Your search keyword '"Maushart, Claudia Irene"' showing total 12 results

1. Author Correction: Predicting standardized uptake value of brown adipose tissue from CT scans using convolutional neural networks.

Author

Erdil E, Becker AS, Schwyzer M, Martinez-Tellez B, Ruiz JR, Sartoretti T, Vargas HA, Burger AI, Chirindel A, Wild D, Zamboni N, Deplancke B, Gardeux V, Maushart CI, Betz MJ, Wolfrum C, and Konukoglu E

Published

2024

2. Predicting standardized uptake value of brown adipose tissue from CT scans using convolutional neural networks.

Author

Erdil E, Becker AS, Schwyzer M, Martinez-Tellez B, Ruiz JR, Sartoretti T, Vargas HA, Burger AI, Chirindel A, Wild D, Zamboni N, Deplancke B, Gardeux V, Maushart CI, Betz MJ, Wolfrum C, and Konukoglu E

Subjects

Humans, Female, Male, Tomography, X-Ray Computed methods, Middle Aged, Radiopharmaceuticals pharmacokinetics, Radiopharmaceuticals metabolism, Aged, Adult, Adipose Tissue, Brown diagnostic imaging, Adipose Tissue, Brown metabolism, Fluorodeoxyglucose F18 pharmacokinetics, Fluorodeoxyglucose F18 metabolism, Neural Networks, Computer, Positron Emission Tomography Computed Tomography methods

Abstract

The standard method for identifying active Brown Adipose Tissue (BAT) is [ 18 F]-Fluorodeoxyglucose ([ 18 F]-FDG) PET/CT imaging, which is costly and exposes patients to radiation, making it impractical for population studies. These issues can be addressed with computational methods that predict [ 18 F]-FDG uptake by BAT from CT; earlier population studies pave the way for developing such methods by showing some correlation between the Hounsfield Unit (HU) of BAT in CT and the corresponding [ 18 F]-FDG uptake in PET. In this study, we propose training convolutional neural networks (CNNs) to predict [ 18 F]-FDG uptake by BAT from unenhanced CT scans in the restricted regions that are likely to contain BAT. Using the Attention U-Net architecture, we perform experiments on datasets from four different cohorts, the largest study to date. We segment BAT regions using predicted [ 18 F]-FDG uptake values, achieving 23% to 40% better accuracy than conventional CT thresholding. Additionally, BAT volumes computed from the segmentations distinguish the subjects with and without active BAT with an AUC of 0.8, compared to 0.6 for CT thresholding. These findings suggest CNNs can facilitate large-scale imaging studies more efficiently and cost-effectively using only CT., (© 2024. The Author(s).)

Published

2024

3. Single-nucleus transcriptomics identifies separate classes of UCP1 and futile cycle adipocytes.

Author

Wang T, Sharma AK, Wu C, Maushart CI, Ghosh A, Yang W, Stefanicka P, Kovanicova Z, Ukropec J, Zhang J, Arnold M, Klug M, De Bock K, Schneider U, Popescu C, Zheng B, Ding L, Long F, Dewal RS, Moser C, Sun W, Dong H, Takes M, Suelberg D, Mameghani A, Nocito A, Zech CJ, Chirindel A, Wild D, Burger IA, Schön MR, Dietrich A, Gao M, Heine M, Sun Y, Vargas-Castillo A, Søberg S, Scheele C, Balaz M, Blüher M, Betz MJ, Spiegelman BM, and Wolfrum C

Subjects

Animals, Female, Humans, Male, Mice, Adipocytes, Beige metabolism, Adipocytes, Beige cytology, Energy Metabolism, Mice, Inbred C57BL, Thermogenesis genetics, Transcriptome, Uncoupling Protein 1 metabolism, Uncoupling Protein 1 genetics, Adipocytes metabolism, Adipocytes cytology

Abstract

Adipose tissue can recruit catabolic adipocytes that utilize chemical energy to dissipate heat. This process occurs either by uncoupled respiration through uncoupling protein 1 (UCP1) or by utilizing ATP-dependent futile cycles (FCs). However, it remains unclear how these pathways coexist since both processes rely on the mitochondrial membrane potential. Utilizing single-nucleus RNA sequencing to deconvolute the heterogeneity of subcutaneous adipose tissue in mice and humans, we identify at least 2 distinct subpopulations of beige adipocytes: FC-adipocytes and UCP1-beige adipocytes. Importantly, we demonstrate that the FC-adipocyte subpopulation is highly metabolically active and utilizes FCs to dissipate energy, thus contributing to thermogenesis independent of Ucp1. Furthermore, FC-adipocytes are important drivers of systemic energy homeostasis and linked to glucose metabolism and obesity resistance in humans. Taken together, our findings identify a noncanonical thermogenic adipocyte subpopulation, which could be an important regulator of energy homeostasis in mammals., Competing Interests: Declaration of interests The authors declare no competing interests., (Copyright © 2024 The Author(s). Published by Elsevier Inc. All rights reserved.)

Published

2024

4. Effect of high-dose glucocorticoid treatment on human brown adipose tissue activity: a randomised, double-blinded, placebo-controlled cross-over trial in healthy men.

Author

Maushart CI, Sun W, Othman A, Ghosh A, Senn JR, Fischer JGW, Madoerin P, Loeliger RC, Benz RM, Takes M, Zech CJ, Chirindel A, Beuschlein F, Reincke M, Wild D, Bieri O, Zamboni N, Wolfrum C, and Betz MJ

Subjects

Male, Humans, Fluorodeoxyglucose F18 metabolism, Fluorodeoxyglucose F18 pharmacology, Prednisone adverse effects, Prednisone metabolism, Cross-Over Studies, Calcium metabolism, Positron Emission Tomography Computed Tomography, Energy Metabolism, Thermogenesis, Cold Temperature, Glucocorticoids adverse effects, Adipose Tissue, Brown metabolism

Abstract

Background: Glucocorticoids (GCs) are widely applied anti-inflammatory drugs that are associated with adverse metabolic effects including insulin resistance and weight gain. Previous research indicates that GCs may negatively impact brown adipose tissue (BAT) activity in rodents and humans., Methods: We performed a randomised, double-blinded cross-over trial in 16 healthy men (clinicaltrials.govNCT03269747). Participants received 40 mg of prednisone per day for one week or placebo. After a washout period of four weeks, participants crossed-over to the other treatment arm. Primary endpoint was the increase in resting energy expenditure (EE) in response to a mild-cold stimulus (cold-induced thermogenesis, CIT). Secondary outcomes comprised mean 18 F-FDG uptake into supraclavicular BAT (SUV mean ) as determined by FDG-PET/CT, volume of the BAT depot as well as fat content determined by MRI. The plasma metabolome and the transcriptome of supraclavicular BAT and of skeletal muscle biopsies after each treatment period were analysed., Findings: Sixteen participants were recruited to the trial and completed it successfully per protocol. After prednisone treatment resting EE was higher both during warm and cold conditions. However, CIT was similar, 153 kcal/24 h (95% CI 40-266 kcal/24 h) after placebo and 186 kcal/24 h (95% CI 94-277 kcal/24 h, p = 0.38) after prednisone. SUV mean of BAT after cold exposure was not significantly affected by prednisone (3.36 g/ml, 95% CI 2.69-4.02 g/ml, vs 3.07 g/ml, 95% CI 2.52-3.62 g/ml, p = 0.28). Results of plasma metabolomics and BAT transcriptomics corroborated these findings. RNA sequencing of muscle biopsies revealed higher expression of genes involved in calcium cycling. No serious adverse events were reported and adverse events were evenly distributed between the two treatments., Interpretation: Prednisone increased EE in healthy men possibly by altering skeletal muscle calcium cycling. Cold-induced BAT activity was not affected by GC treatment, which indicates that the unfavourable metabolic effects of GCs are independent from thermogenic adipocytes., Funding: Grants from Swiss National Science Foundation (PZ00P3_167823), Bangerter-Rhyner Foundation and from Nora van der Meeuwen-Häfliger Foundation to MJB. A fellowship-grant from the Swiss National Science Foundation (SNF211053) to WS. Grants from German Research Foundation (project number: 314061271-TRR 205) and Else Kröner-Fresenius (grant support 2012_A103 and 2015_A228) to MR., Competing Interests: Declaration of interests The authors declare no conflicts of interest., (Copyright © 2023 The Author(s). Published by Elsevier B.V. All rights reserved.)

Published

2023

5. Acute effect of propranolol on resting energy expenditure in hyperthyroid patients.

Author

Senn JR, Löliger RC, Fischer JGW, Bur F, Maushart CI, and Betz MJ

Subjects

Humans, Adrenergic beta-Antagonists pharmacology, Adrenergic beta-Antagonists therapeutic use, Energy Metabolism physiology, Prospective Studies, Hyperthyroidism drug therapy, Propranolol pharmacology, Propranolol therapeutic use

Abstract

Objective: Hyperthyroidism is a common endocrine disorder which leads to higher resting energy expenditure (REE). Increased activity of brown adipose tissue (BAT) contributes to elevated REE in hyperthyroid patients. For rapid control of hyperthyroid symptoms, the non-selective β-blocker propranolol is widely used. While, long-term treatment with propranolol reduces REE it is currently unclear whether it can also acutely diminish REE., Design: In the present prospective interventional trial we investigated the effect of propranolol on REE in hyperthyroid patients., Methods: Nineteen patients with overt primary hyperthyroidism were recruited from the endocrine outpatient clinic. REE was measured by indirect calorimetry before and after an acute dose of 80mg propranolol and during a control period, respectively. Additionally, skin temperature was recorded at eleven predefined locations during each study visit, vital signes and heart rate (HR) were measured before and after administration of propranolol., Results: Mean REE decreased slightly after acute administration of 80mg propranolol (p= 0.03) from 1639 ± 307 kcal/24h to 1594 ± 283 kcal/24h. During the control visit REE did not change significantly. HR correlated significantly with the level of free T3 (R 2 = 0.38, p=0.029) free T4 (R 2 = 0.39, p=0.026). HR decreased 81 ± 12 bpm to 67 ± 7.6 bpm 90 minutes after oral administration of propranolol (p<0.0001). Skin temperature did not change after propranolol intake., Conclusions: In hyperthyroid patients a single dose of propranolol reduced heart rate substantially but REE diminished only marginally probably due to reduced myocardial energy consumption. Our data speak against a relevant contribution of BAT to the higher REE in hyperthyroidism., Clinical Trial Registration: ClinicalTrials.gov, identifier (NCT03379181)., 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 © 2023 Senn, Löliger, Fischer, Bur, Maushart and Betz.)

Published

2023

6. Fluvastatin Reduces Glucose Tolerance in Healthy Young Individuals Independently of Cold Induced BAT Activity.

Author

Felder M, Maushart CI, Gashi G, Senn JR, Becker AS, Müller J, Balaz M, Wolfrum C, Burger IA, and Betz MJ

Subjects

Adipose Tissue, Brown metabolism, Adult, Carbohydrate Metabolism drug effects, Cold Temperature, Energy Metabolism drug effects, Glucose Tolerance Test methods, Humans, Male, Prospective Studies, Thermogenesis drug effects, Young Adult, Adipose Tissue, Brown drug effects, Fluvastatin therapeutic use, Glucose metabolism

Abstract

Background: Statins are commonly prescribed for primary and secondary prevention of atherosclerotic disease. They reduce cholesterol biosynthesis by inhibiting hydroxymethylglutaryl-coenzyme A-reductase (HMG-CoA-reductase) and therefore mevalonate synthesis. Several studies reported a small, but significant increase in the diagnosis of diabetes mellitus with statin treatment. The molecular mechanisms behind this adverse effect are not yet fully understood. Brown adipose tissue (BAT), which plays a role in thermogenesis, has been associated with a reduced risk of insulin resistance. Statins inhibit adipose tissue browning and have been negatively linked to the presence of BAT in humans. We therefore speculated that inhibition of BAT by statins contributes to increased insulin resistance in humans., Methods: A prospective study was conducted in 17 young, healthy men. After screening whether significant cold-induced thermogenesis (CIT) was present, participants underwent glucose tolerance testing (oGTT) and assessment of BAT activity by FDG-PET/MRI after cold-exposure and treatment with a β3-agonist. Fluvastatin 2x40mg per day was then administered for two weeks and oGTT and FDG-PET/MRI were repeated., Results: Two weeks of fluvastatin treatment led to a significant increase in glucose area under the curve (AUC) during oGTT (p=0.02), reduction in total cholesterol and LDL cholesterol (both p<0.0001). Insulin AUC (p=0.26), resting energy expenditure (REE) (p=0.44) and diet induced thermogenesis (DIT) (p=0.27) did not change significantly. The Matsuda index, as an indicator of insulin sensitivity, was lower after fluvastatin intake, but the difference was not statistically significant (p=0.09). As parameters of BAT activity, mean standard uptake value (SUV mean ) (p=0.12), volume (p=0.49) and total glycolysis (p=0.74) did not change significantly during the intervention. Matsuda index, was inversely related to SUV mean and the respiratory exchange ratio (RER) (both R 2 = 0.44, p=0.005) at baseline, but not after administration of fluvastatin (R 2 = 0.08, p=0.29, and R 2 = 0.14, p=0.16, respectively)., Conclusions: Treatment with fluvastatin for two weeks reduced serum lipid levels but increased glucose AUC in young, healthy men, indicating reduced glucose tolerance. This was not associated with changes in cold-induced BAT activity., 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 Felder, Maushart, Gashi, Senn, Becker, Müller, Balaz, Wolfrum, Burger and Betz.)

Published

2021

7. Free Thyroxine Levels are Associated with Cold Induced Thermogenesis in Healthy Euthyroid Individuals.

Author

Maushart CI, Senn JR, Loeliger RC, Kraenzlin ME, Müller J, Becker AS, Balaz M, Wolfrum C, Burger IA, and Betz MJ

Subjects

Adult, Female, Follow-Up Studies, Healthy Volunteers, Humans, Male, Adipose Tissue, Brown physiopathology, Cold Temperature, Energy Metabolism, Thermogenesis, Thyroxine metabolism, Triiodothyronine metabolism

Abstract

Thyroid hormone (TH) is an important regulator of mammalian metabolism and facilitates cold induced thermogenesis (CIT) in brown adipose tissue (BAT). Profound hypothyroidism or hyperthyroidism lead to alterations in BAT function and CIT. In euthyroid humans the inter-individual variation of thyroid hormones is relatively large. Therefore, we investigated whether levels of free thyroxine (T4) or free triiodothyronine (T3) are positively associated with CIT in euthyroid individuals. We performed an observational study in 79 healthy, euthyroid volunteers (mean age 25.6 years, mean BMI 23.0 kg · m -2 ). Resting energy expenditure (REE) was measured by indirect calorimetry during warm conditions (EE warm ) and after a mild cold stimulus of two hours (EE cold ). CIT was calculated as the difference between EE cold and EE warm . BAT activity was assessed by 18 F-FDG-PET after a mild cold stimulus in a subset of 26 participants. EE cold and CIT were significantly related to levels of free T4 (R 2 = 0.11, p=0.0025 and R 2 = 0.13, p=0.0011, respectively) but not to free T3 and TSH. Cold induced BAT activity was also associated with levels of free T4 (R 2 = 0.21, p=0.018). CIT was approximately fourfold higher in participants in the highest tertile of free T4 as compared to the lowest tertile. Additionally, free T4 was weakly, albeit significantly associated with outdoor temperature seven days prior to the respective study visit (R 2 = 0.06, p=0.037). These finding suggests that variations in thyroid hormone levels within the euthyroid range are related to the capability to adapt to cool temperatures and affect energy balance., 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 Maushart, Senn, Loeliger, Kraenzlin, Müller, Becker, Balaz, Wolfrum, Burger and Betz.)

Published

2021

8. Relation of diet-induced thermogenesis to brown adipose tissue activity in healthy men.

Author

Loeliger RC, Maushart CI, Gashi G, Senn JR, Felder M, Becker AS, Müller J, Balaz M, Wolfrum C, Burger IA, and Betz MJ

Subjects

Adipose Tissue, Brown diagnostic imaging, Adult, Calorimetry, Indirect, Cold Temperature, Energy Metabolism, Fluorodeoxyglucose F18, Glucose Tolerance Test, Healthy Volunteers, Humans, Leptin blood, Magnetic Resonance Imaging, Male, Positron-Emission Tomography, Prospective Studies, Reference Values, Young Adult, Adipose Tissue, Brown physiology, Diet, Thermogenesis physiology

Abstract

Human brown adipose tissue (BAT) is a thermogenic tissue activated by the sympathetic nervous system in response to cold exposure. It contributes to energy expenditure (EE) and takes up glucose and lipids from the circulation. Studies in rodents suggest that BAT contributes to the transient rise in EE after food intake, so-called diet-induced thermogenesis (DIT). We investigated the relationship between human BAT activity and DIT in response to glucose intake in 17 healthy volunteers. We assessed DIT, cold-induced thermogenesis (CIT), and maximum BAT activity at three separate study visits within 2 wk. DIT was measured by indirect calorimetry during an oral glucose tolerance test. CIT was assessed as the difference in EE after cold exposure of 2-h duration as compared with warm conditions. Maximal activity of BAT was assessed by 18-F-fluoro-deoxyglucose ( 18 F-FDG) 18 F-FDG-PET/MRI after cold exposure and concomitant pharmacological stimulation with mirabegron. Seventeen healthy men (mean age = 23.4 yr, mean body mass index = 23.2 kg/m 2 ) participated in the study. EE increased from 1,908 (±181) kcal/24 h to 2,128 (±277) kcal/24 h ( P < 0.0001, +11.5%) after mild cold exposure. An oral glucose load increased EE from 1,911 (±165) kcal/24 h to 2,096 (±167) kcal/24 h at 60 min ( P < 0.0001, +9.7%). The increase in EE in response to cold was significantly associated with BAT activity ( R 2  = 0.43, P = 0.004). However, DIT was not associated with BAT activity ( R 2  = 0.015, P = 0.64). DIT after an oral glucose load was not associated with stimulated 18 F-FDG uptake into BAT, suggesting that DIT is independent from BAT activity in humans (Clinicaltrials.gov Registration No. NCT03189511). NEW & NOTEWORTHY Cold-induced thermogenesis (CIT) was related to BAT activity as determined by FDG-PET/MRI after stimulation of BAT. Diet-induced thermogenesis (DIT) was not related to stimulated BAT activity. Supraclavicular skin temperature was related to CIT but not to DIT. DIT in humans is probably not a function of BAT.

Published

2021

9. Comparison of [ 18 F]FDG PET/CT with magnetic resonance imaging for the assessment of human brown adipose tissue activity.

Author

Fischer JGW, Maushart CI, Becker AS, Müller J, Madoerin P, Chirindel A, Wild D, Ter Voert EEGW, Bieri O, Burger I, and Betz MJ

Abstract

Background: Brown adipose tissue (BAT) is a thermogenic tissue which can generate heat in response to mild cold exposure. As it constitutes a promising target in the fight against obesity, we need reliable techniques to quantify its activity in response to therapeutic interventions. The current standard for the quantification of BAT activity is [ 18 F]FDG PET/CT. Various sequences in magnetic resonance imaging (MRI), including those measuring its relative fat content (fat fraction), have been proposed and evaluated in small proof-of-principle studies, showing diverging results. Here, we systematically compare the predictive value of adipose tissue fat fraction measured by MRI to the results of [ 18 F]FDG PET/CT., Methods: We analyzed the diagnostic reliability of MRI measured fat fraction (FF) for the estimation of human BAT activity in two cohorts of healthy volunteers participating in two prospective clinical trials (NCT03189511, NCT03269747). In both cohorts, BAT activity was stimulated by mild cold exposure. In cohort 1, we performed [ 18 F]FDG PET/MRI; in cohort 2, we used [ 18 F]FDG PET/CT followed by MRI. Fat fraction was determined by 2-point Dixon and 6-point Dixon measurement, respectively. Fat fraction values were compared to SUV mean in the corresponding tissue depot by simple linear regression., Results: In total, 33 male participants with a mean age of 23.9 years and a mean BMI of 22.8 kg/m 2 were recruited. In 32 participants, active BAT was visible. On an intra-individual level, FF was significantly lower in high-SUV areas compared to low-SUV areas (cohort 1: p < 0.0001 and cohort 2: p = 0.0002). The FF of the supraclavicular adipose tissue depot was inversely related to its metabolic activity (SUVmean) in both cohorts (cohort 1: R 2  = 0.18, p = 0.09 and cohort 2: R 2  = 0.42, p = 0.009)., Conclusion: MRI FF explains only about 40% of the variation in BAT glucose uptake. Thus, it can currently not be used to substitute [ 18 F] FDG PET-based imaging for quantification of BAT activity., Trial Registration: ClinicalTrials.gov. NCT03189511 , registered on June 17, 2017, actual study start date was on May 31, 2017, retrospectively registered. NCT03269747 , registered on September 01, 2017.

Published

2020

10. Low-dose 18 F-FDG TOF-PET/MR for accurate quantification of brown adipose tissue in healthy volunteers.

Author

Ter Voert EEGW, Svirydenka H, Müller J, Becker AS, Balaz M, Efthymiou V, Maushart CI, Gashi G, Wolfrum C, Betz MJ, and Burger IA

Abstract

Background: Positron emission tomography (PET) is increasingly applied for in vivo brown adipose tissue (BAT) research in healthy volunteers. To limit the radiation exposure, the injected 18 F-FDG tracer dose should be as low as possible. With simultaneous PET/MR imaging, the radiation exposure due to computed tomography (CT) can be avoided, but more importantly, the PET acquisition time can often be increased to match the more extensive magnetic resonance (MR) imaging protocol. The potential gain in detected coincidence counts, due to the longer acquisition time, can then be applied to decrease the injected tracer dose. The aim of this study was to investigate the minimal 18 F-FDG dose for a 10-min time-of-flight (TOF) PET/MR acquisition that would still allow accurate quantification of supraclavicular BAT volume and activity., Methods: Twenty datasets from 13 volunteers were retrospectively included from a prospective clinical study. PET emission datasets were modified to simulate step-wise reductions of the original 75 MBq injected dose. The resulting PET images were visually and quantitatively assessed and compared to a 4-min reference scan. For the visual assessment, the image quality and artifacts were scored using a 5-point and a 3-point Likert scale. For the quantitative analysis, image noise and artifacts, BAT metabolic activity, BAT metabolic volume (BMV), and total BAT glycolysis (TBG) were investigated., Results: The visual assessment showed still good image quality for the 35%, 30%, and 25% activity reconstructions with no artifacts. Quantitatively, the background noise was similar to the reference for the 35% and 30% activity reconstructions and the artifacts started to increase significantly in the 25% and lower activity reconstructions. There was no significant difference in supraclavicular BAT metabolic activity, BMV, and TBG between the reference and the 35% to 20% activity reconstructions., Conclusions: This study indicates that when the PET acquisition time is matched to the 10-min MRI protocol, the injected 18 F-FDG tracer dose can be reduced to approximately 19 MBq (25%) while maintaining image quality and accurate supraclavicular BAT quantification. This could decrease the effective dose from 1.4 mSv to 0.36 mSv.

Published

2020

11. Inhibition of Mevalonate Pathway Prevents Adipocyte Browning in Mice and Men by Affecting Protein Prenylation.

Author

Balaz M, Becker AS, Balazova L, Straub L, Müller J, Gashi G, Maushart CI, Sun W, Dong H, Moser C, Horvath C, Efthymiou V, Rachamin Y, Modica S, Zellweger C, Bacanovic S, Stefanicka P, Varga L, Ukropcova B, Profant M, Opitz L, Amri EZ, Akula MK, Bergo M, Ukropec J, Falk C, Zamboni N, Betz MJ, Burger IA, and Wolfrum C

Subjects

Adipocytes, Brown metabolism, Adolescent, Adult, Animals, Cell Differentiation drug effects, Cell Proliferation drug effects, Cells, Cultured, Humans, Male, Mice, Mice, Inbred Strains, Middle Aged, Uncoupling Protein 1 metabolism, Young Adult, Adipocytes, Brown drug effects, Mevalonic Acid pharmacology, Protein Prenylation drug effects, Uncoupling Protein 1 antagonists & inhibitors

Abstract

Recent research focusing on brown adipose tissue (BAT) function emphasizes its importance in systemic metabolic homeostasis. We show here that genetic and pharmacological inhibition of the mevalonate pathway leads to reduced human and mouse brown adipocyte function in vitro and impaired adipose tissue browning in vivo. A retrospective analysis of a large patient cohort suggests an inverse correlation between statin use and active BAT in humans, while we show in a prospective clinical trial that fluvastatin reduces thermogenic gene expression in human BAT. We identify geranylgeranyl pyrophosphate as the key mevalonate pathway intermediate driving adipocyte browning in vitro and in vivo, whose effects are mediated by geranylgeranyltransferases (GGTases), enzymes catalyzing geranylgeranylation of small GTP-binding proteins, thereby regulating YAP1/TAZ signaling through F-actin modulation. Conversely, adipocyte-specific ablation of GGTase I leads to impaired adipocyte browning, reduced energy expenditure, and glucose intolerance under obesogenic conditions, highlighting the importance of this pathway in modulating brown adipocyte functionality and systemic metabolism., (Copyright © 2018 Elsevier Inc. All rights reserved.)

Published

2019

12. Resolution of Hypothyroidism Restores Cold-Induced Thermogenesis in Humans.

Author

Maushart CI, Loeliger R, Gashi G, Christ-Crain M, and Betz MJ

Subjects

Adult, Female, Humans, Hypothyroidism blood, Hypothyroidism diagnosis, Hypothyroidism physiopathology, Male, Middle Aged, Prospective Studies, Recovery of Function, Thyroxine adverse effects, Time Factors, Treatment Outcome, Young Adult, Cold Temperature, Energy Metabolism, Hormone Replacement Therapy adverse effects, Hypothyroidism drug therapy, Thermogenesis, Thyroxine therapeutic use

Abstract

Background: Hypothyroidism is a frequent endocrine disorder with common symptoms of increased cold sensitivity and unintended weight gain, indicating changes in energy expenditure (EE) and response to cold exposure. Thyroid hormones (TH) play an important role for proper function of brown adipose tissue (BAT) and cold-induced thermogenesis (CIT) in rodents, but the role of hypothyroidism on CIT in humans is uncertain., Methods: This was a prospective observational study. Forty-two patients presenting with subclinical or overt hypothyroidism in whom TH replacement was planned were recruited. Thirty-three patients completed the study. Thermogenesis was measured by indirect calorimetry during warm conditions and after a mild cold stimulus of 90 minutes, both during the hypothyroid state and after at least three months of sufficient TH replacement. CIT was determined as the difference between EE during mildly cold and warm conditions. The primary endpoint was the change of CIT between the hypothyroid and euthyroid state., Results: EE during warm conditions increased from a median of 1330 (interquartile range [IQR] 1251-1433) kcal/24 hours in the hypothyroid state to a median of 1442 (IQR 1294-1579) kcal/24 hours in the euthyroid state (+8.5%; p = 0.0002). EE during mild cold exposure increased from 1399 (IQR 1346-1571) kcal/24 hours to 1610 (IQR 1455-1674) kcal/24 hours (+15%; p < 0.0001). The median CIT was 55 (IQR 1-128) kcal/24 hours at the baseline visit, after restoration of euthyroidism CIT increased by 102% to a median of 111 (IQR 15.5-200) kcal/24 hours (p = 0.011). Serum levels of free thyroxine at the respective visit and mean outdoor temperature during the preceeding 30 days were significantly associated with CIT (p = 0.021 and p = 0.001, respectively)., Conclusion: Restoring euthyroidism significantly increases CIT in hypothyroid humans.

Published

2019