those without, T2D when using ELISA or Mesoscale (g = 0.67 [moderate], p = 0.009), but not when using RIA (g = -0.30 [small], p = 0.10). Pooled across 30 studies, the SMD in fasting GLP-1 TOTAL between individuals with T2D (n = 580, 16.2 ± 6.9 pmol·L -1) versus individuals without T2D (n = 1363, 12.4 ± 5.7 pmol·L -1) was small and heterogenous between studies (g = 0.24, p = 0.21, PI: -1.55, 2.02). CONCLUSIONS: Differences in fasting GLP-1 TOTAL and GLP-1 TOTAL iAUC between individuals with, versus those without T2D were generally small and inconsistent between studies. Factors influencing study heterogeneity such as small sample sizes and poor matching of groups may help to explain the wide prediction intervals observed. Considerations to improve comparisons of GLP-1 secretion in T2D and potential mediating factors more important than T2D diagnosis per s
- Published
- 2023
4. Physiological and molecular responses to an acute bout of reduced-exertion high-intensity interval training (REHIT)
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Metcalfe, R. S., Koumanov, F., Ruffino, J. S., Stokes, K. A., Holman, G. D., Thompson, D., and Vollaard, N. B. J.
- Published
- 2015
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5. Identification of Rab proteins as regulated intermediates in insulin and energy status stimulated GLUT4 trafficking: A86 (P32)
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Koumanov, F, Pereira, V, Fazakerley, D J, Richardson, J R, and Holman, G D
- Published
- 2011
6. Thermal resilience of ensilicated lysozyme via calorimetric and in vivo analysis
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Doekhie, A., primary, Slade, M. N., additional, Cliff, L., additional, Weaver, L., additional, Castaing, R., additional, Paulin, J., additional, Chen, Y.-C., additional, Edler, K. J., additional, Koumanov, F., additional, Marchbank, K. J., additional, van den Elsen, J. M. H., additional, and Sartbaeva, A., additional
- Published
- 2020
- Full Text
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7. Mechanisms contributing to lactose and sucrose-induced postprandial lipaemia.
- Author
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Gonzalez, J., Carter, S., Spellanzon, B., Bradshaw, L., Johnson, E., Koumanov, F., Betts, J. A., Thompson, D., and Hodson, L.
- Abstract
Fructose-containing sugars can exaggerate postprandial lipaemia and stimulate hepatic de novo lipogenesis (DNL) when compared to glucose-based carbohydrates(1). Galactose has recently been shown to increase postprandial lipaemia compared to glucose(2), but mechanisms remain uncharacterised. The aim of this study was to assess the effect and mechanisms of lactose-induced lipaemia. Twenty-four non-obese adults (12 male and 12 female) completed three trials in a randomised, crossover design (28 ± 7-day washout). During trials, participants consumed test drinks containing 50 g fat with 100 g of carbohydrate. The control carbohydrate was a glucose polymer (maltodextrin), the experimental carbohydrate was galactose-containing carbohydrate (lactose) and the active comparator was fructose-containing carbohydrate (sucrose). Hepatic DNL was assessed by the
2 H2 O method and [U-13 C]-palmitate was added to the test drink to trace the fate of the ingested fat. Blood and breath samples were taken to determine plasma metabolite and hormone concentrations, in addition to plasma and breath2 H and13 C enrichments. Data were converted into incremental under the curve (iAUC) and were checked for normality by visual inspection of residuals. Differences between trials were assessed by one-way ANOVA. Where a main effect of trial was detected, post- hoc t-tests were performed to determine which trials differed from lactose according to the principle of closed-loop testing. The plasma triacylglycerol iAUC (mean ± SD) in response to maltodextrin was 51 ± 68 mmol/L*360 min. Following lactose ingestion, plasma triacylglycerol iAUC increased to 98 ± 88 mmol/L*360 min (p<0.001 vs maltodextrin), which was comparable to sucrose [90 ± 95 mmol/L*360 min (p=0.41 vs lactose)]. Hepatic DNL in response to maltodextrin was 6.6 ± 3.0%. Following ingestion of lactose, hepatic DNL increased to 12.4 ± 6.9% (p=0.02 vs maltodextrin), which was comparable to sucrose [12.2 ± 6.9% (p=0.96 vs lactose)]. Exhaled13 CO2 in response to maltodextrin was 10.4 ± 4.1 mmol/kgFFM*360 min. Following ingestion of lactose, exhaled13 CO2 was 8.8 ± 4.9 mmol/kgFFM*360 min (p=0.09 vs maltodextrin), which was lower than sucrose [11.1 ± 3.9 mmol/kgFFM*360 min (p=0.01 vs lactose)]. These data are consistent with the hypothesis that hepatic de novo lipogenesis contributes to both lactose and sucrose-induced lipaemia and provide a rationale to investigate the longer-term effects of lactose and sucrose on metabolism. [ABSTRACT FROM AUTHOR]- Published
- 2024
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8. Lipid metabolism links nutrient-exercise timing to insulin sensitivity in men classified as overweight or obese
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Edinburgh, R.M., primary, Bradley, H.E, additional, Abdullah, N-F., additional, Robinson, S.L., additional, Chrzanowski-Smith, O.J., additional, Walhin, J-P., additional, Joanisse, S., additional, Manolopoulos, K.N., additional, Philp, A., additional, Hengist, A., additional, Chabowski, A., additional, Brodsky, F.M., additional, Koumanov, F., additional, Betts, J.A., additional, Thompson, D., additional, Wallis, G. A., additional, and Gonzalez, J.T., additional
- Published
- 2019
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9. Association of AP1 adaptor complexes with GLUT4 vesicles
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Gillingham, A.K., primary, Koumanov, F., additional, Pryor, P.R., additional, Reaves, B.J., additional, and Holman, G.D., additional
- Published
- 1999
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10. Biological studies of analogues of glucose iodinated in positions 1, 2, or 3
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Koumanov, F., primary, Henry, C., additional, Ghezzi, C., additional, Bignan, G., additional, Morin, C., additional, Mathieu, J.-P., additional, Hamant, S., additional, Vidal, M., additional, de Leiris, J., additional, and Comet, M., additional
- Published
- 1996
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11. Experimental models, protocols, and reference values for evaluation of iodinated analogues of glucose
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Henry, C., primary, Koumanov, F., additional, Ghezzi, C., additional, Mathieu, J.P., additional, Hamant, S., additional, De Leiris, J., additional, and Comet, M., additional
- Published
- 1995
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12. Involvement of the glutathione S-conjugate compounds and the MRP protein in Tc-99m-tetrofosmin and Tc-99m-sestamibi uptake in glioma cell lines
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Perek, N., Prevot, N., Koumanov, F., Frere, D., Sabido, O., Beauchesne, P., and Dubois, F.
- Published
- 2000
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13. Biological Evaluation of Two Anometic Glucose Analogues Iodinated in Position 6
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Koumanov, F., Henry, C., Ghezzi, C., Mathieu, J.-P., Morin, C., Vidal, M., Leiris, J. De, Comet, M., and Fagret, D.
- Published
- 1997
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14. [^1^2^3I]-6-Deoxy-6-Iodo-D-Glucose (6DIG): A Potential Tracer of Glucose Transport
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Henry, C., Koumanov, F., Ghezzi, C., Morin, C., Mathieu, J.-P., Vidal, M., Leiris, J. De, Comet, M., and Fagret, D.
- Published
- 1997
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15. Thermal Stabilisation of Lysozyme through Ensilication.
- Author
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Abdulkareem RA, Doekhie A, Fotaki N, Koumanov F, Dodson CA, and Sartbaeva A
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- Temperature, Hot Temperature, Buffers, Muramidase chemistry, Enzyme Stability, Silicon Dioxide chemistry
- Abstract
Protein therapeutics, vaccines, and other commercial products are often sensitive to environmental factors, such as temperature and long-term storage. In many cases, long-term protein stability is achieved by refrigeration or freezing. One alternative is the encapsulation of the protein cargo within an inert silica matrix (ensilication) and storage or transport at room temperature as a dry powder. In this paper, we test the effect of three commonly used biological buffers on the ensilication, storage, and desilication of the enzyme lysozyme. We show that ensilication protects lysozyme from heat (100 °C for 1 h) and during storage (18 months at room temperature). The choice of ensilication buffer has little effect on the activity of lysozyme after desilication. Our results provide confidence in the continued pursuit of ensilication as a methodology for protein stabilisation and in its compatibility with biological buffers.
- Published
- 2024
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16. Ketogenic diet but not free-sugar restriction alters glucose tolerance, lipid metabolism, peripheral tissue phenotype, and gut microbiome: RCT.
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Hengist A, Davies RG, Walhin JP, Buniam J, Merrell LH, Rogers L, Bradshaw L, Moreno-Cabañas A, Rogers PJ, Brunstrom JM, Hodson L, van Loon LJC, Barton W, O'Donovan C, Crispie F, O'Sullivan O, Cotter PD, Proctor K, Betts JA, Koumanov F, Thompson D, and Gonzalez JT
- Subjects
- Humans, Male, Adult, Female, Phenotype, Energy Metabolism physiology, Blood Glucose metabolism, Middle Aged, Diet, Ketogenic, Gastrointestinal Microbiome physiology, Lipid Metabolism physiology
- Abstract
Restricted sugar and ketogenic diets can alter energy balance/metabolism, but decreased energy intake may be compensated by reduced expenditure. In healthy adults, randomization to restricting free sugars or overall carbohydrates (ketogenic diet) for 12 weeks reduces fat mass without changing energy expenditure versus control. Free-sugar restriction minimally affects metabolism or gut microbiome but decreases low-density lipoprotein cholesterol (LDL-C). In contrast, a ketogenic diet decreases glucose tolerance, increases skeletal muscle PDK4, and reduces AMPK and GLUT4 levels. By week 4, the ketogenic diet reduces fasting glucose and increases apolipoprotein B, C-reactive protein, and postprandial glycerol concentrations. However, despite sustained ketosis, these effects are no longer apparent by week 12, when gut microbial beta diversity is altered, possibly reflective of longer-term adjustments to the ketogenic diet and/or energy balance. These data demonstrate that restricting free sugars or overall carbohydrates reduces energy intake without altering physical activity, but with divergent effects on glucose tolerance, lipoprotein profiles, and gut microbiome., Competing Interests: Declaration of interests P.D.C. is a co-founder and CTO of SeqBiome Ltd. J.T.G. has received research funding from BBSRC, MRC, Cancer Research UK, the British Heart Foundation, Clasado Biosciences, Lucozade Ribena Suntory, Arla Foods Ingredients, the Cosun Nutrition Center, and the Fruit Juice Science Center; is a scientific advisory board member to ZOE; and has completed paid consultancy for 6d Sports Nutrition, The Dairy Council, PepsiCo, Violicom Medical, Tour Racing Ltd., and SVGC. J.A.B. is an investigator on research grants funded by BBSRC, MRC, the British Heart Foundation, Rare Disease Foundation, EU Hydration Institute, GlaxoSmithKline, Nestlé, Lucozade Ribena Suntory, Arla Foods, Cosun Nutrition Center, American Academy of Sleep Medicine Foundation, and Salus Optima (L3M Technologies Ltd.); has completed paid consultancy for PepsiCo, Kellogg’s, SVGC, and Salus Optima (L3M Technologies Ltd.); is Company Director of Metabolic Solutions Ltd.; receives an annual honorarium as a member of the academic advisory board for the International Olympic Committee Diploma in Sports Nutrition; and receives an annual stipend as Editor-in-Chief of International Journal of Sport Nutrition & Exercise Metabolism., (Copyright © 2024 The Author(s). Published by Elsevier Inc. All rights reserved.)
- Published
- 2024
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17. Myths and Methodologies: Standardisation in human physiology research-should we control the controllables?
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Merrell LH, Perkin OJ, Bradshaw L, Collier-Bain HD, Collins AJ, Davies S, Eddy R, Hickman JA, Nicholas AP, Rees D, Spellanzon B, James LJ, McKay AKA, Smith HA, Turner JE, Koumanov F, Maher J, Thompson D, Gonzalez JT, and Betts JA
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- Humans, Research Design standards, Female, Menstrual Cycle physiology, Physiology standards, Physiology methods
- Abstract
The premise of research in human physiology is to explore a multifaceted system whilst identifying one or a few outcomes of interest. Therefore, the control of potentially confounding variables requires careful thought regarding the extent of control and complexity of standardisation. One common factor to control prior to testing is diet, as food and fluid provision may deviate from participants' habitual diets, yet a self-report and replication method can be flawed by under-reporting. Researchers may also need to consider standardisation of physical activity, whether it be through familiarisation trials, wash-out periods, or guidance on levels of physical activity to be achieved before trials. In terms of pharmacological agents, the ethical implications of standardisation require researchers to carefully consider how medications, caffeine consumption and oral contraceptive prescriptions may affect the study. For research in females, it should be considered whether standardisation between- or within-participants in regards to menstrual cycle phase is most relevant. The timing of measurements relative to various other daily events is relevant to all physiological research and so it can be important to standardise when measurements are made. This review summarises the areas of standardisation which we hope will be considered useful to anyone involved in human physiology research, including when and how one can apply standardisation to various contexts., (© 2024 The Authors. Experimental Physiology published by John Wiley & Sons Ltd on behalf of The Physiological Society.)
- Published
- 2024
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18. Effects of physical form of β -lactoglobulin and calcium ingestion on GLP-1 secretion, gastric emptying and energy intake in humans: a randomised crossover trial.
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Watkins JD, Smith HA, Hengist A, Nielsen SB, Mikkelsen UR, Saunders J, Koumanov F, Betts JA, and Gonzalez JT
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- Humans, Male, Female, Adult, Double-Blind Method, Young Adult, Dietary Supplements, Postprandial Period, Calcium metabolism, Cross-Over Studies, Gastric Emptying, Glucagon-Like Peptide 1 blood, Glucagon-Like Peptide 1 metabolism, Energy Intake, Lactoglobulins metabolism, Calcium, Dietary administration & dosage
- Abstract
The aim of this study was to assess whether adding Ca
2+ to aggregate or native forms of β -lactoglobulin alters gut hormone secretion, gastric emptying rates and energy intake in healthy men and women. Fifteen healthy adults (mean ± sd: 9M/6F, age: 24 ± 5 years) completed four trials in a randomised, double-blind, crossover design. Participants consumed test drinks consisting of 30 g of β -lactoglobulin in a native form with (NATIVE + MINERALS) and without (NATIVE) a Ca2+ -rich mineral supplement and in an aggregated form both with (AGGREG + MINERALS) and without the mineral supplement (AGGREG). Arterialised blood was sampled for 120 min postprandially to determine gut hormone concentrations. Gastric emptying was determined using13 C-acetate and13 C-octanoate, and energy intake was assessed with an ad libitum meal at 120 min. A protein × mineral interaction effect was observed for total glucagon-like peptide-1 (GLP-1TOTAL ) incremental AUC (iAUC; P < 0·01), whereby MINERALS + AGGREG increased GLP-1TOTAL iAUC to a greater extent than AGGREG (1882 ± 603 v . 1550 ± 456 pmol·l-1 ·120 min, P < 0·01), but MINERALS + NATIVE did not meaningfully alter the GLP-1 iAUC compared with NATIVE (1669 ± 547 v . 1844 ± 550 pmol·l-1 ·120 min, P = 0·09). A protein × minerals interaction effect was also observed for gastric emptying half-life ( P < 0·01) whereby MINERALS + NATIVE increased gastric emptying half-life compared with NATIVE (83 ± 14 v . 71 ± 8 min, P < 0·01), whereas no meaningful differences were observed between MINERALS + AGGREG v . AGGREG ( P = 0·70). These did not result in any meaningful changes in energy intake (protein × minerals interaction, P = 0·06). These data suggest that the potential for Ca2+ to stimulate GLP-1 secretion at moderate protein doses may depend on protein form. This study was registered at clinicaltrials.gov (NCT04659902).- Published
- 2024
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19. Influence of traumatic lower-limb amputation on physical activity, body composition, and cardiometabolic risks: A descriptive preliminary study.
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Ladlow P, Nightingale TE, McGuigan MP, Bennett AN, Koumanov F, Phillip R, and Bilzon JLJ
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- Male, Humans, Adult, Young Adult, Lower Extremity, Prospective Studies, Activities of Daily Living, Amputation, Surgical, Exercise, Amputation, Traumatic, Cardiovascular Diseases
- Abstract
Background: Following traumatic lower-limb amputation (LLA), humans are predisposed to numerous unfavorable changes in health, including the development of secondary chronic health conditions such as metabolic disorders and cardiovascular disease., Objective: To determine within and between group differences in cardiometabolic component risks, body composition, and physical activity (PA) in individuals with traumatic unilateral and bilateral LLA, compared to noninjured controls., Design: Prospective observational cohort study., Setting: A military complex trauma rehabilitation center., Participants: Sixteen males with traumatic LLA (8 unilateral, mean age 30 ± 5 years and 8 bilateral, mean age 29 ± 3 years). Thirteen active age-matched males with no LLA (28 ± 5 years) acted as controls and performed habitual activities of daily living., Intervention: Participants with LLA attended two 4-week periods of inpatient rehabilitation, separated by two 6-week periods of home-based recovery., Main Outcome Measures: Venous blood samples were taken prior to and following a 75 g oral glucose load, for determination of biomarkers, including insulin and glucose, at baseline and 20 weeks. Body composition (dual X-ray absorptiometry) was measured at baseline, 10 weeks, and 20 weeks. Daily PA was recorded using a triaxial accelerometer for 7 days during inpatient rehabilitation and while at home. Energy expenditure was estimated using population-specific equations., Results: Individuals with bilateral LLA demonstrated more unfavorable mean body composition values, lower PA, and increased cardiometabolic health risk compared to controls. Cardiometabolic syndrome was identified in 63% of individuals with bilateral LLA. No statistically significant differences in cardiometabolic component risk factors, body composition, and estimated daily PA were reported between unilateral LLA and control groups (p > .05). While at home, mean PA counts.day
-1 reduced by 17% (p = .018) and 42% (p = .001) in the unilateral and bilateral LLA groups, respectively., Conclusions: Despite extensive inpatient rehabilitation, cardiometabolic component risks are elevated in individuals with bilateral LLA but are comparable between unilateral LLA and active noninjured control groups. Innovative strategies that improve/support the long-term PA and cardiometabolic health of severely injured individuals with bilateral LLA are warranted., (© 2023 The Authors. PM&R published by Wiley Periodicals LLC on behalf of American Academy of Physical Medicine and Rehabilitation.)- Published
- 2023
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20. The effect of exercise in a fasted state on plasma low-density lipoprotein cholesterol concentrations in males and females.
- Author
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Bradshaw L, Koumanov F, Berry S, Betts JA, and Gonzalez J
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- Female, Humans, Infant, Male, Body Composition, Cholesterol, LDL, Exercise physiology, Randomized Controlled Trials as Topic, Cardiovascular Diseases, Fasting physiology
- Abstract
Cardiovascular disease (CVD) is the leading cause of death worldwide. Physical activity interventions improve almost all modifiable CVD risk factors, but the effect of physical activity on low density lipoprotein cholesterol (LDL-C) is uncertain. This may be due to lack of research on the feeding status in which the physical activity is performed. The aim of this study is to investigate the effect of fasted versus fed exercise on LDL-C concentrations in males and females. One hundred healthy participants, equal males and females, aged between 25 and 60 years will be recruited and will undergo a home-based 12-week exercise intervention. After baseline testing, participants will be randomized to a fasted exercise (exercise after an 8-h fast) or fed exercise (exercise 90-180 min after ingestion of 1 g kg
-1 CHO) group and will perform 50 min of moderate intensity exercise (e.g., 95% heart rate of lactate threshold 1) three times a week either before or after a high carbohydrate (1 g kg-1 ) meal. Participants will visit the laboratory again at week 4 and week 12 and measurements will be taken for body composition, resting blood pressure, fasting blood glucose, lipid profiles and systemic inflammation, lactate threshold, and 14-day blood glucose control., (© 2023 The Authors. Experimental Physiology published by John Wiley & Sons Ltd on behalf of The Physiological Society.)- Published
- 2023
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21. The impact of physical inactivity on glucose homeostasis when diet is adjusted to maintain energy balance in healthy, young males.
- Author
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Trim WV, Walhin JP, Koumanov F, Turner JE, Shur NF, Simpson EJ, Macdonald IA, Greenhaff PL, and Thompson D
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- Humans, Male, Adult, Sedentary Behavior, Diet, Insulin, Glucose, Energy Intake, Energy Metabolism physiology, Homeostasis, Bed Rest, Blood Glucose, Blood Glucose Self-Monitoring
- Abstract
Background & Aims: It is unclear if dietary adjustments to maintain energy balance during reduced physical activity can offset inactivity-induced reductions in insulin sensitivity and glucose disposal to produce normal daily glucose concentrations and meal responses. Therefore, the aim of the present study was to examine the impact of long-term physical inactivity (60 days of bed rest) on daily glycemia when in energy balance., Methods: Interstitial glucose concentrations were measured using Continuous Glucose Monitoring Systems (CGMS) for 5 days before and towards the end of bed rest in 20 healthy, young males (Age: 34 ± 8 years; BMI: 23.5 ± 1.8 kg/m
2 ). Energy intake was reduced during bed rest to match energy expenditure, but the types of foods and timing of meals was maintained. Fasting venous glucose and insulin concentrations were determined, as well as the change in whole-body glucose disposal using a hyperinsulinemic-euglycemic clamp (HIEC)., Results: Following long-term bed rest, fasting plasma insulin concentration increased 40% (p = 0.004) and glucose disposal during the HIEC decreased 24% (p < 0.001). Interstitial daily glucose total area under the curve (tAUC) from pre-to post-bed rest increased on average by 6% (p = 0.041), despite a 20 and 25% reduction in total caloric and carbohydrate intake, respectively. The nocturnal period (00:00-06:00) showed the greatest change to glycemia with glucose tAUC for this period increasing by 9% (p = 0.005). CGMS measures of daily glycemic variability (SD, J-Index, M-value and MAG) were not changed during bed rest., Conclusions: Reduced physical activity (bed rest) increases glycemia even when daily energy intake is reduced to maintain energy balance. However, the disturbance to daily glucose homeostasis was much more modest than the reduced capacity to dispose of glucose, and glycemic variability was not negatively affected by bed rest, likely due to positive mitigating effects from the contemporaneous reduction in dietary energy and carbohydrate intake., Clinical Trials Record: NCT03594799 (registered July 20, 2018) (https://clinicaltrials.gov/ct2/show/NCT03594799)., Competing Interests: Conflicts of interest I.A.M. was a member of the Mars Scientific Advisory Council, member of the Mars Europe Nutrition Advisory Board, and Scientific Adviser to the Waltham Centre for Pet Nutrition, and was also a member of the Nestle Research Scientific Advisory Board, and of the Novozymes Scientific Advisory Board. He withdrew from all of these roles in 2020 and on 1 August 2020 became Professor Emeritus at the University of Nottingham and took up the post of Scientific Director of the Nestle Institute of Health Sciences in Lausanne, Switzerland, which terminated in August 2022. D. T is an investigator on research grants funded by BBSRC, British Heart Foundation, Diabetes UK, Evolution Education Trust, GlaxoSmithKline R&D, MRC, NIHR, Nutricia Research Foundation, UK Sport, Unilever, and Versus Arthritis; and has completed paid consultancy for Gemina Labs, International Consumer Research & Testing (ICRT), Unilever, and Sugar Nutrition UK. The remaining authors have no conflicts of interest to declare., (Copyright © 2023 The Authors. Published by Elsevier Ltd.. All rights reserved.)- Published
- 2023
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22. Restricting sugar or carbohydrate intake does not impact physical activity level or energy intake over 24 h despite changes in substrate use: a randomised crossover study in healthy men and women.
- Author
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Hengist A, Davies RG, Rogers PJ, Brunstrom JM, van Loon LJC, Walhin JP, Thompson D, Koumanov F, Betts JA, and Gonzalez JT
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- Male, Humans, Female, Cross-Over Studies, Diet, Dietary Carbohydrates, Energy Metabolism, Exercise, Sugars, Energy Intake
- Abstract
Purpose: To determine the effects of dietary sugar or carbohydrate restriction on physical activity energy expenditure, energy intake, and physiological outcomes across 24 h., Methods: In a randomized, open-label crossover design, twenty-five healthy men (n = 10) and women (n = 15) consumed three diets over a 24-h period: moderate carbohydrate and sugar content (MODSUG = 50% carbohydrate [20% sugars], 15% protein, 35% fat); low sugar content (LOWSUG = 50% carbohydrate [< 5% sugars], 15% protein, 35% fat); and low carbohydrate content (LOWCHO = 8% carbohydrate [< 5% sugars], 15% protein, 77% fat). Postprandial metabolic responses to a prescribed breakfast (20% EI) were monitored under laboratory conditions before an ad libitum test lunch, with subsequent diet and physical activity monitoring under free-living conditions until blood sample collection the following morning., Results: The MODSUG, LOWSUG and LOWCHO diets resulted in similar mean [95%CI] rates of both physical activity energy expenditure (771 [624, 919] vs. 677 [565, 789] vs. 802 [614, 991] kcal·d
-1 ; p = 0.29] and energy intake (2071 [1794, 2347] vs. 2195 [1918, 2473] vs. 2194 [1890, 2498] kcal·d-1 ; P = 0.34), respectively. The LOWCHO condition elicited the lowest glycaemic and insulinaemic responses to breakfast (P < 0.01) but the highest 24-h increase in LDL-cholesterol concentrations (P < 0.001), with no differences between the MODSUG and LOWSUG treatments. Leptin concentrations decreased over 24-h of consuming LOWCHO relative to LOWSUG (p < 0.01)., Conclusion: When energy density is controlled for, restricting either sugar or total dietary carbohydrate does not modulate physical activity level or energy intake over a 24-h period (~ 19-h free-living) despite substantial metabolic changes., Clinical Trials Registration Id: NCT03509610, https://clinicaltrials.gov/show/NCT03509610., (© 2022. The Author(s).)- Published
- 2023
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23. Muscle-Specific Ablation of Glucose Transporter 1 (GLUT1) Does Not Impair Basal or Overload-Stimulated Skeletal Muscle Glucose Uptake.
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McMillin SL, Evans PL, Taylor WM, Weyrauch LA, Sermersheim TJ, Welc SS, Heitmeier MR, Hresko RC, Hruz PW, Koumanov F, Holman GD, Abel ED, and Witczak CA
- Subjects
- Animals, Humans, Mice, Body Weight, Glucose Transporter Type 4 genetics, Glucose Transporter Type 4 metabolism, HEK293 Cells, Insulin metabolism, Mice, Knockout, Glucose metabolism, Glucose Transporter Type 1 genetics, Glucose Transporter Type 1 metabolism, Muscle, Skeletal metabolism
- Abstract
Glucose transporter 1 (GLUT1) is believed to solely mediate basal (insulin-independent) glucose uptake in skeletal muscle; yet recent work has demonstrated that mechanical overload, a model of resistance exercise training, increases muscle GLUT1 levels. The primary objective of this study was to determine if GLUT1 is necessary for basal or overload-stimulated muscle glucose uptake. Muscle-specific GLUT1 knockout (mGLUT1KO) mice were generated and examined for changes in body weight, body composition, metabolism, systemic glucose regulation, muscle glucose transporters, and muscle [
3 H]-2-deoxyglucose uptake ± the GLUT1 inhibitor BAY-876. [3 H]-hexose uptake ± BAY-876 was also examined in HEK293 cells-expressing GLUT1-6 or GLUT10. mGLUT1KO mice exhibited no impairments in body weight, lean mass, whole body metabolism, glucose tolerance, basal or overload-stimulated muscle glucose uptake. There was no compensation by the insulin-responsive GLUT4. In mGLUT1KO mouse muscles, overload stimulated higher expression of mechanosensitive GLUT6, but not GLUT3 or GLUT10. In control and mGLUT1KO mouse muscles, 0.05 µM BAY-876 impaired overload-stimulated, but not basal glucose uptake. In the GLUT-HEK293 cells, BAY-876 inhibited glucose uptake via GLUT1, GLUT3, GLUT4, GLUT6, and GLUT10. Collectively, these findings demonstrate that GLUT1 does not mediate basal muscle glucose uptake and suggest that a novel glucose transport mechanism mediates overload-stimulated glucose uptake.- Published
- 2022
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24. Membrane extraction with styrene-maleic acid copolymer results in insulin receptor autophosphorylation in the absence of ligand.
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Morrison KA, Wood L, Edler KJ, Doutch J, Price GJ, Koumanov F, and Whitley P
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- Insulin, Ligands, Maleates pharmacology, Phosphorylation, Polymers, Polystyrenes, Detergents, Receptor, Insulin
- Abstract
Extraction of integral membrane proteins with poly(styrene-co-maleic acid) provides a promising alternative to detergent extraction. A major advantage of extraction using copolymers rather than detergent is the retention of the lipid bilayer around the proteins. Here we report the first functional investigation of the mammalian insulin receptor which was extracted from cell membranes using poly(styrene-co-maleic acid). We found that the copolymer efficiently extracted the insulin receptor from 3T3L1 fibroblast membranes. Surprisingly, activation of the insulin receptor and proximal downstream signalling was detected upon copolymer extraction even in the absence of insulin stimulation. Insulin receptor and IRS1 phosphorylations were above levels measured in the control extracts made with detergents. However, more distal signalling events in the insulin signalling cascade, such as the phosphorylation of Akt were not observed. Following copolymer extraction, in vitro addition of insulin had no further effect on insulin receptor or IRS1 phosphorylation. Therefore, under our experimental conditions, the insulin receptor is not functionally responsive to insulin. This study is the first to investigate receptor tyrosine kinases extracted from mammalian cells using a styrene-maleic acid copolymer and highlights the importance of thorough functional characterisation when using this method of protein extraction., (© 2022. The Author(s).)
- Published
- 2022
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25. Impact of pre-exercise feeding status on metabolic adaptations to endurance-type exercise training.
- Author
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Edinburgh RM, Koumanov F, and Gonzalez JT
- Subjects
- Blood Glucose metabolism, Carbohydrates, Exercise physiology, Humans, Lipids, Male, Obesity, Overweight, Diabetes Mellitus, Type 2, Insulin Resistance physiology
- Abstract
Nutrition and exercise metabolism are vibrant physiological fields, yet at times it feels as if greater progress could be made by better integrating these disciplines. Exercise is advocated for improving metabolic health, in part by increasing peripheral insulin sensitivity and glycaemic control. However, when a modest-to-high carbohydrate load is consumed before and/or during each exercise bout within a training programme, increases in oral glucose insulin sensitivity can be blunted in both men of a healthy weight and those with overweight/obesity. Exercise training-induced adaptation in the energy sensing AMP-activated protein kinase (AMPK) and the insulin-sensitive glucose transporter GLUT4 protein levels are sensitive to pre-exercise feeding status in both healthy individuals and individuals classified as overweight or obese. Increased lipid oxidation may, in part, explain the enhanced adaptive responses to exercise training performed before (i.e. fasted-state exercise) versus after nutrient ingestion. Evidence in individuals with type 2 diabetes currently shows no effect of altering nutrient-exercise timing for measured markers of metabolic health, or greater reductions in glycated haemoglobin (HbA1c) concentrations with exercise performed after versus before nutrient provision. Since the metabolic inflexibility associated with type 2 diabetes diminishes differences in lipid oxidation between the fasted and fed states, it is plausible that pre-exercise feeding status does not alter adaptations to exercise when metabolic flexibility is already compromised. Current evidence suggests restricting carbohydrate intake before and during exercise can enhance some health benefits of exercise, but in order to establish clinical guidelines, further research is needed with hard outcomes and different populations., (© 2021 The Authors. The Journal of Physiology published by John Wiley & Sons Ltd on behalf of The Physiological Society.)
- Published
- 2022
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26. GLUT4 On the move.
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Fazakerley DJ, Koumanov F, and Holman GD
- Subjects
- Adipocytes metabolism, Animals, Cell Membrane metabolism, Glucose metabolism, Humans, Insulin metabolism, Insulin pharmacology, Models, Biological, Muscle Cells metabolism, Phosphorylation, Protein Processing, Post-Translational, Protein Transport drug effects, Signal Transduction, Subcellular Fractions metabolism, Glucose Transporter Type 4 physiology
- Abstract
Insulin rapidly stimulates GLUT4 translocation and glucose transport in fat and muscle cells. Signals from the occupied insulin receptor are translated into downstream signalling changes in serine/threonine kinases within timescales of seconds, and this is followed by delivery and accumulation of the glucose transporter GLUT4 at the plasma membrane. Kinetic studies have led to realisation that there are distinct phases of this stimulation by insulin. There is a rapid initial burst of GLUT4 delivered to the cell surface from a subcellular reservoir compartment and this is followed by a steady-state level of continuing stimulation in which GLUT4 recycles through a large itinerary of subcellular locations. Here, we provide an overview of the phases of insulin stimulation of GLUT4 translocation and the molecules that are currently considered to activate these trafficking steps. Furthermore, we suggest how use of new experimental approaches together with phospho-proteomic data may help to further identify mechanisms for activation of these trafficking processes., (© 2022 The Author(s).)
- Published
- 2022
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27. Divergent immunometabolic changes in adipose tissue and skeletal muscle with ageing in healthy humans.
- Author
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Trim WV, Walhin JP, Koumanov F, Bouloumié A, Lindsay MA, Chen YC, Travers RL, Turner JE, and Thompson D
- Subjects
- Adipose Tissue metabolism, Aged, Aging, Humans, Male, Muscle, Skeletal metabolism, Obesity metabolism, Insulin Resistance
- Abstract
Key Points: Ageing is associated with increased systemic inflammation and metabolic dysfunction that contributes to the development of age-associated diseases. The role of adipose tissue in immunometabolic alterations that take place with ageing is unknown in humans. We show, in healthy, active and lean older adults, that adipose tissue, but not skeletal muscle, displays considerable pro-inflammatory transcriptomic, cellular and secretory changes, as well as a reduction in insulin signalling proteins compared to younger adults. These findings indicate that adipose tissue undergoes substantial immunometabolic alterations with ageing, and that these changes are tissue-specific and more profound than those observed in skeletal muscle or in the circulation. These results identify adipose tissue as an important tissue in the biological ageing process in humans, which may exhibit signs of immunometabolic dysfunction prior to systemic manifestation., Abstract: Ageing and obesity are both characterized by inflammation and a deterioration in metabolic health. It is now clear that adipose tissue plays a major role in inflammation and metabolic control in obesity, although little is known about the role of adipose tissue in human ageing. To understand how ageing impacts adipose tissue, we characterized subcutaneous adipose tissue and skeletal muscle samples from twelve younger (27 ± 4 years [Young]) and twelve older (66 ± 5 years [Old]) active/non-obese males. We performed a wide-range of whole-body and tissue measures, including RNA-sequencing and multicolour flow cytometry. We also measured a range of inflammatory and metabolic proteins in the circulation and their release by adipose tissue, ex vivo. Both adipose tissue and muscle had ∼2-fold more immune cells per gram of tissue with ageing. In adipose tissue, this immune cell infiltration was driven by increased memory/effector T-cells, whereas, in muscle, the accumulation was driven by memory/effector T-cells and macrophages. Transcriptomic analysis revealed that, with ageing, adipose tissue, but not muscle, was enriched for inflammatory transcripts/pathways related to acquired and innate immunity. Ageing also increased the adipose tissue pro-inflammatory secretory profile. Insulin signalling protein content was reduced in adipose tissue, but not muscle. Our findings indicate that adipose tissue undergoes substantial immunometabolic changes with ageing in humans, and that these changes are tissue-specific and more profound than those observed in the circulation and skeletal muscle., (© 2021 The Authors. The Journal of Physiology published by John Wiley & Sons Ltd on behalf of The Physiological Society.)
- Published
- 2022
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28. The Impact of Long-term Physical Inactivity on Adipose Tissue Immunometabolism.
- Author
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Trim WV, Walhin JP, Koumanov F, Bouloumié A, Lindsay MA, Travers RL, Turner JE, and Thompson D
- Subjects
- Adult, Bed Rest, Healthy Volunteers, Humans, Inflammation blood, Inflammation immunology, Inflammation metabolism, Leptin blood, Leptin metabolism, Male, Middle Aged, Subcutaneous Fat immunology, Young Adult, Basal Metabolism immunology, Sedentary Behavior, Subcutaneous Fat metabolism
- Abstract
Context: Adipose tissue and physical inactivity both influence metabolic health and systemic inflammation, but how adipose tissue responds to chronic physical inactivity is unknown., Objective: This work aimed to characterize the impact of chronic physical inactivity on adipose tissue in healthy, young males., Methods: We collected subcutaneous adipose tissue from 20 healthy, young men before and after 60 days of complete bed rest with energy intake reduced to maintain energy balance and fat mass. We used RNA sequencing, flow cytometry, ex vivo tissue culture, and targeted protein analyses to examine adipose tissue phenotype., Results: Our results indicate that the adipose tissue transcriptome, stromal cellular compartment, and insulin signaling protein abundance are largely unaffected by bed rest when fat mass is kept stable. However, there was an increase in the circulating concentration of several adipokines, including plasma leptin, which was associated with inactivity-induced increases in plasma insulin and absent from adipose tissue cultured ex vivo under standardized culture conditions., Conclusion: Physical inactivity-induced disturbances to adipokine concentrations such as leptin, without changes to fat mass, could have profound metabolic implications outside a clinical facility when energy intake is not tightly controlled., (© The Author(s) 2021. Published by Oxford University Press on behalf of the Endocrine Society.)
- Published
- 2022
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29. Protein- and Calcium-Mediated GLP-1 Secretion: A Narrative Review.
- Author
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Watkins JD, Koumanov F, and Gonzalez JT
- Subjects
- Calcium metabolism, Glucagon-Like Peptide 1 metabolism, Humans, Insulin Secretion, Diabetes Mellitus, Type 2 metabolism, Insulin-Secreting Cells metabolism
- Abstract
Glucagon-like peptide 1 (GLP-1) is an incretin hormone produced in the intestine that is secreted in response to nutrient exposure. GLP-1 potentiates glucose-dependent insulin secretion from the pancreatic β cells and promotes satiety. These important actions on glucose metabolism and appetite have led to widespread interest in GLP-1 receptor agonism. Typically, this involves pharmacological GLP-1 mimetics or targeted inhibition of dipeptidyl peptidase-IV, the enzyme responsible for GLP-1 degradation. However, nutritional strategies provide a widely available, cost-effective alternative to pharmacological strategies for enhancing hormone release. Recent advances in nutritional research have implicated the combined ingestion of protein and calcium with enhanced endogenous GLP-1 release, which is likely due to activation of receptors with high affinity and/or sensitivity for amino acids and calcium. Specifically targeting these receptors could enhance gut hormone secretion, thus providing a new therapeutic option. This narrative review provides an overview of the latest research on protein- and calcium-mediated GLP-1 release with an emphasis on human data, and a perspective on potential mechanisms that link potent GLP-1 release to the co-ingestion of protein and calcium. In light of these recent findings, potential future research directions are also presented., (© The Author(s) 2021. Published by Oxford University Press on behalf of the American Society for Nutrition.)
- Published
- 2021
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30. Development of Methodology to Investigate the Surface SMALPome of Mammalian Cells.
- Author
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Morrison KA, Heesom KJ, Edler KJ, Doutch J, Price GJ, Koumanov F, and Whitley P
- Abstract
Extraction of membrane proteins from biological membranes has traditionally involved detergents. In the past decade, a new technique has been developed, which uses styrene maleic acid (SMA) copolymers to extract membrane proteins into nanodiscs without the requirement of detergents. SMA nanodiscs are compatible with analytical techniques, such as small-angle scattering, NMR spectroscopy, and DLS, and are therefore an attractive medium for membrane protein characterization. While mass spectrometry has also been reported as a technique compatible with copolymer extraction, most studies have focused on lipidomics, which involves solvent extraction of lipids from nanodiscs prior to mass-spectrometry analysis. In this study, mass spectrometry proteomics was used to investigate whether there are qualitative or quantitative differences in the mammalian plasma membrane proteins extracted with SMA compared to a detergent control. For this, cell surface proteins of 3T3L1 fibroblasts were biotinylated and extracted using either SMA or detergent. Following affinity pull-down of biotinylated proteins with NeutrAvidin beads, samples were analyzed by nanoLC-MS. Here, we report for the first time, a global proteomics protocol for detection of a mammalian cell "SMALPome", membrane proteins incorporated into SMA nanodiscs. Removal of SMA from samples prior to processing of samples for mass spectrometry was a crucial step in the protocol. The reported surface SMALPome of 3T3L1 fibroblasts consists of 205 integral membrane proteins. It is apparent that the detergent extraction method used is, in general, quantitatively more efficient at extracting proteins from the plasma membrane than SMA extraction. However, samples prepared following detergent extraction contained a greater proportion of proteins that were considered to be "non-specific" than in samples prepared from SMA extracts. Tantalizingly, it was also observed that proteins detected uniquely or highly preferentially in pull-downs from SMA extracts were primarily multi-spanning membrane proteins. These observations hint at qualitative differences between SMA and detergent extraction that are worthy of further investigation., Competing Interests: The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest., (Copyright © 2021 Morrison, Heesom, Edler, Doutch, Price, Koumanov and Whitley.)
- Published
- 2021
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31. Plasma glucagon-like peptide-1 responses to ingestion of protein with increasing doses of milk minerals rich in calcium.
- Author
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Watkins JD, Smith HA, Hengist A, Brunsgaard LH, Mikkelsen UR, Koumanov F, Betts JA, and Gonzalez JT
- Abstract
A high dose of whey protein hydrolysate fed with milk minerals rich in calcium (Capolac®) results in enhanced glucagon-like peptide-1 (GLP-1) concentrations in lean individuals; however, the effect of different calcium doses ingested alongside protein is unknown. The present study assessed the dose response of calcium fed alongside 25 g whey protein hydrolysate on GLP-1 concentrations in individuals with overweight/obesity. Eighteen adults (mean ± sd: 8M/10F, 34 ± 18 years, 28·2 ± 2·9 kgm-2) completed four trials in a randomised, double-blind, crossover design. Participants consumed test solutions consisting of 25 g whey protein hydrolysate (CON), supplemented with 3179 mg (LOW), 6363 mg (MED) or 9547 mg (HIGH) Capolac® on different occasions, separated by at least 48 h. The calcium content of test solutions equated to 65, 892, 1719 and 2547 mg, respectively. Arterialised-venous blood was sampled over 180 min to determine plasma concentrations of GLP-1TOTAL, GLP-17-36amide, insulin, glucose, NEFA, and serum concentrations of calcium and albumin. Ad libitum energy intake was measured at 180 min. Time-averaged incremental AUC (iAUC) for GLP-1TOTAL (pmol·l-1·min-1) did not differ between CON (23 ± 4), LOW (25 ± 6), MED (24 ± 5) and HIGH (24 ± 6). Energy intake (kcal) did not differ between CON (940 ± 387), LOW (884 ± 345), MED (920 ± 334) and HIGH (973 ± 390). Co-ingestion of whey protein hydrolysate with Capolac® does not potentiate GLP-1 release in comparison with whey protein hydrolysate alone. The study was registered at clinical trials (NCT03819972).
- Published
- 2021
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32. Resting skeletal muscle PNPLA2 (ATGL) and CPT1B are associated with peak fat oxidation rates in men and women but do not explain observed sex differences.
- Author
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Chrzanowski-Smith OJ, Edinburgh RM, Smith E, Thomas MP, Walhin JP, Koumanov F, Williams S, Betts JA, and Gonzalez JT
- Subjects
- 1-Acylglycerol-3-Phosphate O-Acyltransferase metabolism, Acyltransferases, Adipose Tissue metabolism, Adult, Carnitine O-Palmitoyltransferase metabolism, Exercise physiology, Female, Humans, Lipase metabolism, Lipid Metabolism, Male, Muscle, Skeletal metabolism, Sex Characteristics
- Abstract
New Findings: What is the central question of this study? What is the relationship between proteins in skeletal muscle and adipose tissue determined at rest and at peak rates of fat oxidation in men and women? What is the main finding and its importance? The resting contents of proteins in skeletal muscle involved in triglyceride hydrolysis and mitochondrial lipid transport were more strongly associated with peak fat oxidation rates than proteins related to lipid transport or hydrolysis in adipose tissue. Although females displayed higher relative rates of fat oxidation than males, this was not explained by the proteins measured in this study, suggesting that other factors determine sex differences in fat metabolism., Abstract: We explored key proteins involved in fat metabolism that might be associated with peak fat oxidation (PFO) and account for sexual dimorphism in fuel metabolism during exercise. Thirty-six healthy adults [15 women; 40 ± 11 years of age; peak oxygen consumption 42.5 ± 9.5 ml (kg body mass)
-1 min-1 ; mean ± SD] completed two exercise tests to determine PFO via indirect calorimetry. Resting adipose tissue and/or skeletal muscle biopsies were obtained to determine the adipose tissue protein content of PLIN1, ABHD5 (CGI-58), LIPE (HSL), PNPLA2 (ATGL), ACSL1, CPT1B and oestrogen receptor α (ERα) and the skeletal muscle protein content of FABP 3 (FABPpm), PNPLA2 (ATGL), ACSL1, CTP1B and ESR1 (ERα). Moderate strength correlations were found between PFO [in milligrams per kilogram of fat-free mass (FFM) per minute] and the protein content of PNPLA2 (ATGL) [rs = 0.41 (0.03-0.68), P < 0.05] and CPT1B [rs = 0.45 (0.09-0.71), P < 0.05] in skeletal muscle. No other statistically significant bivariate correlations were found consistently. Females had a greater relative PFO than males [7.1 ± 1.9 vs. 4.5 ± 1.3 and 7.3 ± 1.7 vs. 4.8 ± 1.2 mg (kg FFM)-1 min-1 in the adipose tissue (n = 14) and skeletal muscle (n = 12) subgroups, respectively (P < 0.05)]. No statistically significant sex differences were found in the content of these proteins. The regulation of PFO might involve processes relating to intramyocellular triglyceride hydrolysis and mitochondrial fatty acid transport, and adipose tissue is likely to play a more minor role than muscle. Sex differences in fat metabolism are likely to be attributable to factors other than the resting content of proteins in skeletal muscle and adipose tissue relating to triglyceride hydrolysis and fatty acid transport., (© 2021 The Authors. Experimental Physiology published by John Wiley & Sons Ltd on behalf of The Physiological Society.)- Published
- 2021
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33. Lipid Metabolism Links Nutrient-Exercise Timing to Insulin Sensitivity in Men Classified as Overweight or Obese.
- Author
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Edinburgh RM, Bradley HE, Abdullah NF, Robinson SL, Chrzanowski-Smith OJ, Walhin JP, Joanisse S, Manolopoulos KN, Philp A, Hengist A, Chabowski A, Brodsky FM, Koumanov F, Betts JA, Thompson D, Wallis GA, and Gonzalez JT
- Subjects
- Adult, Case-Control Studies, Energy Intake, Energy Metabolism, Follow-Up Studies, Humans, Lipids analysis, Male, Metabolic Syndrome epidemiology, Nutrients, Obesity physiopathology, Overweight physiopathology, United Kingdom epidemiology, Exercise Therapy methods, Insulin Resistance, Lipid Metabolism, Metabolic Syndrome prevention & control, Obesity therapy, Overweight therapy
- Abstract
Context: Pre-exercise nutrient availability alters acute metabolic responses to exercise, which could modulate training responsiveness., Objective: To assess acute and chronic effects of exercise performed before versus after nutrient ingestion on whole-body and intramuscular lipid utilization and postprandial glucose metabolism., Design: (1) Acute, randomized, crossover design (Acute Study); (2) 6-week, randomized, controlled design (Training Study)., Setting: General community., Participants: Men with overweight/obesity (mean ± standard deviation, body mass index: 30.2 ± 3.5 kg⋅m-2 for Acute Study, 30.9 ± 4.5 kg⋅m-2 for Training Study)., Interventions: Moderate-intensity cycling performed before versus after mixed-macronutrient breakfast (Acute Study) or carbohydrate (Training Study) ingestion., Results: Acute Study-exercise before versus after breakfast consumption increased net intramuscular lipid utilization in type I (net change: -3.44 ± 2.63% versus 1.44 ± 4.18% area lipid staining, P < 0.01) and type II fibers (-1.89 ± 2.48% versus 1.83 ± 1.92% area lipid staining, P < 0.05). Training Study-postprandial glycemia was not differentially affected by 6 weeks of exercise training performed before versus after carbohydrate intake (P > 0.05). However, postprandial insulinemia was reduced with exercise training performed before but not after carbohydrate ingestion (P = 0.03). This resulted in increased oral glucose insulin sensitivity (25 ± 38 vs -21 ± 32 mL⋅min-1⋅m-2; P = 0.01), associated with increased lipid utilization during exercise (r = 0.50, P = 0.02). Regular exercise before nutrient provision also augmented remodeling of skeletal muscle phospholipids and protein content of the glucose transport protein GLUT4 (P < 0.05)., Conclusions: Experiments investigating exercise training and metabolic health should consider nutrient-exercise timing, and exercise performed before versus after nutrient intake (ie, in the fasted state) may exert beneficial effects on lipid utilization and reduce postprandial insulinemia., (© Endocrine Society 2019.)
- Published
- 2020
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34. Fructose and metabolic health: governed by hepatic glycogen status?
- Author
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Hengist A, Koumanov F, and Gonzalez JT
- Subjects
- Animals, Energy Intake physiology, Exercise physiology, Humans, Lipogenesis physiology, Fructose metabolism, Liver metabolism, Liver Glycogen metabolism
- Abstract
Fructose is a commonly ingested dietary sugar which has been implicated in playing a particularly harmful role in the development of metabolic disease. Fructose is primarily metabolised by the liver in humans, and increases rates of hepatic de novo lipogenesis. Fructose increases hepatic de novo lipogenesis via numerous mechanisms: by altering transcriptional and allosteric regulation, interfering with cellular energy sensing, and disrupting the balance between lipid synthesis and lipid oxidation. Hepatic de novo lipogenesis is also upregulated by the inability to synthesise glycogen, either when storage is inhibited in knock-down animal models or storage is saturated in glycogen storage disease. Considering that fructose has the capacity to upregulate hepatic glycogen storage, and replenish these stores more readily following glycogen depleting exercise, the idea that hepatic glycogen storage and hepatic de novo lipogenesis are linked is an attractive prospect. We propose that hepatic glycogen stores may be a key factor in determining the metabolic responses to fructose ingestion, and saturation of hepatic glycogen stores could exacerbate the negative metabolic effects of excessive fructose intake. Since physical activity potently modulates glycogen metabolism, this provides a rationale for considering nutrient-physical activity interactions in metabolic health., (© 2019 The Authors. The Journal of Physiology published by John Wiley & Sons Ltd on behalf of The Physiological Society.)
- Published
- 2019
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35. Preexercise breakfast ingestion versus extended overnight fasting increases postprandial glucose flux after exercise in healthy men.
- Author
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Edinburgh RM, Hengist A, Smith HA, Travers RL, Koumanov F, Betts JA, Thompson D, Walhin JP, Wallis GA, Hamilton DL, Stevenson EJ, Tipton KD, and Gonzalez JT
- Subjects
- Adult, Blood Glucose metabolism, Breakfast, Energy Metabolism physiology, Glucose Tolerance Test, Humans, Male, Young Adult, Exercise physiology, Fasting metabolism, Glucose metabolism, Insulin Resistance physiology, Postprandial Period physiology
- Abstract
The aim of this study was to characterize postprandial glucose flux after exercise in the fed versus overnight fasted state and to investigate the potential underlying mechanisms. In a randomized order, twelve men underwent breakfast-rest [(BR) 3 h semirecumbent], breakfast-exercise [(BE) 2 h semirecumbent before 60 min of cycling (50% peak power output)], and overnight fasted exercise [(FE) as per BE omitting breakfast] trials. An oral glucose tolerance test (OGTT) was completed after exercise (after rest on BR). Dual stable isotope tracers ([U-
13 C] glucose ingestion and [6,6-2 H2 ] glucose infusion) and muscle biopsies were combined to assess postprandial plasma glucose kinetics and intramuscular signaling, respectively. Plasma intestinal fatty acid binding (I-FABP) concentrations were determined as a marker of intestinal damage. Breakfast before exercise increased postexercise plasma glucose disposal rates during the OGTT, from 44 g/120 min in FE {35 to 53 g/120 min [mean (normalized 95% confidence interval)] to 73 g/120 min in BE [55 to 90 g/120 min; P = 0.01]}. This higher plasma glucose disposal rate was, however, offset by increased plasma glucose appearance rates (principally OGTT-derived), resulting in a glycemic response that did not differ between BE and FE ( P = 0.11). Plasma I-FABP concentrations during exercise were 264 pg/ml (196 to 332 pg/ml) lower in BE versus FE ( P = 0.01). Breakfast before exercise increases postexercise postprandial plasma glucose disposal, which is offset (primarily) by increased appearance rates of orally ingested glucose. Therefore, metabolic responses to fed-state exercise cannot be readily inferred from studies conducted in a fasted state.- Published
- 2018
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36. Molecular adaptations of adipose tissue to 6 weeks of morning fasting vs. daily breakfast consumption in lean and obese adults.
- Author
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Gonzalez JT, Richardson JD, Chowdhury EA, Koumanov F, Holman GD, Cooper S, Thompson D, Tsintzas K, and Betts JA
- Subjects
- Adaptation, Physiological, Adult, Biomarkers metabolism, Blood Glucose analysis, Cohort Studies, Energy Metabolism, Female, Humans, Insulin Resistance, Male, Middle Aged, Young Adult, Adipose Tissue metabolism, Breakfast physiology, Fasting physiology, Obesity metabolism, Thinness metabolism
- Abstract
Key Points: In lean individuals, 6 weeks of extended morning fasting increases the expression of genes involved in lipid turnover (ACADM) and insulin signalling (IRS2) in subcutaneous abdominal adipose tissue. In obese individuals, 6 weeks of extended morning fasting increases IRS2 expression in subcutaneous abdominal adipose tissue. The content and activation status of key proteins involved in insulin signalling and glucose transport (GLUT4, Akt1 and Akt2) were unaffected by extended morning fasting. Therefore, any observations of altered adipose tissue insulin sensitivity with extended morning fasting do not necessarily require changes in insulin signalling proximal to Akt. Insulin-stimulated adipose tissue glucose uptake rates are lower in obese versus lean individuals, but this difference is abolished when values are normalised to whole-body fat mass. This suggests a novel hypothesis which proposes that the reduced adipose glucose uptake in obesity is a physiological down-regulation to prevent excessive de novo lipogenesis., Abstract: This study assessed molecular responses of human subcutaneous abdominal adipose tissue (SCAT) to 6 weeks of morning fasting. Forty-nine healthy lean (n = 29) and obese (n = 20) adults provided SCAT biopsies before and after 6 weeks of morning fasting (FAST; 0 kcal until 12.00 h) or daily breakfast consumption (BFAST; ≥700 kcal before 11.00 h). Biopsies were analysed for mRNA levels of selected genes, and GLUT4 and Akt protein content. Basal and insulin-stimulated Akt activation and tissue glucose uptake rates were also determined. In lean individuals, lipid turnover and insulin signalling genes (ACADM and IRS2) were up-regulated with FAST versus BFAST (ACADM: 1.14 (95% CI: 0.97-1.30) versus 0.80 (95% CI: 0.64-0.96), P = 0.007; IRS2: 1.75 (95% CI: 1.33-2.16) versus 1.09 (95% CI: 0.67-1.51), P = 0.03, respectively). In obese individuals, no differential (FAST versus BFAST) expression was observed in genes involved in lipid turnover (all P > 0.1). GLUT4, Akt protein content and insulin-stimulated Akt phosphorylation were unaffected by FAST versus BFAST in both lean and obese cohorts (all P > 0.1). Lower insulin-stimulated glucose uptake rates in obese versus lean individuals were eradicated when normalised to whole-body fat mass (P = 0.416). We conclude that morning fasting up-regulates lipid turnover genes in SCAT of lean individuals. Secondly, altered SCAT insulin sensitivity with morning fasting is unlikely to be explained by signalling proximal to Akt. Finally, lower insulin-stimulated SCAT glucose uptake rates in obese individuals are proportional to whole-body fat mass, suggesting a compensatory down-regulation, presumably to prevent excessive de novo lipogenesis in adipose tissue. This trial was registered as ISRCTN31521726., (© 2017 The Authors. The Journal of Physiology published by John Wiley & Sons Ltd on behalf of The Physiological Society.)
- Published
- 2018
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37. Identification of Insulin-Activated Rab Proteins in Adipose Cells Using Bio-ATB-GTP Photolabeling Technique.
- Author
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Koumanov F and Holman GD
- Subjects
- Animals, Biotinylation, Cell Membrane metabolism, Male, Protein Binding, Rats, Adipocytes metabolism, Guanosine Triphosphate metabolism, Insulin metabolism, rab GTP-Binding Proteins metabolism
- Abstract
We have recently developed a photolabeling method to identify GTP-loaded Rab proteins. The new biotinylated GTP analogue (Bio-ATB-GTP) binds to GTP-binding proteins and after a UV irradiation a covalent bond is formed between the protein and the photoreactive diazirine group on the photolabel. The tagged protein can then be isolated and detected using the classic biotin-streptavidin interaction. In this chapter, we describe the Bio-ATB-GTP photolabel and discuss the advantages of using this photolabeling approach to detect GTP-loaded Rab proteins compared to other existing methodologies. We also describe a step-by-step procedure for detecting the activated state of a Rab protein in primary rat adipocytes.
- Published
- 2018
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38. Feeding influences adipose tissue responses to exercise in overweight men.
- Author
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Chen YC, Travers RL, Walhin JP, Gonzalez JT, Koumanov F, Betts JA, and Thompson D
- Subjects
- Adolescent, Adult, Fasting, Humans, Male, Treatment Outcome, Young Adult, Adipose Tissue physiopathology, Body Weight, Eating, Exercise Therapy methods, Overweight physiopathology, Overweight prevention & control
- Abstract
Feeding profoundly affects metabolic responses to exercise in various tissues, but the effect of feeding status on human adipose tissue responses to exercise has never been studied. Ten healthy overweight men aged 26 ± 5 yr (mean ± SD) with a waist circumference of 105 ± 10 cm walked at 60% of maximum oxygen uptake under either fasted or fed conditions in a randomized, counterbalanced design. Feeding comprised 648 ± 115 kcal 2 h before exercise. Blood samples were collected at regular intervals to examine changes in metabolic parameters and adipokine concentrations. Adipose tissue samples were obtained at baseline and 1 h after exercise to examine changes in adipose tissue mRNA expression and secretion of selected adipokines ex vivo. Adipose tissue mRNA expression of pyruvate dehydrogenase kinase isozyme 4 ( PDK4 ), adipose triglyceride lipase, hormone-sensitive lipase ( HSL ), fatty acid translocase/CD36, glucose transporter type 4 ( GLUT4 ), and insulin receptor substrate 2 ( IRS2 ) in response to exercise were lower in fed compared with fasted conditions (all P ≤ 0.05). Postexercise adipose IRS2 protein was affected by feeding ( P ≤ 0.05), but Akt2, AMPK, IRS1, GLUT4, PDK4, and HSL protein levels were not different. Feeding status did not impact serum and ex vivo adipose secretion of IL-6, leptin, or adiponectin in response to exercise. This is the first study to show that feeding before acute exercise affects postexercise adipose tissue gene expression, and we propose that feeding is likely to blunt long-term adipose tissue adaptation to regular exercise., (Copyright © 2017 the American Physiological Society.)
- Published
- 2017
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39. Thermal stability, storage and release of proteins with tailored fit in silica.
- Author
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Chen YC, Smith T, Hicks RH, Doekhie A, Koumanov F, Wells SA, Edler KJ, van den Elsen J, Holman GD, Marchbank KJ, and Sartbaeva A
- Subjects
- Animals, Freeze Drying, Hot Temperature, Humans, Protein Denaturation, Protein Stability, Computer Simulation, Recombinant Fusion Proteins chemistry
- Abstract
Biological substances based on proteins, including vaccines, antibodies, and enzymes, typically degrade at room temperature over time due to denaturation, as proteins unfold with loss of secondary and tertiary structure. Their storage and distribution therefore relies on a "cold chain" of continuous refrigeration; this is costly and not always effective, as any break in the chain leads to rapid loss of effectiveness and potency. Efforts have been made to make vaccines thermally stable using treatments including freeze-drying (lyophilisation), biomineralisation, and encapsulation in sugar glass and organic polymers. Here for the first time we show that proteins can be enclosed in a deposited silica "cage", rendering them stable against denaturing thermal treatment and long-term ambient-temperature storage, and subsequently released into solution with their structure and function intact. This "ensilication" method produces a storable solid protein-loaded material without the need for desiccation or freeze-drying. Ensilication offers the prospect of a solution to the "cold chain" problem for biological materials, in particular for vaccines.
- Published
- 2017
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40. Highly Potent and Isoform Selective Dual Site Binding Tankyrase/Wnt Signaling Inhibitors That Increase Cellular Glucose Uptake and Have Antiproliferative Activity.
- Author
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Nathubhai A, Haikarainen T, Koivunen J, Murthy S, Koumanov F, Lloyd MD, Holman GD, Pihlajaniemi T, Tosh D, Lehtiö L, and Threadgill MD
- Subjects
- Aminoquinolines chemical synthesis, Antineoplastic Agents chemical synthesis, Cell Line, Tumor, Crystallography, X-Ray, Drug Screening Assays, Antitumor, HEK293 Cells, Heterocyclic Compounds, 3-Ring pharmacology, Humans, Poly(ADP-ribose) Polymerase Inhibitors chemical synthesis, Protein Isoforms antagonists & inhibitors, Quinazolinones chemical synthesis, Aminoquinolines pharmacology, Antineoplastic Agents pharmacology, Glucose metabolism, Poly(ADP-ribose) Polymerase Inhibitors pharmacology, Quinazolinones pharmacology, Tankyrases antagonists & inhibitors, Wnt Signaling Pathway drug effects
- Abstract
Compounds 13 and 14 were evaluated against 11 PARP isoforms to reveal that both 13 and 14 were more potent and isoform selective toward inhibiting tankyrases (TNKSs) than the "standard" inhibitor 1 (XAV939)
5 , i.e., IC50 = 100 pM vs TNKS2 and IC50 = 6.5 μM vs PARP1 for 14. In cellular assays, 13 and 14 inhibited Wnt-signaling, enhanced insulin-stimulated glucose uptake, and inhibited the proliferation of DLD-1 colorectal adenocarcinoma cells to a greater extent than 1.- Published
- 2017
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41. Proteomic Analysis of GLUT4 Storage Vesicles Reveals Tumor Suppressor Candidate 5 (TUSC5) as a Novel Regulator of Insulin Action in Adipocytes.
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Fazakerley DJ, Naghiloo S, Chaudhuri R, Koumanov F, Burchfield JG, Thomas KC, Krycer JR, Prior MJ, Parker BL, Murrow BA, Stöckli J, Meoli CC, Holman GD, and James DE
- Subjects
- 3T3-L1 Cells, Animals, Male, Mice, Rats, Rats, Wistar, Tumor Suppressor Proteins genetics, Adipocytes physiology, Glucose Transporter Type 4 metabolism, Insulin physiology, Proteomics, Tumor Suppressor Proteins physiology
- Abstract
Insulin signaling augments glucose transport by regulating glucose transporter 4 (GLUT4) trafficking from specialized intracellular compartments, termed GLUT4 storage vesicles (GSVs), to the plasma membrane. Proteomic analysis of GSVs by mass spectrometry revealed enrichment of 59 proteins in these vesicles. We measured reduced abundance of 23 of these proteins following insulin stimulation and assigned these as high confidence GSV proteins. These included established GSV proteins such as GLUT4 and insulin-responsive aminopeptidase, as well as six proteins not previously reported to be localized to GSVs. Tumor suppressor candidate 5 (TUSC5) was shown to be a novel GSV protein that underwent a 3.7-fold increase in abundance at the plasma membrane in response to insulin. siRNA-mediated knockdown of TUSC5 decreased insulin-stimulated glucose uptake, although overexpression of TUSC5 had the opposite effect, implicating TUSC5 as a positive regulator of insulin-stimulated glucose transport in adipocytes. Incubation of adipocytes with TNFα caused insulin resistance and a concomitant reduction in TUSC5. Consistent with previous studies, peroxisome proliferator-activated receptor (PPAR) γ agonism reversed TNFα-induced insulin resistance. TUSC5 expression was necessary but insufficient for PPARγ-mediated reversal of insulin resistance. These findings functionally link TUSC5 to GLUT4 trafficking, insulin action, insulin resistance, and PPARγ action in the adipocyte. Further studies are required to establish the exact role of TUSC5 in adipocytes., (© 2015 by The American Society for Biochemistry and Molecular Biology, Inc.)
- Published
- 2015
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42. Insulin regulates Rab3-Noc2 complex dissociation to promote GLUT4 translocation in rat adipocytes.
- Author
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Koumanov F, Pereira VJ, Richardson JD, Sargent SL, Fazakerley DJ, and Holman GD
- Subjects
- 3T3-L1 Cells, Adipocytes metabolism, Animals, Intracellular Signaling Peptides and Proteins, Male, Mice, Protein Transport drug effects, Rats, Rats, Wistar, Signal Transduction drug effects, Adipocytes drug effects, Glucose Transporter Type 4 metabolism, Insulin pharmacology, Proteins metabolism, rab3 GTP-Binding Proteins metabolism
- Abstract
Aims/hypothesis: The glucose transporter GLUT4 is present mainly in insulin-responsive tissues of fat, heart and skeletal muscle and is translocated from intracellular membrane compartments to the plasma membrane (PM) upon insulin stimulation. The transit of GLUT4 to the PM is known to be dependent on a series of Rab proteins. However, the extent to which the activity of these Rabs is regulated by the action of insulin action is still unknown. We sought to identify insulin-activated Rab proteins and Rab effectors that facilitate GLUT4 translocation., Methods: We developed a new photoaffinity reagent (Bio-ATB-GTP) that allows GTP-binding proteomes to be explored. Using this approach we screened for insulin-responsive GTP loading of Rabs in primary rat adipocytes., Results: We identified Rab3B as a new candidate insulin-stimulated G-protein in adipocytes. Using constitutively active and dominant negative mutants and Rab3 knockdown we provide evidence that Rab3 isoforms are key regulators of GLUT4 translocation in adipocytes. Insulin-stimulated Rab3 GTP binding is associated with disruption of the interaction between Rab3 and its negative effector Noc2. Disruption of the Rab3-Noc2 complex leads to displacement of Noc2 from the PM. This relieves the inhibitory effect of Noc2, facilitating GLUT4 translocation., Conclusions/interpretation: The discovery of the involvement of Rab3 and Noc2 in an insulin-regulated step in GLUT4 translocation suggests that the control of this translocation process is unexpectedly similar to regulated secretion and particularly pancreatic insulin-vesicle release.
- Published
- 2015
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- View/download PDF
43. FGT-1 is the major glucose transporter in C. elegans and is central to aging pathways.
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Feng Y, Williams BG, Koumanov F, Wolstenholme AJ, and Holman GD
- Subjects
- Aging, Amino Acid Sequence, Animals, Biological Transport, Caenorhabditis elegans Proteins chemistry, Cells, Cultured, Glucose metabolism, Glucose Transport Proteins, Facilitative chemistry, Molecular Sequence Data, Sequence Homology, Amino Acid, Xenopus, Caenorhabditis elegans physiology, Caenorhabditis elegans Proteins metabolism, Glucose Transport Proteins, Facilitative metabolism
- Abstract
Caenorhabditis elegans is widely used as a model for investigation of the relationships between aging, nutrient restriction and signalling via the DAF-2 (abnormal dauer formation 2) receptor for insulin-like peptides and AGE-1 [ageing alteration 1; orthologue of PI3K (phosphoinositide 3-kinase)], but the identity of the glucose transporters that may link these processes is unknown. We unexpectedly find that of the eight putative GLUT (glucose transporter)-like genes only the two splice variants of one gene have a glucose transport function in an oocyte expression system. We have named this gene fgt-1 (facilitated glucose transporter, isoform 1). We show that knockdown of fgt-1 RNA leads to loss of glucose transport and reduced glucose metabolism in wild-type worms. The FGT-1 glucose transporters of C. elegans thus play a key role in glucose energy supply to C. elegans. Importantly, knockdown of fgt-1 leads to an extension of lifespan equivalent, but not additive, to that observed in daf-2 and age-1 mutant worms. The results of the present study are consistent with DAF-2 and AGE-1 signalling stimulating glucose transport in C. elegans and this process being associated with the longevity phenotype in daf-2 and age-1 mutant worms. We propose that fgt-1 constitutes a common axis for the lifespan extending effects of nutrient restriction and reduced insulin-like peptide signalling.
- Published
- 2013
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- View/download PDF
44. GLUT4 traffic through an ESCRT-III-dependent sorting compartment in adipocytes.
- Author
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Koumanov F, Pereira VJ, Whitley PR, and Holman GD
- Subjects
- Adipocytes cytology, Animals, Electroporation, Endosomal Sorting Complexes Required for Transport genetics, Gene Expression, Glucose Transporter Type 4 genetics, Phosphatidylinositol 3-Kinases genetics, Phosphatidylinositol 3-Kinases metabolism, Phosphatidylinositols metabolism, Plasmids, Primary Cell Culture, Protein Transport, Qa-SNARE Proteins genetics, Qa-SNARE Proteins metabolism, Rats, Saccharomyces cerevisiae genetics, Saccharomyces cerevisiae metabolism, Saccharomyces cerevisiae Proteins genetics, Saccharomyces cerevisiae Proteins metabolism, Signal Transduction, Transfection, Ubiquitin genetics, Ubiquitin metabolism, Ubiquitination, Vesicular Transport Proteins genetics, Vesicular Transport Proteins metabolism, trans-Golgi Network genetics, Adipocytes metabolism, Endosomal Sorting Complexes Required for Transport metabolism, Glucose Transporter Type 4 metabolism, Insulin metabolism, trans-Golgi Network metabolism
- Abstract
In insulin target tissues, GLUT4 is known to traffic through multiple compartments that may involve ubiquitin- and/or SUMO-dependent targeting. During these trafficking steps, GLUT4 is sorted into a storage reservoir compartment that is acutely released by insulin signalling processes that are downstream of PI 3-kinase associated changes in inositol phospholipids. As ESCRT components have recently been found to influence cellular sorting processes that are related to changes in both ubiquitination and inositol phospholipids, we have examined whether GLUT4 traffic is routed through ESCRT dependent sorting steps. Introduction of the dominant negative inhibitory constructs of the ESCRT-III components CHMP3 (CHMP3(1-179)) and Vps4 (GFP-Vps4(E235Q)) into rat adipocytes leads to the accumulation of GLUT4 in large, coalesced and extended vesicles structures that co-localise with the inhibitory constructs over large parts of the extended structure. A new swollen hybrid and extensively ubiquitinated compartment is produced in which GLUT4 co-localises more extensively with the endosomal markers including EEA1 and transferrin receptors but also with the TGN marker syntaxin6. These perturbations are associated with failure of insulin action on GLUT4 traffic to the cell surface and suggest impairment in an ESCRT-dependent sorting step used for GLUT4 traffic to its specialised reservoir compartment.
- Published
- 2012
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45. AS160 phosphotyrosine-binding domain constructs inhibit insulin-stimulated GLUT4 vesicle fusion with the plasma membrane.
- Author
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Koumanov F, Richardson JD, Murrow BA, and Holman GD
- Subjects
- Animals, GTPase-Activating Proteins metabolism, Glucose metabolism, Humans, Insulin metabolism, Phosphorylation, Protein Binding, Protein Isoforms, Rats, Cell Membrane metabolism, GTPase-Activating Proteins chemistry, Glucose Transporter Type 4 chemistry, Phosphotyrosine chemistry
- Abstract
AS160 (TBC1D4) is a known Akt substrate that is phosphorylated downstream of insulin action and that leads to regulated traffic of GLUT4. As GLUT4 vesicle fusion with the plasma membrane is a highly regulated step in GLUT4 traffic, we investigated whether AS160 and 14-3-3 interactions are involved in this process. Fusion was inhibited by a human truncated AS160 variant that encompasses the first N-terminal phosphotyrosine-binding (PTB) domain, by either of the two N-terminal PTB domains, and by a tandem construct of both PTB domains of rat AS160. We also found that in vitro GLUT4 vesicle fusion was strongly inhibited by the 14-3-3-quenching inhibitors R18 and fusicoccin. To investigate the mode of interaction of AS160 and 14-3-3, we examined insulin-dependent increases in the levels of these proteins on GLUT4 vesicles. 14-3-3γ was enriched on insulin-stimulated vesicles, and its binding to AS160 on GLUT4 vesicles was inhibited by the AS160 tandem PTB domain construct. These data suggest a model for PTB domain action on GLUT4 vesicle fusion in which these constructs inhibit insulin-stimulated 14-3-3γ interaction with AS160 rather than AS160 phosphorylation.
- Published
- 2011
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46. Translocation of the Na+/H+ exchanger 1 (NHE1) in cardiomyocyte responses to insulin and energy-status signalling.
- Author
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Lawrence SP, Holman GD, and Koumanov F
- Subjects
- Animals, Biotinylation, Cell Hypoxia, Cells, Cultured, Electric Stimulation, Male, Microscopy, Confocal, Myocardial Contraction, Myocytes, Cardiac enzymology, Protein Transport, Rats, Rats, Wistar, Sarcolemma metabolism, Sodium-Hydrogen Exchanger 1, Surface Properties, Uncoupling Agents pharmacology, Energy Metabolism, Glucose Transporter Type 4 metabolism, Insulin physiology, Myocytes, Cardiac metabolism, Signal Transduction, Sodium-Hydrogen Exchangers metabolism
- Abstract
The Na+/H+ exchanger NHE1 is a highly regulated membrane protein that is required for pH homoeostasis in cardiomyocytes. The activation of NHE1 leads to proton extrusion, which is essential for counteracting cellular acidity that occurs following increased metabolic activity or ischaemia. The activation of NHE1 intrinsic catalytic activity has been well characterized and established experimentally. However, we have examined in the present study whether a net translocation of NHE1 to the sarcolemma of cardiomyocytes may also be involved in the activation process. We have determined the distribution of NHE1 by means of immunofluorescence microscopy and cell-surface biotinylation. We have discovered changes in the distribution of NHE1 that occur when cardiomyocytes are stimulated with insulin that are PI3K (phosphoinositide 3-kinase)-dependent. Translocation of NHE1 also occurs when cardiomyocytes are challenged by hypoxia, or inhibition of mitochondrial oxidative metabolism or electrically induced contraction, but these responses occur through a PI3K-independent process. As the proposed additional level of control of NHE1 through translocation was unexpected, we have compared this process with the well-established translocation of the glucose transporter GLUT4. In immunofluorescence microscopy comparisons, the translocation of NHE1 and GLUT4 to the sarcolemma that occur in response to insulin appear to be very similar. However, in basal unstimulated cells the two proteins are mainly located, with the exception of some co-localization in the perinuclear region, in distinct subcellular compartments. We propose that the mechanisms of translocation of NHE1 and GLUT4 are linked such that they provide spatially and temporally co-ordinated responses to cardiac challenges that necessitate re-adjustments in glucose transport, glucose metabolism and cell pH.
- Published
- 2010
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47. Kinetics of GLUT4 trafficking in rat and human skeletal muscle.
- Author
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Karlsson HK, Chibalin AV, Koistinen HA, Yang J, Koumanov F, Wallberg-Henriksson H, Zierath JR, and Holman GD
- Subjects
- Adult, Animals, Biopsy, Cell Membrane metabolism, Exocytosis, Humans, Kinetics, Male, Middle Aged, Phosphoproteins metabolism, Protein Transport, Rats, Glucose metabolism, Glucose Transporter Type 4 metabolism, Insulin physiology, Muscle, Skeletal physiology
- Abstract
Objective: In skeletal muscle, insulin stimulates glucose transport activity three- to fourfold, and a large part of this stimulation is associated with a net translocation of GLUT4 from an intracellular compartment to the cell surface. We examined the extent to which insulin or the AMP-activated protein kinase activator AICAR can lead to a stimulation of the exocytosis limb of the GLUT4 translocation pathway and thereby account for the net increase in glucose transport activity., Research Design and Methods: Using a biotinylated photoaffinity label, we tagged endogenous GLUT4 and studied the kinetics of exocytosis of the tagged protein in rat and human skeletal muscle in response to insulin or AICAR. Isolated epitrochlearis muscles were obtained from male Wistar rats. Vastus lateralis skeletal muscle strips were prepared from open muscle biopsies obtained from six healthy men (age 39 +/- 11 years and BMI 25.8 +/- 0.8 kg/m2)., Results: In rat epitrochlearis muscle, insulin exposure leads to a sixfold stimulation of the GLUT4 exocytosis rate (with basal and insulin-stimulated rate constants of 0.010 and 0.067 min(-1), respectively). In human vastus lateralis muscle, insulin stimulates GLUT4 translocation by a similar sixfold increase in the exocytosis rate constant (with basal and insulin-stimulated rate constants of 0.011 and 0.075 min(-1), respectively). In contrast, AICAR treatment does not markedly increase exocytosis in either rat or human muscle., Conclusions: Insulin stimulation of the GLUT4 exocytosis rate constant is sufficient to account for most of the observed increase in glucose transport activity in rat and human muscle.
- Published
- 2009
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48. Mice with a disruption of the imprinted Grb10 gene exhibit altered body composition, glucose homeostasis, and insulin signaling during postnatal life.
- Author
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Smith FM, Holt LJ, Garfield AS, Charalambous M, Koumanov F, Perry M, Bazzani R, Sheardown SA, Hegarty BD, Lyons RJ, Cooney GJ, Daly RJ, and Ward A
- Subjects
- Adipose Tissue, White metabolism, Adiposity, Animals, Animals, Newborn, Body Weight, Enzyme Activation, Feeding Behavior, Glucose analysis, Insulin blood, Leptin blood, Male, Mice, Muscle, Skeletal metabolism, Phosphotyrosine metabolism, Proto-Oncogene Proteins c-akt metabolism, Receptor, IGF Type 1 metabolism, Receptor, Insulin metabolism, Signal Transduction, Body Composition, GRB10 Adaptor Protein genetics, Genomic Imprinting genetics, Glucose metabolism, Homeostasis, Insulin metabolism, Mutation genetics
- Abstract
The Grb10 adapter protein is capable of interacting with a variety of receptor tyrosine kinases, including, notably, the insulin receptor. Biochemical and cell culture experiments have indicated that Grb10 might act as an inhibitor of insulin signaling. We have used mice with a disruption of the Grb10 gene (Grb10Delta2-4 mice) to assess whether Grb10 might influence insulin signaling and glucose homeostasis in vivo. Adult Grb10Delta2-4 mice were found to have improved whole-body glucose tolerance and insulin sensitivity, as well as increased muscle mass and reduced adiposity. Tissue-specific changes in insulin receptor tyrosine phosphorylation were consistent with a model in which Grb10, like the closely related Grb14 adapter protein, prevents specific protein tyrosine phosphatases from accessing phosphorylated tyrosines within the kinase activation loop. Furthermore, insulin-induced IRS-1 tyrosine phosphorylation was enhanced in Grb10Delta2-4 mutant animals, supporting a role for Grb10 in attenuation of signal transmission from the insulin receptor to IRS-1. We have previously shown that Grb10 strongly influences growth of the fetus and placenta. Thus, Grb10 forms a link between fetal growth and glucose-regulated metabolism in postnatal life and is a candidate for involvement in the process of fetal programming of adult metabolic health.
- Published
- 2007
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49. Thrifty Tbc1d1 and Tbc1d4 proteins link signalling and membrane trafficking pathways.
- Author
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Koumanov F and Holman GD
- Subjects
- Animals, Glucose Transporter Type 4 metabolism, Humans, Insulin metabolism, Protein Transport, Cell Membrane metabolism, Nuclear Proteins metabolism, Signal Transduction
- Abstract
Establishing a complete pathway which links occupancy of the insulin receptor to GLUT4 translocation has been particularly elusive because of the complexities involved in studying both signalling and membrane trafficking processes. However, Lienhard's group has now discovered two related molecules that could function in this linking role. These proteins, Tbc1d4 (also known as AS160) and now Tbc1d1, as reported in this issue of the Biochemical Journal, have been demonstrated to be Rab GAPs (GTPase-activating proteins) that link upstream to Akt (protein kinase B) and phosphoinositide 3-kinase and downstream to Rabs involved in trafficking of GLUT4 vesicles. The data from Leinhard and colleagues suggest that high levels of Rab GAP activity lead to suppression of GLUT4 translocation and this observation has wide significance and is likely to be relevant to the recent discovery that mutations in the Tbc1d1 gene lead to some cases of severe human obesity.
- Published
- 2007
- Full Text
- View/download PDF
50. Insulin signaling meets vesicle traffic of GLUT4 at a plasma-membrane-activated fusion step.
- Author
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Koumanov F, Jin B, Yang J, and Holman GD
- Subjects
- Adenosine Triphosphate metabolism, Adipocytes drug effects, Adipocytes metabolism, Animals, Creatine Kinase metabolism, Exocytosis, Fluorescence Recovery After Photobleaching, Glucose metabolism, Glucose Transporter Type 4, Insulin pharmacology, Kinetics, Liposomes, Magnesium Chloride metabolism, Models, Biological, Monosaccharide Transport Proteins genetics, Muscle Proteins genetics, Phosphocreatine metabolism, Phosphorylation, Protein Serine-Threonine Kinases metabolism, Protein Transport drug effects, Protein Transport genetics, Proto-Oncogene Proteins metabolism, Proto-Oncogene Proteins c-akt, Rats, Signal Transduction drug effects, Signal Transduction genetics, Signal Transduction physiology, Cell Membrane metabolism, Insulin metabolism, Membrane Fusion, Monosaccharide Transport Proteins metabolism, Muscle Proteins metabolism, Transport Vesicles metabolism
- Abstract
A hypothesis that accounts for most of the available literature on insulin-stimulated GLUT4 translocation is that insulin action controls the access of GLUT4 vesicles to a constitutively active plasma-membrane fusion process. However, using an in vitro fusion assay, we show here that fusion is not constitutively active. Instead, the rate of fusion activity is stimulated 8-fold by insulin. Both the magnitude and time course of stimulated in vitro fusion recapitulate the cellular insulin response. Fusion is cell cytoplasm and SNARE dependent but does not require cell cytoskeleton. Furthermore, insulin activation of the plasma-membrane fraction of the fusion reaction is the essential step in regulation. Akt from the cytoplasm fraction is required for fusion. However, the participation of Akt in the stimulation of in vitro fusion is dependent on its in vitro recruitment onto the insulin-activated plasma membrane.
- Published
- 2005
- Full Text
- View/download PDF
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