Your search keyword '"Seeley RJ"' showing total 458 results

1. Hypothalamic melanin-concentrating hormone and estrogen-induced weight loss.

Author

Mystkowski, P, Seeley, RJ, Hahn, TM, Baskin, DG, Havel, PJ, Matsumoto, AM, Wilkinson, CW, Peacock-Kinzig, K, Blake, KA, and Schwartz, MW

Subjects

Hypothalamus, Animals, Rats, Rats, Wistar, Leydig Cell Tumor, Disease Models, Animal, Weight Loss, Anorexia, Hormones, Hypothalamic Hormones, Corticotropin-Releasing Hormone, Pituitary Hormones, Pro-Opiomelanocortin, Intercellular Signaling Peptides and Proteins, Melanins, Neuropeptide Y, Proteins, RNA, Messenger, Drug Implants, Estrogens, Neoplasm Transplantation, Energy Metabolism, Eating, Male, Agouti-Related Protein, MCH, estrogen, body weight, energy balance, lateral hypothalamus, anorexia, pair-feeding, Wistar, Disease Models, Animal, RNA, Messenger, Medical and Health Sciences, Psychology and Cognitive Sciences, Neurology & Neurosurgery

Abstract

Melanin-concentrating hormone (MCH) is an orexigenic neuropeptide produced by neurons of the lateral hypothalamic area (LHA). Because genetic MCH deficiency induces hypophagia and loss of body fat, we hypothesized that MCH neurons may represent a specific LHA pathway that, when inhibited, contributes to the pathogenesis of certain anorexia syndromes. To test this hypothesis, we measured behavioral, hormonal, and hypothalamic neuropeptide responses in two models of hyperestrogenemia in male rats, a highly reproducible anorexia paradigm. Whereas estrogen-induced weight loss engaged multiple systems that normally favor recovery of lost weight, the expected increase of MCH mRNA expression induced by energy restriction was selectively and completely abolished. These findings identify MCH neurons as specific targets of estrogen action and suggest that inhibition of these neurons may contribute to the hypophagic effect of estrogen.

Published

2000

2. Cerebrospinal fluid and plasma leptin measurements: covariability with dopamine and cortisol in fasting humans.

Author

Hagan, MM, Havel, PJ, Seeley, RJ, Woods, SC, Ekhator, NN, Baker, DG, Hill, KK, Wortman, MD, Miller, AH, Gingerich, RL, and Geracioti, TD

Subjects

Humans, Dopamine, Hydrocortisone, Leptin, Body Mass Index, Fasting, Smoking, Stress Disorders, Post-Traumatic, Circadian Rhythm, Adult, Middle Aged, Male, Stress Disorders, Post-Traumatic, Neurosciences, Mental Health, Obesity, Nutrition, Clinical Research, Stroke, Metabolic and Endocrine, Endocrinology & Metabolism, Clinical Sciences, Paediatrics and Reproductive Medicine

Abstract

Leptin (OB protein) is an important signal in the regulation of energy balance. Leptin levels correlate with adiposity, but also decrease acutely with caloric restriction and increase with refeeding. The brain is an established critical site of leptin function, yet little is known about leptin concentrations in the central nervous system relative to plasma levels, psychiatric diagnoses, and other endocrine parameters. Therefore, using a novel ultrasensitive leptin assay, we explored relationships of human plasma and cerebrospinal fluid (CSF) leptin levels to body mass index, smoking, posttraumatic stress disorder diagnosis, and levels of dopamine, monoamine metabolites, beta-lipotropin, glucocorticoid, and thyroid and cytokine hormones. A strong linear relation between CSF and plasma leptin levels in the am (r = 0.63; P < 0.002) and afternoon (r = 0.90; P < 0.0001) was revealed. CSF and plasma leptin concentrations decreased during a 12- to 20-h period of fasting. A strong association was found between plasma leptin and CSF dopamine levels (r = 0.74; P < 0.01) as well as between CSF leptin levels and urinary free cortisol (r = 0.73; P < 0.01). Both of these parameters covaried with leptin independently of adiposity, as estimated by body mass index. Implications for leptin transport, regulation, and its potential role in therapeutic strategies for obesity and diabetes are discussed.

Published

1999

3. Low plasma leptin levels contribute to diabetic hyperphagia in rats.

Author

Sindelar, DK, Havel, PJ, Seeley, RJ, Wilkinson, CW, Woods, SC, and Schwartz, MW

Subjects

Biomedical and Clinical Sciences, Nutrition, Autoimmune Disease, Diabetes, Metabolic and endocrine, Animals, Blood Glucose, Diabetes Mellitus, Diabetes Mellitus, Experimental, Hyperphagia, Insulin, Leptin, Male, Obesity, Proteins, Rats, Rats, Long-Evans, Medical and Health Sciences, Endocrinology & Metabolism, Biomedical and clinical sciences

Abstract

The adipocyte hormone leptin reduces food intake in normal animals. During uncontrolled type 1 diabetes, plasma leptin levels fall, whereas food intake increases. To test the hypothesis that low leptin levels contribute to diabetic hyperphagia, we investigated the effect on food intake of replacement of leptin at basal plasma concentrations for 7 days in Long-Evans rats with uncontrolled diabetes induced by streptozotocin (STZ). One group of STZ diabetic rats received saline (STZ + Sal) (n = 11), while the other group (STZ + Lep) (n = 15) received a subcutaneous infusion of recombinant rat leptin (100 microg x kg(-1) x day(-1)) via osmotic minipumps. A nondiabetic control group (Con) (n = 11) received saline only. In the STZ + Sal group, plasma leptin levels decreased by 75% (P < 0.05) from 2.4+/-0.5 on the day before STZ/citrate buffer vehicle (Veh) injection (day 0) to 0.6+/-0.2 ng/ml on day 7. In contrast, plasma leptin levels on days 3-7 were comparable to pretreatment values in both the STZ + Lep group (day 0: 2.6+/-0.4 vs. day 7: 2.5+/-0.3 ng/ml, NS) and the Con group (day 0: 3.8+/-0.4 vs. day 7: 2.9+/-1.0 ng/ml, NS). In the STZ + Sal group, daily food intake increased gradually to values 43% above basal by day 7 (day 0: 24+/-2 to day 7: 33+/-3 g, P < 0.05), whereas food intake did not increase in either the STZ + Lep group (day 0: 24+/-1 vs. day 7: 21+/-2 g, NS), or the Con group (day 0: 23+/-1 vs. day 7: 23+/-2 g). Plasma glucose levels exceeded nondiabetic control values (7.7+/-0.2 mmol/l) in both diabetic groups, but were lower in the STZ + Lep group (17.2+/-1.8 mmol/l) than in the STZ + Sal group (24.3+/-1.1 mmol/l, P < 0.05). To determine if sensitivity to leptin-induced anorexia was affected by STZ treatment, a second experiment was performed in which the effect of intracerebroventricular leptin injection (at doses of 0.35, 1.0, or 3.5 microg) on food intake was measured 10 days after STZ or Veh treatment. Leptin suppressed both 4- and 24-h food intake in the two groups to an equal extent at every dose (by 15, 22, and 35%, respectively). These findings support the hypothesis that the effect of uncontrolled diabetes to lower leptin levels contributes to diabetic hyperphagia and that this effect is not due to altered leptin sensitivity.

Published

1999

4. NPY-induced overfeeding suppresses hypothalamic NPY mRNA expression: potential roles of plasma insulin and leptin.

Author

McMinn, JE, Seeley, RJ, Wilkinson, CW, Havel, PJ, Woods, SC, and Schwartz, MW

Subjects

Hypothalamus, Paraventricular Hypothalamic Nucleus, Animals, Humans, Rats, Obesity, Weight Gain, Hyperphagia, Insulin, Leptin, Neuropeptide Y, Proteins, RNA, Messenger, In Situ Hybridization, Injections, Intraventricular, Gene Expression, Eating, Male, Arcuate Nucleus of Hypothalamus, neuropeptide, obesity, adipose tissue, hypothalamus, food intake, RNA, Messenger, Injections, Intraventricular, Medical and Health Sciences, Endocrinology & Metabolism

Abstract

To test the hypothesis that NPY-induced overfeeding activates compensatory responses that inhibit hypothalamic NPY gene expression, we investigated the effect of chronically administered neuropeptide Y (NPY) on plasma hormones involved in energy balance and on the level of mRNA for hypothalamic neuropeptides. After cannulation of the third cerebral ventricle, male Long-Evans rats received a 4.5-day intracerebroventricular (i.c.v.) infusion of either human NPY (12 microg per day), or synthetic cerebrospinal fluid (CSF). NPY-treated animals were either allowed ad libitum access to food or were pairfed to the intake of CSF-treated controls. In rats fed ad libitum, i.c.v. NPY induced significant increases in food intake (75%), body weight (9%), plasma insulin (150%) and plasma leptin levels (300%) as compared to the i.c.v. CSF group. Levels of plasma leptin, but not insulin, remained elevated in NPY-treated rats that were pairfed to the intake of the CSF group. NPY mRNA levels in the midregion of the arcuate nucleus (ARC) were reduced by 50% in NPY-treated rats that were allowed to overeat, but not in the pairfed group, as determined by in situ hybridization. In contrast, mRNA for corticotropin-releasing hormone (CRH) in the paraventricular nucleus (PVN) and proopiomelanocortin (POMC) in the rostral ARC were not significantly different among groups. These findings indicate that NPY-induced overfeeding suppresses ARC NPY mRNA expression, and that this effect unlikely to be mediated by a direct action of NPY, since it was abolished by limiting food intake in NPY-treated animals to that observed in controls. NPY-induced overfeeding was also associated with elevated plasma levels of leptin and insulin. The effect of these hormones to inhibit NPY gene expression may therefore have contributed to the decrease of NPY mRNA.

Published

1998

5. Effect of a high-fat diet on food intake and hypothalamic neuropeptide gene expression in streptozotocin diabetes.

Author

Chavez, M, Seeley, RJ, Havel, PJ, Friedman, MI, Matson, CA, Woods, SC, and Schwartz, MW

Subjects

Biomedical and Clinical Sciences, Neurosciences, Obesity, Behavioral and Social Science, Nutrition, Diabetes, Cardiovascular, Metabolic and endocrine, Animals, Blood Glucose, Body Weight, Corticotropin-Releasing Hormone, Diabetes Mellitus, Experimental, Dietary Fats, Eating, Fatty Acids, Gene Expression, Hypothalamus, Insulin, Leptin, Male, Neuropeptide Y, Proteins, Rats, Streptozocin, neuropeptide Y, corticotropin-releasing hormone, high-fat diet, streptozotocin, Medical and Health Sciences, Immunology, Biological sciences, Biomedical and clinical sciences, Health sciences

Abstract

Insulin-deficient diabetic rats are markedly hyperphagic when fed a high-carbohydrate (HC) diet, but normophagic when fed a high-fat (HF) diet. When maintained on a HC diet, diabetic rats also exhibit increased gene expression of the orexigenic peptide neuropeptide Y (NPY) in the hypothalamic arcuate nucleus, and reduced expression of the anorectic peptide corticotropin-releasing hormone (CRH) in the paraventricular nucleus, and these changes are hypothesized to contribute to diabetic hyperphagia. In this experiment we assessed whether the normophagia displayed by HF-fed diabetic rats is associated with the opposite profile of NPY and CRH expression. Our results show that relative to diabetic rats on the HC diet, the diabetic rats on the HF diet exhibited significantly reduced caloric intake (-40%), NPY expression in the arcuate nucleus (-27%), and elevated CRH expression in the paraventricular nucleus (+37%). Insulin and corticosterone, which are known to affect hypothalamic NPY and CRH expression, were not different between these two groups, making it unlikely that they can account for the differences in either feeding behavior or hypothalamic peptide expression. There was a small but significant increase in plasma leptin levels in the diabetic animals maintained on the HF, and large differences in parameters associated with elevated fat oxidation. These observations support the hypothesis that the normalization of food intake observed in diabetic rats consuming a HF diet may in part be mediated by reductions in NPY expression and elevations in CRH expression.

Published

1998

6. Elevated free fatty acids induce uncoupling protein 3 expression in muscle: a potential explanation for the effect of fasting.

Author

Weigle, DS, Selfridge, LE, Schwartz, MW, Seeley, RJ, Cummings, DE, Havel, PJ, Kuijper, JL, and BeltrandelRio, H

Subjects

Muscle, Skeletal, Animals, Humans, Rats, Rats, Sprague-Dawley, Hydrocortisone, Leptin, Heparin, Fat Emulsions, Intravenous, Fatty Acids, Nonesterified, Proteins, Carrier Proteins, Ion Channels, Mitochondrial Proteins, Recombinant Proteins, Fasting, Gene Expression, Kinetics, Male, Uncoupling Protein 3, Muscle, Skeletal, Sprague-Dawley, Fat Emulsions, Intravenous, Fatty Acids, Nonesterified, Medical and Health Sciences, Endocrinology & Metabolism

Abstract

The newly described uncoupling protein 3 (UCP3) may make an important contribution to thermogenesis in humans because of its high level of expression in skeletal muscle. Contrary to expectations, fasting, a condition that reduces resting energy expenditure, has been reported to increase UCP3 expression in muscle. We have confirmed that a 10-fold increase in UCP3 mRNA levels occurs in rat quadriceps muscle between 12 and 24 h of food removal. A less consistent twofold increase in muscle UCP2 mRNA levels was observed in animals fasted for up to 72 h. Administration of recombinant leptin to prevent a fall in circulating leptin levels did not eliminate the fasting-induced increase in quadriceps UCP3 expression. Administration of a high dose of glucocorticoid to fed animals to mimic the increase in corticosterone induced by fasting did not reproduce the increase in UCP3 expression observed in fasted animals. In contrast, elevation of circulating free fatty acid levels in fed animals by Intralipid plus heparin infusion caused significant increases in the UCP3/actin mRNA ratio compared with saline-infused fed controls in both extensor digitorum longus (2.01 +/- 0.34 vs. 0.68 +/- 0.11, P = 0.002) and soleus muscles (0.31 +/- 0.07 vs. 0.09 +/- 0.02, P = 0.014). We conclude that free fatty acids are a potential mediator of the increase in muscle UCP3 expression that occurs during fasting. This seemingly paradoxical induction of UCP3 may be linked to the use of free fatty acid as a fuel rather than an increased need of the organism to dissipate energy.

Published

1998

7. The Central Nervous System Effects of Glucagon-Like Peptide-1 on Peripheral Glucose Homeostasis.

Author

Jessen, L, primary, Greer, TM, additional, Iacono, ME, additional, Sandoval, DA, additional, Seeley, RJ, additional, and D'Alessio, DA, additional

Published

2010

8. Central BDNF Differentially Regulates Energy Expenditure in Male and Female Rats.

Author

Shi, H, primary, Barrera, JG, additional, Woods, SC, additional, and Seeley, RJ, additional

Published

2010

9. Adrenalectomy alters the sensitivity of the central nervous system melanocortin system

Author

Drazen, DL, Wortman, MD, Schwartz, MW, Clegg, DJ, van Dijk, G, Woods, SC, Seeley, RJ, Drazen, Deborah L., Wortman, Matthew D., Schwartz, Michael W., Woods, Stephen C., Seeley, Randy J., University of Groningen, and Van Dijk lab

Subjects

Central Nervous System, Leptin, Male, medicine.medical_specialty, FOOD-INTAKE, Endocrinology, Diabetes and Metabolism, medicine.medical_treatment, Appetite, Biology, OB/OB MICE, ALPHA-MSH, RAT-BRAIN, Peptides, Cyclic, AGOUTI-RELATED PROTEIN, Eating, Melanocortin receptor, NEUROENDOCRINE, Orexigenic, Internal medicine, Internal Medicine, medicine, Animals, Rats, Long-Evans, ACTH receptor, OBESE GENE, GLUCOCORTICOID RECEPTOR-IMMUNOREACTIVITY, Glucocorticoids, Injections, Intraventricular, Third Ventricle, Dose-Response Relationship, Drug, Receptors, Melanocortin, Adrenalectomy, digestive, oral, and skin physiology, LEPTIN LEVELS, Proteins, Melanotan II, Rats, Endocrinology, BODY-WEIGHT, Intercellular Signaling Peptides and Proteins, Receptor, Melanocortin, Type 4, Melanocortin, Corticosterone, Glucocorticoid, hormones, hormone substitutes, and hormone antagonists, medicine.drug

Abstract

Removal of adrenal steroids by adrenalectomy (ADX) reduces food intake and body weight in rodents and prevents excessive weight gain in many genetic and dietary models of obesity. Thus, glucocorticoids appear to play a key role to promote positive energy balance in normal and pathological conditions. By comparison, central nervous system melanocortin signaling provides critical inhibitory tone to regulate energy balance. The present experiments sought to test whether glucocorticoids influence energy balance by altering the sensitivity to melanocortin receptor ligands. Because melanocortin-producing neurons are hypothesized to be downstream of leptin in a key weight-reducing circuit, we tested rats for their sensitivity to leptin and confirmed reports that the hypophagic response to third ventricular (i3vt) leptin is increased in ADX rats and is normalized by glucocorticoid replacement. Next we tested rats for their sensitivity to the melanocortin agonist melanotan II and found that, as for leptin, ADX enhanced the hypophagic response via a glucocorticoid-dependent mechanism. The central nervous system melanocortin system is unique in that it includes the endogenous melanocortin receptor antagonist, AgRP. The orexigenic effect of i3vt AgRP was absent in ADX rats and restored by glucocorticoid replacement. We conclude that the potent weight-reducing effects of ADX likely involve heightened responsiveness to melanocortin receptor stimulation.

Published

2003

10. Effects of Surgical vs. Non-Surgical Weight Loss on Mammary Tumor Burden

Author

Rossi, EL, primary, Bowers, LW, additional, Khatib, SA, additional, Smith, LA, additional, Doerstling, SS, additional, Lewis, A, additional, Seeley, RJ, additional, and Hursting, SD, additional

Published

2016

11. InsulinDetemir is transported fromblood to cerebrospinal fluid and has prolonged central anorectic action relative to NPH Insulin

Author

Begg, DP, May, AA, Mul, JD, Liu, M, D'Alessio, DA, Seeley, RJ, Woods, SC, Begg, DP, May, AA, Mul, JD, Liu, M, D'Alessio, DA, Seeley, RJ, and Woods, SC

Abstract

Insulin detemir (DET) reduces glycemia comparably to other long-acting insulin formulations but causes less weight gain. Insulin signaling in the brain is catabolic, reducing food intake. We hypothesized that DET reduces weight gain, relative to other insulins, owing to increased transport into the central nervous system and/or increased catabolic action within the brain. Transport of DET and NPH insulin into the cerebrospinal fluid (CSF) was compared over several hours and after the administration of different doses peripherally in rats. DET and NPH had comparable saturable, receptor-mediated transport into the CSF. CSF insulin remained elevated significantly longer after intraperitoneal DET than after NPH. When administered acutely into the 3rd cerebral ventricle, both DET and NPH insulin reduced food intake and body weight at 24 h, and both food intake and body weight remained lower after DET than after NPH after 48 h. In direct comparison with another long-acting insulin, insulin glargine (GLAR), DET led to more prolonged increases in CSF insulin despite a shorter plasma half-life in both rats and mice. Additionally, peripheral DET administration reduced weight gain and increased CSF insulin compared with saline or GLAR in mice. Overall, these data support the hypothesis that DET has distinct effects on energy balance through enhanced and prolonged centrally mediated reduction of food intake.

Published

2015

12. Moderate voluntary exercise attenuates the metabolic syndrome in melanocortin-4 receptor-deficient rats showing central dopaminergic dysregulation

Author

Obici, S, Magrisso, IJ, Ghazarian, AS, Shirazian, A, Miller, JR, Loyd, CM, Begg, DP, Krawczewski Carhuatanta, KA, Haas, MK, Davis, JF, Woods, SC, Sandoval, DA, Seeley, RJ, Goodyear, LJ, Pothos, EN, Mul, JD, Obici, S, Magrisso, IJ, Ghazarian, AS, Shirazian, A, Miller, JR, Loyd, CM, Begg, DP, Krawczewski Carhuatanta, KA, Haas, MK, Davis, JF, Woods, SC, Sandoval, DA, Seeley, RJ, Goodyear, LJ, Pothos, EN, and Mul, JD

Abstract

Objective: Melanocortin-4 receptors (MC4Rs) are highly expressed by dopamine-secreting neurons of the mesolimbic tract, but their functional role has not been fully resolved. Voluntary wheel running (VWR) induces adaptations in the mesolimbic dopamine system and has a myriad of long-term beneficial effects on health. In the present experiments we asked whether MC4R function regulates the effects of VWR, and whether VWR ameliorates MC4R-associated symptoms of the metabolic syndrome. Methods: Electrically evoked dopamine release was measured in slice preparations from sedentary wild-type and MC4R-deficient Mc4rK314X (HOM) rats. VWR was assessed in wild-type and HOM rats, and in MC4R-deficient loxTBMc4r mice, wild-type mice body weight-matched to loxTBMc4r mice, and wild-type mice with intracerebroventricular administration of the MC4R antagonist SHU9119. Mesolimbic dopamine system function (gene/protein expression) and metabolic parameters were examined in wheel-running and sedentary wild-type and HOM rats. Results: Sedentary obese HOM rats had increased electrically evoked dopamine release in several ventral tegmental area (VTA) projection sites compared to wild-type controls. MC4R loss-of-function decreased VWR, and this was partially independent of body weight. HOM wheel-runners had attenuated markers of intracellular D1-type dopamine receptor signaling despite increased dopamine flux in the VTA. VWR increased and decreased ΔFosB levels in the nucleus accumbens (NAc) of wild-type and HOM runners, respectively. VWR improved metabolic parameters in wild-type wheel-runners. Finally, moderate voluntary exercise corrected many aspects of the metabolic syndrome in HOM runners. Conclusions: Central dopamine dysregulation during VWR reinforces the link between MC4R function and molecular and behavioral responding to rewards. The data also suggest that exercise can be a successful lifestyle intervention in MC4R-haploinsufficient individuals

Published

2015

13. Effect of guanylate cyclase-C activity on energy and glucose homeostasis

Author

Begg, DP, Steinbrecher, KA, Mul, JD, Chambers, AP, Kohli, R, Haller, A, Cohen, MB, Woods, SC, Seeley, RJ, Begg, DP, Steinbrecher, KA, Mul, JD, Chambers, AP, Kohli, R, Haller, A, Cohen, MB, Woods, SC, and Seeley, RJ

Abstract

Uroguanylin is a gastrointestinal hormone primarily involved in fluid and electrolyte handling. It has recently been reported that prouroguanylin, secreted postprandially, is converted to uroguanylin in the brain and activates the receptor guanylate cyclase-C (GC-C) to reduce food intake and prevent obesity.We tested central nervous system administration of two GC-C agonists and found no significant reduction of food intake. We also carefully phenotyped mice lacking the GC-C receptor and found them to have normal body weight, adiposity, and glucose tolerance. Interestingly, uroguanylin knockout mice had a small but significant increase in body weight and adiposity that was accompanied by glucose intolerance. Our data indicate that the modest effects of uroguanylin on energy and glucose homeostasis are not mediated by central GC-C receptors.

Published

2014

14. Improvements in hippocampal-dependent memory and microglial infiltration with calorie restriction and gastric bypass surgery, but not with vertical sleeve gastrectomy

Author

Grayson, BE, Fitzgerald, MF, Hakala-Finch, AP, Ferris, VM, Begg, DP, Tong, J, Woods, SC, Seeley, RJ, Davidson, TL, Benoit, SC, Grayson, BE, Fitzgerald, MF, Hakala-Finch, AP, Ferris, VM, Begg, DP, Tong, J, Woods, SC, Seeley, RJ, Davidson, TL, and Benoit, SC

Abstract

Background:Much recent evidence suggest that obesity and related comorbidities contribute to cognitive decline, including the development of non age-related dementia and Alzheimer's disease. Obesity is a serious threat to public health, and few treatments offer proven long-term weight loss. In fact, bariatric surgery remains the most effective long-term therapy to reduce weight and alleviate other aspects of the metabolic syndrome (MetS). Unlike the demonstrated benefits of caloric restriction to prevent weight gain, few if any studies have compared various means of weight loss on central nervous system function and hippocampal-dependent cognitive processes.Design and Results:Our studies comprise the first direct comparisons of caloric restriction to two bariatric surgeries (Roux-en-Y gastric bypass (RYGB) and vertical sleeve gastrectomy (VSG)) on cognitive function. Weight loss following caloric restriction, RYGB and VSG was associated with generalized improvements in metabolic health and hippocampal-dependent learning, as measured in the radial arm maze and spontaneous alternation tests. However, VSG-treated rats exhibited deficits on spatial learning tasks in the Morris water maze. In addition, whereas VSG animals had elevated hippocampal inflammation, comparable to that of obese controls, RYGB and calorie-restricted (pair-fed, PF) controls exhibited an amelioration of inflammation, as measured by the microglial protein ionized calcium binding adaptor molecule 1 (IBA1). We also assessed whether GHR (ghrelin) replacement would attenuate hippocampal inflammation in VSG, as post-surgical GHR levels are significantly reduced in VSG relative to RYGB and PF rats. However, GHR treatment did not attenuate the hippocampal inflammation.Conclusion:Although VSG was comparably effective at reducing body weight and improving glucose regulation as RYGB, VSG did not appear to confer an equal benefit on cognitive function and markers of inflammation. © 2014 Macmillan Publishers L

Published

2014

15. Regulation of gastric emptying rate and its role in nutrient-induced GLP-1 secretion in rats after vertical sleeve gastrectomy

Author

Chambers, AP, Smith, EP, Begg, DP, Grayson, BE, Sisley, S, Greer, T, Sorrell, J, Lemmen, L, LaSance, K, Woods, SC, Seeley, RJ, D'Alessio, DA, Sandoval, DA, Chambers, AP, Smith, EP, Begg, DP, Grayson, BE, Sisley, S, Greer, T, Sorrell, J, Lemmen, L, LaSance, K, Woods, SC, Seeley, RJ, D'Alessio, DA, and Sandoval, DA

Abstract

Roux-en-Y gastric bypass (RYGB) and vertical sleeve gastrectomy (VSG) are effective weight loss surgeries that also improve glucose metabolism. Rapid, early rises of circulating insulin and glucagon-like peptide-1 (GLP-1) concentrations following food ingestion are characteristic of these procedures. The purpose of the current study was to test the hypothesis that postprandial hormone release is due to increased nutrient emptying from the stomach. Radioscintigraphy and chemical and radiolabeled tracers were used to examine gastric emptying in rat models of VSG and RYGB surgery. Intraduodenal nutrient infusions were used to assess intestinal GLP-1 secretion and nutrient sensitivity in VSG rats compared with shams. Five minutes after a nutrient gavage, the stomachs of RYGB and VSG rats were completely emptied, whereas only 6.1% of the nutrient mixture had emptied from sham animals. Gastric pressure was increased in VSG animals, and rats with this procedure did not inhibit gastric emptying normally in response to increasing caloric loads of dextrose or corn oil, and they did not respond to neural or endocrine effectors of gastric motility. Finally, direct infusion of liquid nutrients into the duodenum caused significantly greater GLP-1 release in VSG compared with shams, indicating that increases in GLP-1 secretion after VSG are the result of both greater gastric emptying rates and altered responses at the level of the intestine. These findings demonstrate greatly accelerated gastric emptying in rat models of RYGB and VSG. In VSG this is likely due to increased gastric pressure and reduced responses to inhibitory feedback from the intestine. © 2014 the American Physiological Society.

Published

2014

16. Loss of melanocortin-4 receptor function attenuates HPA responses to psychological stress

Author

Ryan, KK, Mul, JD, Clemmensen, C, Egan, AE, Begg, DP, Halcomb, K, Seeley, RJ, Herman, JP, Ulrich-Lai, YM, Ryan, KK, Mul, JD, Clemmensen, C, Egan, AE, Begg, DP, Halcomb, K, Seeley, RJ, Herman, JP, and Ulrich-Lai, YM

Abstract

The melanocortin 4 receptor (MC4R), well-known for its role in the regulation of energy balance, is widely expressed in stress-regulatory brain regions, including the paraventricular nucleus of the hypothalamus (PVH) and the medial amygdala (MeA). In agreement with this, MC4R has been implicated in hypothalamic-pituitary-adrenocortical axis (HPA) regulation. The present work investigated the role of chronic Mc4r function to modulate basal HPA axis tone and to facilitate acute HPA responses to psychological stress, using a novel rat model with Mc4r loss-of-function. In this study, adult male rats were placed into 3 groups (n= 15/group) according to genotype [wild-type (WT); heterozygous mutant (HET); and homozygous mutant (HOM)]. Basal (pre-stress) plasma adrenocorticotropic hormone (ACTH) and corticosterone were measured in the AM and PM, and the HPA axis response to restraint was assessed in the AM. Rats were perfused at 2. h after restraint to assess the effect of loss of MC4R on stress-induced c-Fos immunolabeling in stress-regulatory brain regions. We find that basal (non-stress) AM and PM plasma ACTH and corticosterone showed a normal diurnal rhythm that was not altered according to genotype. Consistent with this, adrenal and thymus weights were unaffected by genotype. However, the plasma ACTH and corticosterone responses to restraint were significantly reduced by loss of MC4R function. Likewise, stress-induced c-Fos immunolabeling in both PVH and MeA was significantly reduced by loss of Mc4r function. These results support the hypothesis that endogenous MC4R signaling contributes to the HPA axis response to stress. Because MC4R plays a critical role in the regulation of energy balance, the present work suggests that it may also serve as an important communication link between brain metabolic and stress systems. © 2014 Elsevier Ltd.

Published

2014

17. MGAT2 deficiency and vertical sleeve gastrectomy have independent metabolic effects in the mouse

Author

Mul, JD, Begg, DP, Haller, AM, Pressler, JW, Sorrell, J, Woods, SC, Farese, RV, Seeley, RJ, Sandoval, DA, Mul, JD, Begg, DP, Haller, AM, Pressler, JW, Sorrell, J, Woods, SC, Farese, RV, Seeley, RJ, and Sandoval, DA

Abstract

Vertical sleeve gastrectomy (VSG) is currently one of the most effective treatments for obesity. Despite recent developments, the underlying mechanisms that contribute to the metabolic improvements following bariatric surgery remain unresolved. VSG reduces postprandial intestinal triglyceride (TG) production, but whether the effects of VSG on intestinal metabolism are related to metabolic outcomes has yet to be established. The lipid synthesis enzyme acyl CoA:monoacylglycerol acyltransferase-2 (Mogat2; MGAT2) plays a crucial role in the assimilation of dietary fat in the intestine and in regulation of adiposity stores as well. Given the phenotypic similarities between VSG-operated and MGAT2-deficient animals, we reasoned that this enzyme could also have a key role in mediating the metabolic benefits of VSG. However, VSG reduced body weight and fat mass and improved glucose metabolism similarly in whole body MGAT2-deficient (Mogat2-/-) mice and wild-type littermates. Furthermore, along with an increase in energy expenditure, surgically naive Mogat2-/- mice had altered macronutrient preference, shifting preference away from fat and toward carbohydrates, and increased locomotor activity. Collectively, these data suggest that the beneficial effects of VSG on body weight and glucose metabolism are independent of MGAT2 activity and rather that they are separate from the effects of MGAT2 deficiency. Because MGAT2 inhibitors are proposed as a pharmacother-apeutic option for obesity, our data suggest that, in addition to increasing energy expenditure, shifting macronutrient preference away from fat could be another important mechanism by which these compounds could contribute to weight loss.

Published

2014

18. Reversal of diet-induced obesity increases insulin transport into cerebrospinal fluid and restores sensitivity to the anorexic action of central insulin in male rats

Author

Begg, DP, Mul, JD, Liu, M, Reedy, BM, D'Alessio, DA, Seeley, RJ, Woods, SC, Begg, DP, Mul, JD, Liu, M, Reedy, BM, D'Alessio, DA, Seeley, RJ, and Woods, SC

Abstract

Diet-induced obesity (DIO) reduces the ability of centrally administered insulin to reduce feeding behavior and also reduces the transport of insulin from the periphery to the central nervous system (CNS). The current study was designed to determine whether reversal of high-fat DIO restores the anorexic efficacy of central insulin and whether this is accompanied by restoration of the compromised insulin transport. Adult male Long-Evans rats were initially maintained on either a lowfat chow diet (LFD) or a high-fat diet (HFD). After 22 weeks, half of the animals on the HFD were changed to the LFD, whereas the other half continued on the HFD for an additional 8 weeks, such that there were 3 groups: 1) a LFD control group (Con; n = 18), 2) a HFD-fed, DIO group (n = 17), and 3) a HFD to LFD, DIO-reversal group (DIO-rev; n=18). The DIO reversal resulted in a significant reduction of body weight and epididymal fat weight relative to the DIO group. Acute central insulin administration (8 mU) reduced food intake and caused weight loss in Con and DIO-rev but not DIO rats. Fasting cerebrospinal fluid insulin was higher in DIO than Con animals. However, after a peripheral bolus injection of insulin, cerebrospinal fluid insulin increased in Con and DIO-rev rats but not in the DIO group. These data provide support for previous reports that DIO inhibits both the central effects of insulin and insulin's transport to the CNS. Importantly, DIO-rev restored sensitivity to the effects of central insulin on food intake and insulin transport into the CNS. Copyright © 2013 by The Endocrine Society.

Published

2013

19. Roux-en-Y gastric bypass surgery but not vertical sleeve gastrectomy decreases bone mass in male rats

Author

Stemmer, K, Bielohuby, M, Grayson, BE, Begg, DP, Chambers, AP, Neff, C, Woods, SC, Erben, RG, Tschöp, MH, Bidlingmaier, M, Clemens, TL, Seeley, RJ, Stemmer, K, Bielohuby, M, Grayson, BE, Begg, DP, Chambers, AP, Neff, C, Woods, SC, Erben, RG, Tschöp, MH, Bidlingmaier, M, Clemens, TL, and Seeley, RJ

Abstract

The most effective treatment for obesity is bariatric surgery. However, there is increasing concern that bariatric surgery can cause nutrient deficiencies that translate into metabolic bone disease. Whether this is true for all surgery types is not yet clear. We therefore investigated the effects of 2 commonly applied bariatric surgeries (Roux-en-Y gastric bypass [RYGB] and vertical sleeve gastrectomy) on energy and bone metabolism in rats 60 days after surgery. Both surgeries resulted in similar reductions of body weight, body fat, and food intake. Glucose tolerance was improved to a similar extent after both surgeries and was accompanied by increased postprandial secretion of glucose-dependent insulinotropic peptide. Using microcomputed tomography, we found that, relative to sham-operated rats, bone volume was significantly reduced after RYGB but not vertical sleeve gastrectomy. RYGB rats also had markedly reduced lipid absorption from the intestine and significantly lower serum 25-hydroxyvitamin D and calcium levels. Importantly, dietary supplementation with calcium and vitamin D could not fully rescue the reduced bone volume after RYGB surgery. Both surgeries resulted in a significant increase in stomach pH, which may have worsened the malabsorption in RYGB rats. Our findings suggest that bone loss in RYGB rats is not exclusively driven by calcium and vitamin D malabsorption but also by additional factors that may not be rescuable by dietary supplementation. These data point toward important similarities and differences between bariatric procedures that should be considered in clinical settings as guidance for which procedure will be best for specific patient populations. Copyright © 2013 by The Endocrine Society.

Published

2013

20. Angiotensin-converting enzyme inhibition reduces food intake and weight gain and improves glucose tolerance in melanocortin-4 receptor deficient female rats

Author

Mul, JD, Seeley, RJ, Woods, SC, Begg, DP, Mul, JD, Seeley, RJ, Woods, SC, and Begg, DP

Abstract

Functional loss of melanocortin-4 receptor (MC4R) activity leads to hyperphagia and an obese, glucose intolerant phenotype. We have previously established that inhibition of angiotensin-converting enzyme (ACE) reduces food intake, body weight and glucose homeostasis in diet-induced obesity. The current study assessed the effect of ACE inhibitor treatment in MC4R-deficient female rats on body weight, adiposity and glucose tolerance. Rats homozygous (HOM) for a loss of function Mc4r mutation had an obese phenotype relative to their wildtype (WT) littermates. Inhibition of ACE for 8. weeks produced reductions in body weight gain in both HOM and WT rats; however, food intake was only reduced in HOM rats. Weight loss following ACE inhibitor treatment was specific to fat mass while lean mass was unaffected. HOM rats were severely glucose intolerant and insensitive to exogenous insulin injection, and treatment with an ACE inhibitor improved both glucose tolerance and insulin sensitivity in HOM rats although not fully to that of the level of WT rats. The current study indicates that HOM rats are sensitive to the anorectic effects of ACE inhibition, unlike their WT littermates. This resulted in a more rapid reduction in body weight gain and a more substantial loss of adipose mass in HOM animals, relative to WT animals, treated with an ACE inhibitor. Overall, these data demonstrate that MC4R signaling is not required for weight loss following treatment with an ACE inhibitor. © 2013 Elsevier Inc.

Published

2013

21. Effect of Vertical sleeve gastrectomy in melanocortin receptor 4-deficient rats

Author

Mul, JD, Begg, DP, Alsters, SIM, van Haaften, G, Duran, KJ, D'Alessio, DA, le Roux, CW, Woods, SC, Sandoval, DA, Blakemore, AIF, Cuppen, E, van Haelst, MM, Seeley, RJ, Mul, JD, Begg, DP, Alsters, SIM, van Haaften, G, Duran, KJ, D'Alessio, DA, le Roux, CW, Woods, SC, Sandoval, DA, Blakemore, AIF, Cuppen, E, van Haelst, MM, and Seeley, RJ

Abstract

Bariatric surgery is currently the most effective treatment for obesity. Vertical sleeve gastrectomy (VSG), a commonly applied bariatric procedure, involves surgically incising most of the volume of the stomach. In humans, partial loss of melanocortin receptor-4 (MC4R) activity is the most common monogenic correlate of obesity regardless of lifestyle. At present it is unclear whether genetic alteration of MC4R signaling modulates the beneficial effects of VSG. Following VSG, we analyzed body weight, food intake, glucose sensitivity, and macronutrient preference of wild-type and MC4R-deficient (Mc4r +/- and Mc4r -/-) rats compared with sham-operated controls. VSG reduced body weight and fat mass and improved glucose metabolism and also shifted preference toward carbohydrates and away from fat. All of this occurred independently of MC4R activity. In addition, MC4R was resequenced in 46 human subjects who underwent VSG. We observed common genetic variations in the coding sequence of MC4R in five subjects. However, none of those variations appeared to affect the outcome of VSG. Taken together, these data suggest that the beneficial effect of VSG on body weight and glucose metabolism is not mediated by alterations in MC4R activity. © 2012 the American Physiological Society.

Published

2012

22. Metabolic, gastrointestinal, and CNS neuropeptide effects of brain leptin administration in the rat

Author

Van Dijk, G, Seeley, RJ, Thiele, TE, Friedman, MI, Ji, H, Wilkinson, CW, Burn, P, Campfield, LA, Tenenbaum, R, Baskin, DG, Woods, SC, Schwartz, MW, Seeley, Randy J., Thiele, Todd E., Friedman, Mark I., Wilkinson, Charles W., Baskin, Denis G., Woods, Stephen C., Schwartz, Michael W., and Van Dijk lab

Subjects

sympathetic nervous system, proopiomelanocortin, Y GENE-EXPRESSION, FOOD-INTAKE, food intake, digestive, oral, and skin physiology, UNCOUPLING PROTEIN-2, ENERGY-EXPENDITURE, GLUCOSE-METABOLISM, corticotropin-releasing hormone, OB/OB MICE, CORTICOTROPIN-RELEASING FACTOR, OB PROTEIN, CENTRAL NEURAL NETWORKS, MESSENGER-RNA, hormones, hormone substitutes, and hormone antagonists

Abstract

To investigate whether brain leptin involves neuropeptidergic pathways influencing ingestion, metabolism, and gastrointestinal functioning, leptin (3.5 mu g) was infused daily into the third cerebral ventricular of rats for 3 days. To distinguish between direct leptin effects and those secondary to leptin-induced anorexia, we studied vehicle-infused rats with food available ad libitum and those that were pair-fed to leptin-treated animals. Although body weight was comparably reduced (-8%) and plasma glycerol was comparably increased (142 and 17%, respectively) in leptin-treated and pair-fed animals relative to controls, increases in plasma fatty acids and ketones were only detected (132 and 234%, respectively) in pair-fed rats. Resting energy expenditure (-15%) and gastrointestinal fill (-50%) were reduced by pair-feeding relative to the ad libitum group, but they were not reduced by leptin treatment. Relative to controls, leptin increased hypothalamic mRNA for corticotropin-releasing hormone (CRH; 61%) and for proopiomelanocortin (POMC; 31%) but did not reduce mRNA for neuropeptide Y. These results suggest that CNS leptin prevents metabolic/gastrointestinal responses to caloric restriction by activating hypothalamic CRH- and POMC-containing pathways and raise the possibility that these peripheral responses to CNS leptin administration contribute to leptin's anorexigenic action.

Published

1999

23. Understanding the physiology of obesity: review of recent developments in obesity research

Author

Woods, SC, primary and Seeley, RJ, additional

Published

2002

24. Neuroendocrine regulation of food intake

Author

Seeley, RJ, primary and Schwartz, MW, additional

Published

1999

25. Forebrain contribution to the induction of a cellular correlate of conditioned taste aversion in the nucleus of the solitary tract

Author

Schafe, GE, primary, Seeley, RJ, additional, and Bernstein, IL, additional

Published

1995

26. Regulation of food intake through hypothalamic signaling networks involving mTOR.

Author

Woods SC, Seeley RJ, and Cota D

Abstract

To maintain normal activity, single cells must assure that their energy needs and utilization are continuously matched. Likewise, multicellular organisms must constantly coordinate energy intake and expenditure to maintain energy homeostasis. The brain, and the hypothalamus in particular, plays a critical role in integrating and coordinating several types of signals, including hormones and nutrients, to guarantee such homeostasis. Like single cells, the hypothalamus also profits from intracellular pathways known to work as fuel sensors to maintain energy balance. One such pathway is the mammalian target of rapamycin (mTOR). mTOR integrates different sensory inputs to regulate protein synthesis rates in individual cells, and it has recently been implicated in the central nervous system to regulate food intake and body weight as well. This review provides an overview of the role of hypothalamic intracellular fuel sensors in the overall control of energy balance and discusses the potential contribution of these fuel-sensing mechanisms to the metabolic dysregulation associated with obesity. [ABSTRACT FROM AUTHOR]

Published

2008

27. The new biology of body weight regulation.

Author

Schwartz MW and Seeley RJ

Published

1997

28. Seminars in medicine of the Beth Israel Deaconess Medical Center. Neuroendocrine responses to starvation and weight loss.

Author

Schwartz MW and Seeley RJ

Published

1997

29. Glucagon-like peptide 1 (GLP-1)

Author

Müller, TD, Finan, B, Bloom, D'Alessio, D, Drucker, DJ, Flatt, PR, Fritsche, A, Gribble, F, Grill, HJ, Habener, JF, Holst, JJ, Langhans, W, Meier, JJ, Nauck, MA, Perez-Tilve, D, Pocai, A, Reimann, F, Sandoval, DA, Schwartz, TW, Seeley, RJ, Stemmer, K, Tang-Christensen, M, Woods, SC, DiMarchi, RD, and Tschöp, MH

Subjects

2. Zero hunger, Blood Glucose, endocrine system, digestive, oral, and skin physiology, Diabetes, Gastric Inhibitory Polypeptide, Incretin, Glucagon, Glucagon-Like Peptide-1 Receptor, 3. Good health, Glucose, Diabetes Mellitus, Type 2, Glucagon-Like Peptide 1, Insulin-Secreting Cells, Insulin Secretion, Receptors, Glucagon, Insulin, Humans, Hypoglycemic Agents, Obesity, GLP-1, hormones, hormone substitutes, and hormone antagonists

Abstract

BACKGROUND: The glucagon-like peptide-1 (GLP-1) is a multifaceted hormone with broad pharmacological potential. Among the numerous metabolic effects of GLP-1 are the glucose-dependent stimulation of insulin secretion, decrease of gastric emptying, inhibition of food intake, increase of natriuresis and diuresis, and modulation of rodent β-cell proliferation. GLP-1 also has cardio- and neuroprotective effects, decreases inflammation and apoptosis, and has implications for learning and memory, reward behavior, and palatability. Biochemically modified for enhanced potency and sustained action, GLP-1 receptor agonists are successfully in clinical use for the treatment of type-2 diabetes, and several GLP-1-based pharmacotherapies are in clinical evaluation for the treatment of obesity. SCOPE OF REVIEW: In this review, we provide a detailed overview on the multifaceted nature of GLP-1 and its pharmacology and discuss its therapeutic implications on various diseases. MAJOR CONCLUSIONS: Since its discovery, GLP-1 has emerged as a pleiotropic hormone with a myriad of metabolic functions that go well beyond its classical identification as an incretin hormone. The numerous beneficial effects of GLP-1 render this hormone an interesting candidate for the development of pharmacotherapies to treat obesity, diabetes, and neurodegenerative disorders.

30. Gut-muscle communication links FGF19 levels to the loss of lean muscle mass following rapid weight loss.

Author

Wean J, Baranwal S, Miller N, Shin JH, O'Rourke RW, Burant CF, Seeley RJ, Rothberg AE, and Bozadjieva-Kramer N

Subjects

Humans, Female, Male, Middle Aged, Adult, Postprandial Period physiology, Caloric Restriction, Weight Loss physiology, Fibroblast Growth Factors blood, Muscle, Skeletal metabolism, Obesity complications, Obesity metabolism

Abstract

Objective: Optimal weight loss involves decreasing adipose tissue while preserving lean muscle mass. Identifying molecular mediators that preserve lean muscle mass is therefore a clinically important goal. We have shown that circulating, postprandial FGF19 levels are lower in patients with obesity and decrease further with comorbidities such as type 2 diabetes and MASLD. Preclinical studies have shown that FGF15 (mouse ortholog of human FGF19) is necessary to protect against lean muscle mass loss following metabolic surgery-induced weight loss in a mouse model of diet-induced obesity. We evaluated if non-surgical weight loss interventions also lead to increased systemic levels of FGF19 and whether FGF19 levels are predictive of lean muscle mass following rapid weight loss in human subjects with obesity., Research Design and Methods: Weight loss was induced in 176 subjects with obesity via a very low-energy diet, VLED (800 kcal/d) in the form of total liquid meal replacement for 3-4 months. We measured plasma FGF19 levels at baseline and following VLED-induced weight loss. Multiple linear regression was performed to assess if FGF19 levels were predictive of lean mass at baseline (obesity) and following VLED., Results: Postprandial levels of FGF19 increased significantly following VLED-weight loss. Multiple linear regression analysis showed that baseline (obesity) FGF19 levels, but not post VLED FGF19 levels, significantly predicted the percent of lean muscle mass after VLED-induced weight loss, while controlling for age, sex, and the baseline percent lean mass., Conclusion: These data identify gut-muscle communication and FGF19 as a potentially important mediator of the preservation of lean muscle mass during rapid weight loss., Competing Interests: Declaration of competing interest RJS has received research support from Novo Nordisk, Fractyl, Astra Zeneca, Congruence Therapeutics, Eli Lilly, Bullfrog AI, Glycsend Therapeutics and Amgen. RJS has served as a paid consultant for Novo Nordisk, Eli Lilly, CinRx, Fractyl, Structure Therapeutics, Crinetics and Congruence Therapeutics. RJS has equity in Calibrate, Rewind and Levator Therapeutics. AER receives salary support from Rewind. JHS is a paid employee of Amgen Inc.The remaining authors declare no competing interests., (Copyright © 2024. Published by Elsevier Masson SAS.)

Published

2024

31. Liraglutide Impacts Iron Homeostasis in a Murine Model of Hereditary Hemochromatosis.

Author

Bozadjieva-Kramer N, Shin JH, Blok NB, Jain C, Das NK, Polex-Wolf J, Knudsen LB, Shah YM, and Seeley RJ

Subjects

Animals, Mice, Liver metabolism, Liver drug effects, Male, Diet, High-Fat adverse effects, Glucose Intolerance metabolism, Glucose Intolerance drug therapy, Glucose Intolerance genetics, Obesity metabolism, Obesity drug therapy, Obesity genetics, Mice, Inbred C57BL, Body Weight drug effects, Hemochromatosis genetics, Hemochromatosis metabolism, Hemochromatosis drug therapy, Liraglutide pharmacology, Liraglutide therapeutic use, Iron metabolism, Mice, Knockout, Homeostasis drug effects, Disease Models, Animal, Hemochromatosis Protein genetics, Hemochromatosis Protein metabolism

Abstract

Classic hereditary hemochromatosis (HH) is an autosomal recessive iron-overload disorder resulting from loss-of-function mutations of the HFE gene. Patients with HH exhibit excessive hepatic iron accumulation that predisposes these patients to liver disease, including the risk for developing liver cancer. Chronic iron overload also poses a risk for the development of metabolic disorders such as obesity, type 2 diabetes, and insulin resistance. We hypothesized that liraglutide, GLP1 receptor agonist, alters iron metabolism while also reducing body weight and glucose tolerance in a mouse model of HH (global HFE knockout, HFE KO) and diet-induced obesity and glucose intolerance. The total body HFE KO and wild-type control mice were fed high-fat diet for 8 weeks. Mice were subdivided into liraglutide and vehicle-treated groups and received daily subcutaneous administration of the respective treatment once daily for 18 weeks. Liraglutide improved glucose tolerance and hepatic lipid markers and reduced body weight in a mouse model of HH, the HFE KO mouse, similar to wild-type controls. Importantly, our data show that liraglutide alters iron metabolism in HFE KO mice, leading to decreased circulating and stored iron levels in HFE KO mice. These observations highlight the potential that GLP1 receptor agonist could be used to reduce iron overload in addition to reducing body weight and improving glucose regulation in HH patients., (© The Author(s) 2024. Published by Oxford University Press on behalf of the Endocrine Society. All rights reserved. For commercial re-use, please contact reprints@oup.com for reprints and translation rights for reprints. All other permissions can be obtained through our RightsLink service via the Permissions link on the article page on our site—for further information please contact journals.permissions@oup.com. See the journal About page for additional terms.)

Published

2024

32. Intestinal FGF15 regulates bile acid and cholesterol metabolism but not glucose and energy balance.

Author

Bozadjieva-Kramer N, Shin JH, Li Z, Rupp AC, Miller N, Kernodle S, Lanthier N, Henry P, Seshadri N, Myronovych A, MacDougald OA, O'Rourke RW, Kohli R, Burant CF, Rothberg AE, and Seeley RJ

Subjects

Animals, Humans, Mice, Bile Acids and Salts, Cholesterol metabolism, Glucose, Obesity metabolism, Diabetes Mellitus, Type 2, Non-alcoholic Fatty Liver Disease

Abstract

Fibroblast growth factor 15/19 (FGF15/19, mouse/human ortholog) is expressed in the ileal enterocytes of the small intestine and released postprandially in response to bile acid absorption. Previous reports of FGF15-/- mice have limited our understanding of gut-specific FGF15's role in metabolism. Therefore, we studied the role of endogenous gut-derived FGF15 in bile acid, cholesterol, glucose, and energy balance. We found that circulating levels of FGF19 were reduced in individuals with obesity and comorbidities, such as type 2 diabetes and metabolic dysfunction-associated fatty liver disease. Gene expression analysis of ileal FGF15-positive cells revealed differential expression during the obesogenic state. We fed standard chow or a high-fat metabolic dysfunction-associated steatohepatitis-inducing diet to control and intestine-derived FGF15-knockout (FGF15INT-KO) mice. Control and FGF15INT-KO mice gained similar body weight and adiposity and did not show genotype-specific differences in glucose, mixed meal, pyruvate, and glycerol tolerance. FGF15INT-KO mice had increased systemic bile acid levels but decreased cholesterol levels, pointing to a primary role for gut-derived FGF15 in regulating bile acid and cholesterol metabolism when exposed to obesogenic diet. These studies show that intestinal FGF15 plays a specific role in bile acid and cholesterol metabolism regulation but is not essential for energy and glucose balance.

Published

2024

33. Central glucagon-like peptide 1 receptor activation inhibits Toll-like receptor agonist-induced inflammation.

Author

Wong CK, McLean BA, Baggio LL, Koehler JA, Hammoud R, Rittig N, Yabut JM, Seeley RJ, Brown TJ, and Drucker DJ

Subjects

Humans, Exenatide, Glucagon-Like Peptide 1 metabolism, Peptides pharmacology, Toll-Like Receptor Agonists, Venoms pharmacology, Tumor Necrosis Factor-alpha, Inflammation, Glucagon-Like Peptide-1 Receptor metabolism, Diabetes Mellitus, Type 2, Sepsis

Abstract

Glucagon-like peptide-1 receptor agonists (GLP-1RAs) exert anti-inflammatory effects relevant to the chronic complications of type 2 diabetes. Although GLP-1RAs attenuate T cell-mediated gut and systemic inflammation directly through the gut intraepithelial lymphocyte GLP-1R, how GLP-1RAs inhibit systemic inflammation in the absence of widespread immune expression of the GLP-1R remains uncertain. Here, we show that GLP-1R activation attenuates the induction of plasma tumor necrosis factor alpha (TNF-α) by multiple Toll-like receptor agonists. These actions are not mediated by hematopoietic or endothelial GLP-1Rs but require central neuronal GLP-1Rs. In a cecal slurry model of polymicrobial sepsis, GLP-1RAs similarly require neuronal GLP-1Rs to attenuate detrimental responses associated with sepsis, including sickness, hypothermia, systemic inflammation, and lung injury. Mechanistically, GLP-1R activation leads to reduced TNF-α via α 1 -adrenergic, δ-opioid, and κ-opioid receptor signaling. These data extend emerging concepts of brain-immune networks and posit a new gut-brain GLP-1R axis for suppression of peripheral inflammation., Competing Interests: Declaration of interests D.J.D. has consulted for Altimmune, Amgen, Kallyope, Merck, Novo Nordisk, Pfizer Inc., and Sanofi Inc. Mt. Sinai Hospital receives operating grant support from Amgen, Novo Nordisk, and Pfizer Inc. for studies in the Drucker lab. R.J.S. has consulted for Novo Nordisk, Scohia, CinRx, Fractyl, Structure Therapeutics, Congruenc Therapeutics, Calibrate, and Rewind and receives operating grant support from Novo Nordisk, Astra Zeneca, Fractyl, and Eli Lilly Inc., (Copyright © 2023 Elsevier Inc. All rights reserved.)

Published

2024

34. New insights in the mechanisms of weight-loss maintenance: Summary from a Pennington symposium.

Author

Flanagan EW, Spann R, Berry SE, Berthoud HR, Broyles S, Foster GD, Krakoff J, Loos RJF, Lowe MR, Ostendorf DM, Powell-Wiley TM, Redman LM, Rosenbaum M, Schauer PR, Seeley RJ, Swinburn BA, Hall K, and Ravussin E

Subjects

Adult, Humans, Energy Intake, Obesity therapy, Weight Gain, Weight Loss physiology, Diabetes Mellitus, Type 2 therapy

Abstract

Obesity is a chronic disease that affects more than 650 million adults worldwide. Obesity not only is a significant health concern on its own, but predisposes to cardiometabolic comorbidities, including coronary heart disease, dyslipidemia, hypertension, type 2 diabetes, and some cancers. Lifestyle interventions effectively promote weight loss of 5% to 10%, and pharmacological and surgical interventions even more, with some novel approved drugs inducing up to an average of 25% weight loss. Yet, maintaining weight loss over the long-term remains extremely challenging, and subsequent weight gain is typical. The mechanisms underlying weight regain remain to be fully elucidated. The purpose of this Pennington Biomedical Scientific Symposium was to review and highlight the complex interplay between the physiological, behavioral, and environmental systems controlling energy intake and expenditure. Each of these contributions were further discussed in the context of weight-loss maintenance, and systems-level viewpoints were highlighted to interpret gaps in current approaches. The invited speakers built upon the science of obesity and weight loss to collectively propose future research directions that will aid in revealing the complicated mechanisms involved in the weight-reduced state., (© 2023 The Obesity Society.)

Published

2023

35. GDF15 is required for cold-induced thermogenesis and contributes to improved systemic metabolic health following loss of OPA1 in brown adipocytes.

Author

Jena J, García-Peña LM, Weatherford ET, Marti A, Bjorkman SH, Kato K, Koneru J, Chen JH, Seeley RJ, Abel ED, and Pereira RO

Subjects

Animals, Mice, Activating Transcription Factor 4 metabolism, Adipose Tissue, Brown metabolism, Glucose metabolism, Mice, Inbred C57BL, Mice, Knockout, Obesity genetics, Thermogenesis physiology, Adipocytes, Brown metabolism, Growth Differentiation Factor 15 genetics, Growth Differentiation Factor 15 metabolism

Abstract

We previously reported that mice lacking the protein optic atrophy 1 (OPA1 BKO) in brown adipose tissue (BAT) display induction of the activating transcription factor 4 (ATF4), which promotes fibroblast growth factor 21 (FGF21) secretion as a batokine. FGF21 increases metabolic rates under baseline conditions but is dispensable for the resistance to diet-induced obesity (DIO) reported in OPA1 BKO mice (Pereira et al., 2021). To determine alternative mediators of this phenotype, we performed transcriptome analysis, which revealed increased levels of growth differentiation factor 15 (GDF15), along with increased protein kinase R (PKR)-like endoplasmic reticulum kinase (PERK) levels in BAT. To investigate whether ATF4 induction was mediated by PERK and evaluate the contribution of GDF15 to the resistance to DIO, we selectively deleted PERK or GDF15 in OPA1 BKO mice. Mice with reduced OPA1 and PERK levels in BAT had preserved ISR activation. Importantly, simultaneous deletion of OPA1 and GDF15 partially reversed the resistance to DIO and abrogated the improvements in glucose tolerance. Furthermore, GDF15 was required to improve cold-induced thermogenesis in OPA1 BKO mice. Taken together, our data indicate that PERK is dispensable to induce the ISR, but GDF15 contributes to the resistance to DIO, and is required for glucose homeostasis and thermoregulation in OPA1 BKO mice by increasing energy expenditure., Competing Interests: JJ, LG, EW, AM, SB, KK, JK, JC, EA, RP No competing interests declared, RS R.J.S. has received research support from Fractyl, Novo Nordisk, AstraZeneca, and Eli Lilly. R.J.S. has served on scientific advisory boards for Novo Nordisk, CinRX, Scohia, Fractyl and Structure Therapeutics. R.J.S. is a stakeholder of Calibrate and Rewind, (© 2023, Jena, García-Peña et al.)

Published

2023

36. Suppression of food intake by Glp1r/Lepr-coexpressing neurons prevents obesity in mouse models.

Author

Rupp AC, Tomlinson AJ, Affinati AH, Yacawych WT, Duensing AM, True C, Lindsley SR, Kirigiti MA, MacKenzie A, Polex-Wolf J, Li C, Knudsen LB, Seeley RJ, Olson DP, Kievit P, and Myers MG Jr

Subjects

Mice, Animals, Hypothalamus metabolism, Mice, Knockout, GABAergic Neurons metabolism, Receptors, Leptin genetics, Receptors, Leptin metabolism, Eating genetics, Leptin genetics, Leptin metabolism, Obesity genetics, Obesity prevention & control, Obesity metabolism

Abstract

The adipose-derived hormone leptin acts via its receptor (LepRb) in the brain to control energy balance. A potentially unidentified population of GABAergic hypothalamic LepRb neurons plays key roles in the restraint of food intake and body weight by leptin. To identify markers for candidate populations of LepRb neurons in an unbiased manner, we performed single-nucleus RNA-Seq of enriched mouse hypothalamic LepRb cells, identifying several previously unrecognized populations of hypothalamic LepRb neurons. Many of these populations displayed strong conservation across species, including GABAergic Glp1r-expressing LepRb (LepRbGlp1r) neurons, which expressed more Lepr than other LepRb cell populations. Ablating Lepr from LepRbGlp1r cells provoked hyperphagic obesity without impairing energy expenditure. Similarly, improvements in energy balance caused by Lepr reactivation in GABA neurons of otherwise Lepr-null mice required Lepr expression in GABAergic Glp1r-expressing neurons. Furthermore, restoration of Glp1r expression in LepRbGlp1r neurons in otherwise Glp1r-null mice enabled food intake suppression by the GLP1R agonist, liraglutide. Thus, the conserved GABAergic LepRbGlp1r neuron population plays crucial roles in the suppression of food intake by leptin and GLP1R agonists.

Published

2023

37. Calorie restriction outperforms bariatric surgery in a murine model of obesity and triple-negative breast cancer.

Author

Camp KK, Coleman MF, McFarlane TL, Doerstling SS, Khatib SA, Rezeli ET, Lewis AG, Pfeil AJ, Smith LA, Bowers LW, Fouladi F, Gong W, Glenny EM, Parker JS, Milne GL, Carroll IM, Fodor AA, Seeley RJ, and Hursting SD

Subjects

Humans, Mice, Animals, Caloric Restriction, Disease Models, Animal, Obesity complications, Obesity surgery, Triple Negative Breast Neoplasms, Bariatric Surgery

Abstract

Obesity promotes triple-negative breast cancer (TNBC), and effective interventions are urgently needed to break the obesity-TNBC link. Epidemiologic studies indicate that bariatric surgery reduces TNBC risk, while evidence is limited or conflicted for weight loss via low-fat diet (LFD) or calorie restriction (CR). Using a murine model of obesity-driven TNBC, we compared the antitumor effects of vertical sleeve gastrectomy (VSG) with LFD, chronic CR, and intermittent CR. Each intervention generated weight and fat loss and suppressed tumor growth relative to obese mice (greatest suppression with CR). VSG and CR regimens exerted both similar and unique effects, as assessed using multiomics approaches, in reversing obesity-associated transcript, epigenetics, secretome, and microbiota changes and restoring antitumor immunity. Thus, in a murine model of TNBC, bariatric surgery and CR each reverse obesity-driven tumor growth via shared and distinct antitumor mechanisms, and CR is superior to VSG in reversing obesity's procancer effects.

Published

2023

38. GDF15 increases insulin action in the liver and adipose tissue via a β-adrenergic receptor-mediated mechanism.

Author

Sjøberg KA, Sigvardsen CM, Alvarado-Diaz A, Andersen NR, Larance M, Seeley RJ, Schjerling P, Knudsen JG, Katzilieris-Petras G, Clemmensen C, Jørgensen SB, De Bock K, and Richter EA

Subjects

Mice, Rats, Male, Female, Animals, Growth Differentiation Factor 15 pharmacology, Obesity, Adipose Tissue, Weight Loss, Insulin, Adipose Tissue, Brown, Liver, Receptors, Adrenergic, beta, Insulin Resistance

Abstract

Growth differentiation factor 15 (GDF15) induces weight loss and increases insulin action in obese rodents. Whether and how GDF15 improves insulin action without weight loss is unknown. Obese rats were treated with GDF15 and displayed increased insulin tolerance 5 h later. Lean and obese female and male mice were treated with GDF15 on days 1, 3, and 5 without weight loss and displayed increased insulin sensitivity during a euglycemic hyperinsulinemic clamp on day 6 due to enhanced suppression of endogenous glucose production and increased glucose uptake in WAT and BAT. GDF15 also reduced glucagon levels during clamp independently of the GFRAL receptor. The insulin-sensitizing effect of GDF15 was completely abrogated in GFRAL KO mice and also by treatment with the β-adrenergic antagonist propranolol and in β1,β2-adrenergic receptor KO mice. GDF15 activation of the GFRAL receptor increases β-adrenergic signaling, in turn, improving insulin action in the liver and white and brown adipose tissue., Competing Interests: Declaration of interests S.B.J. is an employee of Novo Nordisk, a pharmaceutical company producing and selling medicine for the treatment of diabetes and obesity. R.J.S. has received research support from Novo Nordisk, Fractyl, Astra Zeneca, and Eli Lilly. R.J.S. has served as a paid consultant for Novo Nordisk, Eli Lilly, Scohia, CinRx, Fractyl, Structure Therapeutics, and Congruence Therapeutics. R.J.S. has equity in Calibrate and Rewind., (Copyright © 2023 Elsevier Inc. All rights reserved.)

Published

2023

39. Reg3γ: current understanding and future therapeutic opportunities in metabolic disease.

Author

Shin JH, Bozadjieva-Kramer N, and Seeley RJ

Subjects

Animals, Mice, Bacteria metabolism, Pancreatitis-Associated Proteins metabolism, Gastrointestinal Microbiome, Metabolic Diseases drug therapy

Abstract

Regenerating family member gamma, Reg3γ (the mouse homolog of human REG3A), belonging to the antimicrobial peptides (AMPs), functions as a part of the host immune system to maintain spatial segregation between the gut bacteria and the host in the intestine via bactericidal activity. There is emerging evidence that gut manipulations such as bariatric surgery, dietary supplementation or drug treatment to produce metabolic benefits alter the gut microbiome. In addition to changes in a wide range of gut hormones, these gut manipulations also induce the expression of Reg3γ in the intestine. Studies over the past decades have revealed that Reg3γ not only plays a role in the gut lumen but can also contribute to host physiology through interaction with the gut microbiota. Herein, we discuss the current knowledge regarding the biology of Reg3γ, its role in various metabolic functions, and new opportunities for therapeutic strategies to treat metabolic disorders., (© 2023. The Author(s).)

Published

2023

40. GDF15 Mediates the Effect of Skeletal Muscle Contraction on Glucose-Stimulated Insulin Secretion.

Author

Zhang H, Mulya A, Nieuwoudt S, Vandanmagsar B, McDowell R, Heintz EC, Zunica ERM, Collier JJ, Bozadjieva-Kramer N, Seeley RJ, Axelrod CL, and Kirwan JP

Subjects

Humans, Mice, Animals, Insulin Secretion, Glucose pharmacology, Glucose metabolism, Growth Differentiation Factor 15 metabolism, Insulin metabolism, Muscle Contraction physiology, Muscle, Skeletal metabolism, Diabetes Mellitus, Type 2 metabolism, Insulin-Secreting Cells metabolism

Abstract

Exercise is a first-line treatment for type 2 diabetes and preserves β-cell function by hitherto unknown mechanisms. We postulated that proteins from contracting skeletal muscle may act as cellular signals to regulate pancreatic β-cell function. We used electric pulse stimulation (EPS) to induce contraction in C2C12 myotubes and found that treatment of β-cells with EPS-conditioned medium enhanced glucose-stimulated insulin secretion (GSIS). Transcriptomics and subsequent targeted validation revealed growth differentiation factor 15 (GDF15) as a central component of the skeletal muscle secretome. Exposure to recombinant GDF15 enhanced GSIS in cells, islets, and mice. GDF15 enhanced GSIS by upregulating the insulin secretion pathway in β-cells, which was abrogated in the presence of a GDF15 neutralizing antibody. The effect of GDF15 on GSIS was also observed in islets from GFRAL-deficient mice. Circulating GDF15 was incrementally elevated in patients with pre- and type 2 diabetes and positively associated with C-peptide in humans with overweight or obesity. Six weeks of high-intensity exercise training increased circulating GDF15 concentrations, which positively correlated with improvements in β-cell function in patients with type 2 diabetes. Taken together, GDF15 can function as a contraction-induced protein that enhances GSIS through activating the canonical signaling pathway in a GFRAL-independent manner., Article Highlights: Exercise improves glucose-stimulated insulin secretion through direct interorgan communication. Contracting skeletal muscle releases growth differentiation factor 15 (GDF15), which is required to synergistically enhance glucose-stimulated insulin secretion. GDF15 enhances glucose-stimulated insulin secretion by activating the canonical insulin release pathway. Increased levels of circulating GDF15 after exercise training are related to improvements in β-cell function in patients with type 2 diabetes., (© 2023 by the American Diabetes Association.)

Published

2023

41. Fibroblast growth factor-21 is required for weight loss induced by the glucagon-like peptide-1 receptor agonist liraglutide in male mice fed high carbohydrate diets.

Author

Le TDV, Fathi P, Watters AB, Ellis BJ, Besing GK, Bozadjieva-Kramer N, Perez MB, Sullivan AI, Rose JP, Baggio LL, Koehler J, Brown JL, Bales MB, Nwaba KG, Campbell JE, Drucker DJ, Potthoff MJ, Seeley RJ, and Ayala JE

Subjects

Animals, Male, Mice, Carbohydrates, Diet, High-Fat, Fibroblast Growth Factors genetics, Fibroblast Growth Factors metabolism, Mice, Inbred C57BL, Weight Loss, Glucagon-Like Peptide-1 Receptor metabolism, Liraglutide pharmacology

Abstract

Objective: Glucagon-like peptide-1 receptor (GLP-1R) agonists (GLP-1RA) and fibroblast growth factor-21 (FGF21) confer similar metabolic benefits. GLP-1RA induce FGF21, leading us to investigate mechanisms engaged by the GLP-1RA liraglutide to increase FGF21 levels and the metabolic relevance of liraglutide-induced FGF21., Methods: Circulating FGF21 levels were measured in fasted male C57BL/6J, neuronal GLP-1R knockout, β-cell GLP-1R knockout, and liver peroxisome proliferator-activated receptor alpha knockout mice treated acutely with liraglutide. To test the metabolic relevance of liver FGF21 in response to liraglutide, chow-fed control and liver Fgf21 knockout (Liv Fgf21-/- ) mice were treated with vehicle or liraglutide in metabolic chambers. Body weight and composition, food intake, and energy expenditure were measured. Since FGF21 reduces carbohydrate intake, we measured body weight in mice fed matched diets with low- (LC) or high-carbohydrate (HC) content and in mice fed a high-fat, high-sugar (HFHS) diet. This was done in control and Liv Fgf21-/- mice and in mice lacking neuronal β-klotho (Klb) expression to disrupt brain FGF21 signaling., Results: Liraglutide increases FGF21 levels independently of decreased food intake via neuronal GLP-1R activation. Lack of liver Fgf21 expression confers resistance to liraglutide-induced weight loss due to attenuated reduction of food intake in chow-fed mice. Liraglutide-induced weight loss was impaired in Liv Fgf21-/- mice when fed HC and HFHS diets but not when fed a LC diet. Loss of neuronal Klb also attenuated liraglutide-induced weight loss in mice fed HC or HFHS diets., Conclusions: Our findings support a novel role for a GLP-1R-FGF21 axis in regulating body weight in a dietary carbohydrate-dependent manner., (Copyright © 2023 The Author(s). Published by Elsevier GmbH.. All rights reserved.)

Published

2023

42. Weight versus weight-independent effects of Roux-en-Y gastric bypass on type 2 diabetes.

Author

Klein S and Seeley RJ

Subjects

Humans, Gastric Bypass, Diabetes Mellitus, Type 2 etiology

Published

2023

43. Antibodies to sclerostin or G-CSF receptor partially eliminate bone or marrow adipocyte loss, respectively, following vertical sleeve gastrectomy.

Author

Li Z, Qiu K, Zhao J, Granger K, Yu H, Lewis AG, Myronovych A, Toure MH, Hatsell SJ, Economides AN, Seeley RJ, and MacDougald OA

Subjects

Humans, Obesity metabolism, Gastrectomy adverse effects, Adipocytes metabolism, Bone Marrow metabolism, Receptors, Granulocyte Colony-Stimulating Factor

Abstract

Vertical sleeve gastrectomy (VSG), the most utilized bariatric procedure in clinical practice, greatly reduces body weight and improves a variety of metabolic disorders. However, one of its long-term complications is bone loss and increased risk of fracture. Elevated circulating sclerostin (SOST) and granulocyte-colony stimulating factor (G-CSF) concentrations have been considered as potential contributors to VSG-associated bone loss. To test these possibilities, we administrated antibodies to SOST or G-CSF receptor and investigated alterations to bone and marrow niche following VSG. Neutralizing either SOST or G-CSF receptor did not alter beneficial effects of VSG on adiposity and hepatic steatosis, and anti-SOST treatment provided a further improvement to glucose tolerance. SOST antibodies partially reduced trabecular and cortical bone loss following VSG by increasing bone formation, whereas G-CSF receptor antibodies had no effects on bone mass. The expansion in myeloid cellularity and reductions in bone marrow adiposity seen with VSG were partially eliminated by treatment with Anti-G-CSF receptor. Taken together, these experiments demonstrate that antibodies to SOST or G-CSF receptor may act through independent mechanisms to partially block effects of VSG on bone loss or marrow niche cells, respectively., Competing Interests: Declaration of competing interest RJS has received research support from Novo Nordisk, AstraZeneca and Fractyl. RJS has served as a paid consultant to Novo Nordisk, Scohia, CinRx, Structure Therapeutics and has equity in Calibrate and Rewind. SJH and ANE hold stock in Regeneron. OAM has received grant support from Regeneron Pharmaceuticals, Inc., CombiGene AB, and Rejuvenate Bio. All other authors have declared that no conflicts of interest exist., (Copyright © 2023 Elsevier Inc. All rights reserved.)

Published

2023

44. Neither GLP-1 receptors nor GFRAL neurons are required for aversive or anorectic response to DON (vomitoxin).

Author

Patel AR, Frikke-Schmidt H, Sabatini PV, Rupp AC, Sandoval DA, Myers MG Jr, and Seeley RJ

Abstract

Deoxynivalenol (DON), a type B trichothecene mycotoxin contaminating grains, promotes nausea, emesis and anorexia. With DON exposure, circulating levels of intestinally derived satiation hormones, including glucagon-like peptide 1 (GLP-1) are elevated. To directly test whether GLP-1 signaling mediates the effects of DON, we examined the response of GLP-1 or GLP-1R-deficient mice to DON injection. We found comparable anorectic and conditioned taste avoidance learning responses in GLP-1/GLP-1R deficient mice compared to control littermates, suggesting that GLP-1 is not necessary for the effects of DON on food intake and visceral illness. We then used our previously published data from translating ribosome affinity purification with RNA sequencing (TRAP-seq) analysis of area postrema neurons that express the receptor for the circulating cytokine growth differentiation factor (GDF15), growth differentiation factor a-like (GFRAL). Interestingly, this analysis showed that a cell surface receptor for DON, calcium sensing receptor (CaSR), is heavily enriched in GFRAL neurons. Given that GDF15 potently reduces food intake and can cause visceral illness by signaling through GFRAL neurons, we hypothesized that DON may also signal by activating CaSR on GFRAL neurons. Indeed, circulating GDF15 levels are elevated after DON administration but both GFRAL knockout and GFRAL neuron-ablated mice exhibited similar anorectic and conditioned taste avoidance responses compared to WT littermates. Thus, GLP-1 signaling and GFRAL signaling and neurons are not required for DON-induced visceral illness or anorexia.

Published

2023

45. Liver Fibroblast Growth Factor 21 (FGF21) is Required for the Full Anorectic Effect of the Glucagon-Like Peptide-1 Receptor Agonist Liraglutide in Male Mice fed High Carbohydrate Diets.

Author

Le TDV, Fathi P, Watters AB, Ellis BJ, Bozadjieva-Kramer N, Perez MB, Sullivan AI, Rose JP, Baggio LL, Koehler J, Brown JL, Bales MB, Nwaba KG, Campbell JE, Drucker DJ, Potthoff MJ, Seeley RJ, and Ayala JE

Abstract

Glucagon-like peptide-1 receptor (GLP-1R) agonists and fibroblast growth factor 21 (FGF21) confer similar metabolic benefits. Studies report that GLP-1RA induce FGF21. Here, we investigated the mechanisms engaged by the GLP-1R agonist liraglutide to increase FGF21 levels and the metabolic relevance of liraglutide-induced FGF21. We show that liraglutide increases FGF21 levels via neuronal GLP-1R activation. We also demonstrate that lack of liver Fgf21 expression confers partial resistance to liraglutide-induced weight loss. Since FGF21 reduces carbohydrate intake, we tested whether the contribution of FGF21 to liraglutide-induced weight loss is dependent on dietary carbohydrate content. In control and liver Fgf21 knockout (Liv Fgf21 -/- ) mice fed calorically matched diets with low- (LC) or high-carbohydrate (HC) content, we found that only HC-fed Liv Fgf21 -/- mice were resistant to liraglutide-induced weight loss. Similarly, liraglutide-induced weight loss was partially impaired in Liv Fgf21 -/- mice fed a high-fat, high-sugar (HFHS) diet. Lastly, we show that loss of neuronal β-klotho expression also diminishes liraglutide-induced weight loss in mice fed a HC or HFHS diet, indicating that FGF21 mediates liraglutide-induced weight loss via neuronal FGF21 action. Our findings support a novel role for a GLP-1R-FGF21 axis in regulating body weight in the presence of high dietary carbohydrate content.

Published

2023

46. Obesity-related alterations in protein expression in human follicular fluid from women undergoing in vitro fertilization.

Author

Schon SB, Yang K, Schindler R, Jiang L, Neff LM, Seeley RJ, and Marsh EE

Subjects

Humans, Female, Proteomics, Cross-Sectional Studies, Fertilization in Vitro, Obesity metabolism, Follicular Fluid metabolism, Polycystic Ovary Syndrome metabolism

Abstract

Objective: To compare the proteomic composition of follicular fluid from women with normal weight vs. women with obesity but without a history of polycystic ovary syndrome or known ovarian dysfunction undergoing in vitro fertilization., Design: Cross-sectional., Setting: Academic medical center., Patient(s): Eight women with normal weight and 8 women with obesity undergoing in vitro fertilization and without a history of polycystic ovary syndrome, ovulatory dysfunction, diminished ovarian reserve, or known endometriosis were included in the analysis., Intervention(s): Not applicable., Main Outcome Measure(s): Proteomic assessment using liquid chromatography-mass spectrometry analysis., Result(s): The mean age of women with normal weight was similar to that of women with obesity (32.9 vs. 32.6 years, not significant). The mean body mass index of women with normal weight was 21.2 kg/m 2 compared with a body mass index of 37.1 kg/m 2 in women with obesity. A total of 1,174 proteins were identified with ≥2 peptides present. Twenty-five proteins were found to be significantly altered in the follicular fluid from women with obesity. Of these 25 proteins, 19 were up-regulated and 6 were down-regulated. Notably, C-reactive protein was 11-fold higher in the follicular fluid from women with obesity than in the follicular fluid from women with normal weight., Conclusion(s): Obesity is associated with dysregulation at the level of the follicle, including alterations in proteins related to inflammation and metabolism. These include proteins with emerging roles in energy homeostasis and follicular regulation., (Copyright © 2022 American Society for Reproductive Medicine. Published by Elsevier Inc. All rights reserved.)

Published

2022

47. The gut peptide Reg3g links the small intestine microbiome to the regulation of energy balance, glucose levels, and gut function.

Author

Shin JH, Bozadjieva-Kramer N, Shao Y, Lyons-Abbott S, Rupp AC, Sandoval DA, and Seeley RJ

Subjects

Mice, Animals, Intestine, Small metabolism, Glucose metabolism, Peptides, Mice, Knockout, N-Acetylglucosaminyltransferases, Pancreatitis-Associated Proteins, Diabetes Mellitus, Type 2, Microbiota

Abstract

Changing composition of the gut microbiome is an important component of the gut adaptation to various environments, which have been implicated in various metabolic diseases including obesity and type 2 diabetes, but the mechanisms by which the microbiota influence host physiology remain contentious. Here we find that both diets high in the fermentable fiber inulin and vertical sleeve gastrectomy increase intestinal expression and circulating levels of the anti-microbial peptide Reg3g. Moreover, a number of beneficial effects of these manipulations on gut function, energy balance, and glucose regulation are absent in Reg3g knockout mice. Peripheral administration of various preparations of Reg3g improves glucose tolerance, and this effect is dependent on the putative receptor Extl3 in the pancreas. These data suggest Reg3g acts both within the lumen and as a gut hormone to link the intestinal microbiome to various aspects of host physiology that may be leveraged for novel treatment strategies., Competing Interests: Declaration of interests R.J.S. has received research support from Novo Nordisk, Astra Zeneca, Pfizer, and Fractyl. R.J.S has served as a paid consultant and/or scientific advisory board member to Novo Nordisk, Scohia, Fractyle and ShouTi Pharma. R.J.S. has equity or option positions in Rewind and Calibrate Health. S.L.-A. is a paid employee of Novo Nordisk., (Copyright © 2022 Elsevier Inc. All rights reserved.)

Published

2022

48. Divergent roles for the gut intraepithelial lymphocyte GLP-1R in control of metabolism, microbiota, and T cell-induced inflammation.

Author

Wong CK, Yusta B, Koehler JA, Baggio LL, McLean BA, Matthews D, Seeley RJ, and Drucker DJ

Subjects

Blood Glucose, Glucagon-Like Peptide 1 metabolism, Glucagon-Like Peptide-1 Receptor, Glucose metabolism, Humans, Inflammation, Intestines, Receptors, Antigen, T-Cell, Gastrointestinal Microbiome, Intraepithelial Lymphocytes metabolism

Abstract

Gut intraepithelial lymphocytes (IELs) are thought to calibrate glucagon-like peptide 1 (GLP-1) bioavailability, thereby regulating systemic glucose and lipid metabolism. Here, we show that the gut IEL GLP-1 receptor (GLP-1R) is not required for enteroendocrine L cell GLP-1 secretion and glucose homeostasis nor for the metabolic benefits of GLP-1R agonists (GLP-1RAs). Instead, the gut IEL GLP-1R is essential for the full effects of GLP-1RAs on gut microbiota. Moreover, independent of glucose control or weight loss, the anti-inflammatory actions of GLP-1RAs require the gut IEL GLP-1R to selectively restrain local and systemic T cell-induced, but not lipopolysaccharide-induced, inflammation. Such effects are mediated by the suppression of gut IEL effector functions linked to the dampening of proximal T cell receptor signaling in a protein-kinase-A-dependent manner. These data reposition key roles of the L cell-gut IEL GLP-1R axis, revealing mechanisms linking GLP-1R activation in gut IELs to modulation of microbiota composition and control of intestinal and systemic inflammation., Competing Interests: Declaration of interests D.J.D. has served as a speaker or consultant for Altimmune, Amgen, AMT Inc., Eli Lilly Inc., Kallyope Inc., Merck Inc., Novo Nordisk Inc., and Pfizer Inc. R.J.S. serves as a paid consultant for Novo Nordisk, Scohia, Fractyl, and ShouTi. R.J.S. has equity positions in Calibrate and Rewind Health., (Copyright © 2022 Elsevier Inc. All rights reserved.)

Published

2022

49. The GDF15-GFRAL pathway is dispensable for the effects of metformin on energy balance.

Author

Klein AB, Nicolaisen TS, Johann K, Fritzen AM, Mathiesen CV, Gil C, Pilmark NS, Karstoft K, Blond MB, Quist JS, Seeley RJ, Færch K, Lund J, Kleinert M, and Clemmensen C

Subjects

Animals, Glial Cell Line-Derived Neurotrophic Factor Receptors metabolism, Humans, Mice, Obesity metabolism, Weight Loss, Growth Differentiation Factor 15 metabolism, Metformin pharmacology, Metformin therapeutic use

Abstract

Metformin is a blood-glucose-lowering medication with physiological effects that extend beyond its anti-diabetic indication. Recently, it was reported that metformin lowers body weight via induction of growth differentiation factor 15 (GDF15), which suppresses food intake by binding to the GDNF family receptor α-like (GFRAL) in the hindbrain. Here, we corroborate that metformin increases circulating GDF15 in mice and humans, but we fail to confirm previous reports that the GDF15-GFRAL pathway is necessary for the weight-lowering effects of metformin. Instead, our studies in wild-type, GDF15 knockout, and GFRAL knockout mice suggest that the GDF15-GFRAL pathway is dispensable for the effects of metformin on energy balance. The data presented here question whether metformin is a sufficiently strong stimulator of GDF15 to drive anorexia and weight loss and emphasize that additional work is needed to untangle the relationship among metformin, GDF15, and energy balance., Competing Interests: Declaration of interests A.B.K. and C.C. are co-founders of Ousia Pharma ApS, a biotech company developing therapeutics for obesity. J.S.Q. and K.F. have received research funding from Novo Nordisk. R.J.S. has received research support from Novo Nordisk and Astra Zeneca. R.J.S. has served as a paid consultant for Novo Nordisk, Scohia, Fractyl, and ShouTi Pharma. R.J.S. has equity positions in Calibrate and Rewind., (Copyright © 2022 The Author(s). Published by Elsevier Inc. All rights reserved.)

Published

2022

50. Who knew? PPARs may act in the brain too.

Author

Seeley RJ and Rhodes CJ

Subjects

Brain metabolism, Peroxisome Proliferator-Activated Receptors metabolism

Published

2022