scholarly article | Q13442814 |
P2093 | author name string | Marielle Scherrer-Crosbie | |
Allyson G Hindle | |||
Robrecht Thoonen | |||
P2860 | cites work | Contributions of white and brown adipose tissues and skeletal muscles to acute cold-induced metabolic responses in healthy men | Q85937765 |
Cardioprotective proteins upregulated in the liver in response to experimental myocardial ischemia | Q87441999 | ||
The browning of white adipose tissue: some burning issues | Q87586436 | ||
Identification of a novel FGF, FGF-21, preferentially expressed in the liver | Q22254289 | ||
FTO Obesity Variant Circuitry and Adipocyte Browning in Humans | Q22305008 | ||
Identification and importance of brown adipose tissue in adult humans | Q24632425 | ||
PRDM16 controls a brown fat/skeletal muscle switch | Q24657178 | ||
The type 2 iodothyronine deiodinase is essential for adaptive thermogenesis in brown adipose tissue | Q24670736 | ||
Of mice and men: novel insights regarding constitutive and recruitable brown adipocytes | Q26751902 | ||
Beyond the sympathetic tone: the new brown fat activators | Q26995845 | ||
Paradoxical roles of perivascular adipose tissue in atherosclerosis and hypertension | Q26999797 | ||
Thyroid hormones and the metabolic syndrome | Q26999936 | ||
Brown adipose tissue activity as a target for the treatment of obesity/insulin resistance | Q28081672 | ||
Shades of brown: a model for thermogenic fat | Q28085301 | ||
Mechanism of fatty-acid-dependent UCP1 uncoupling in brown fat mitochondria | Q28506657 | ||
betaAR signaling required for diet-induced thermogenesis and obesity resistance | Q28508047 | ||
Mice lacking mitochondrial uncoupling protein are cold-sensitive but not obese | Q28510931 | ||
Regulation of the uncoupling protein gene (Ucp) by beta 1, beta 2, and beta 3-adrenergic receptor subtypes in immortalized brown adipose cell lines | Q28511177 | ||
UCP1 ablation induces obesity and abolishes diet-induced thermogenesis in mice exempt from thermal stress by living at thermoneutrality | Q28513102 | ||
A PGC1-α-dependent myokine that drives brown-fat-like development of white fat and thermogenesis | Q28588558 | ||
Cold-activated brown adipose tissue in healthy men | Q29547382 | ||
Brown adipose tissue: function and physiological significance | Q29547448 | ||
Functional brown adipose tissue in healthy adults | Q29547687 | ||
High incidence of metabolically active brown adipose tissue in healthy adult humans: effects of cold exposure and adiposity | Q29615454 | ||
Beige adipocytes are a distinct type of thermogenic fat cell in mouse and human | Q29617382 | ||
Unexpected evidence for active brown adipose tissue in adult humans | Q29619030 | ||
Cold acclimation recruits human brown fat and increases nonshivering thermogenesis. | Q30352201 | ||
From cytokine to myokine: the emerging role of interleukin-6 in metabolic regulation. | Q30361595 | ||
Contrast-Enhanced Ultrasound: A Novel Noninvasive, Nonionizing Method for the Detection of Brown Adipose Tissue in Humans. | Q30373239 | ||
Measurement of human brown adipose tissue volume and activity using anatomic MR imaging and functional MR imaging | Q30656110 | ||
UCP1: the only protein able to mediate adaptive non-shivering thermogenesis and metabolic inefficiency. | Q32139161 | ||
Marsupial uncoupling protein 1 sheds light on the evolution of mammalian nonshivering thermogenesis. | Q33304411 | ||
Uncoupling protein 1 expression and high-fat diets | Q37806877 | ||
Vascular actions of adipokines molecular mechanisms and therapeutic implications | Q37809915 | ||
Between brown and white: novel aspects of adipocyte differentiation | Q37831331 | ||
Perivascular Fat and the Microcirculation: Relevance to Insulin Resistance, Diabetes, and Cardiovascular Disease. | Q37976078 | ||
Paracrine regulation of vascular tone, inflammation and insulin sensitivity by perivascular adipose tissue | Q37988249 | ||
Diabetic cardiac autonomic neuropathy and anesthetic management: review of the literature. | Q37991723 | ||
Brown fat at PET/CT: correlation with patient characteristics | Q38012743 | ||
Control of Brown Adipose Tissue Glucose and Lipid Metabolism by PPARγ. | Q38015367 | ||
Pharmacological and nutritional agents promoting browning of white adipose tissue. | Q38067998 | ||
Bone morphogenic proteins signaling in adipogenesis and energy homeostasis | Q38077033 | ||
Brown adipose tissue in adult humans: a metabolic renaissance | Q38095425 | ||
Brown adipose tissue: development, metabolism and beyond | Q38117395 | ||
An endocrine role for brown adipose tissue? | Q38120479 | ||
Brown adipose tissue thermogenesis in the resistance to and reversal of obesity: A potential new mechanism contributing to the metabolic benefits of proglucagon-derived peptides. | Q38139935 | ||
Adipose tissue browning and metabolic health | Q38154504 | ||
Free fatty acid (FFA) and hydroxy carboxylic acid (HCA) receptors | Q38155594 | ||
A new era in brown adipose tissue biology: molecular control of brown fat development and energy homeostasis | Q38159812 | ||
Regulation of glucose homoeostasis by brown adipose tissue. | Q38195448 | ||
FGF21-based pharmacotherapy--potential utility for metabolic disorders | Q38202720 | ||
Activation and recruitment of brown adipose tissue as anti-obesity regimens in humans | Q38217888 | ||
Role of free fatty acid receptors in the regulation of energy metabolism | Q38219814 | ||
Thyroid hormones and the heart | Q38267475 | ||
Brown Adipose Tissue Transplantation Reverses Obesity in Ob/Ob Mice | Q38300072 | ||
Leptin is required for uncoupling protein-1-independent thermogenesis during cold stress. | Q38316031 | ||
Direct effects of leptin on brown and white adipose tissue | Q38340178 | ||
Raising at thermoneutrality prevents obesity and hyperphagia in BAT-ablated transgenic mice | Q38347160 | ||
Mitochondria as key targets of cardioprotection in cardiac ischemic disease: role of thyroid hormone triiodothyronine | Q38391278 | ||
Local and systemic effects of the multifaceted epicardial adipose tissue depot | Q38409873 | ||
Physiology and relevance of human adaptive thermogenesis response | Q38419042 | ||
Adipokines and the Endocrine Role of Adipose Tissues | Q38436220 | ||
Perivascular adipose tissue, inflammation and insulin resistance: link to vascular dysfunction and cardiovascular disease | Q38459537 | ||
Brown adipose tissue: physiological function and evolutionary significance | Q38475822 | ||
New insights into mechanisms of cardioprotection mediated by thyroid hormones. | Q39299996 | ||
Effect of high fat diets on energy balance and thermogenesis in brown adipose tissue of lean and genetically obese ob/ob mice | Q39686741 | ||
Paradoxical resistance to diet-induced obesity in UCP1-deficient mice | Q39740914 | ||
The presence of UCP1 demonstrates that metabolically active adipose tissue in the neck of adult humans truly represents brown adipose tissue. | Q39982206 | ||
Luxuskonsumption, Diet-Induced Thermogenesis and Brown Fat: The Case in Favour | Q40144246 | ||
Fat cell adrenergic receptors and the control of white and brown fat cell function. | Q40845681 | ||
Persistent diet-induced obesity in male C57BL/6 mice resulting from temporary obesigenic diets | Q33436196 | ||
A recurring problem with the analysis of energy expenditure in genetic models expressing lean and obese phenotypes | Q33604535 | ||
Identification of the prosurvival activity of nerve growth factor on cardiac myocytes | Q33699599 | ||
A smooth muscle-like origin for beige adipocytes | Q33738053 | ||
Brown adipose tissue in morbidly obese subjects | Q33842257 | ||
Cellular bioenergetics as a target for obesity therapy | Q33894407 | ||
Brown adipose tissue in humans is activated by elevated plasma catecholamines levels and is inversely related to central obesity | Q33942026 | ||
Anatomical and functional assessment of brown adipose tissue by magnetic resonance imaging | Q34161562 | ||
Implications of nonshivering thermogenesis for energy balance regulation in humans | Q34178114 | ||
The distribution of brown adipose tissue in the human | Q34228011 | ||
Pten positively regulates brown adipose function, energy expenditure, and longevity | Q34260134 | ||
Human epicardial adipose tissue is a source of inflammatory mediators | Q34272633 | ||
Epicardial and perivascular adipose tissues and their influence on cardiovascular disease: basic mechanisms and clinical associations. | Q34297183 | ||
Adaptive thermogenesis and thermal conductance in wild-type and UCP1-KO mice | Q34305787 | ||
Brown adipose tissue regulates glucose homeostasis and insulin sensitivity. | Q34316238 | ||
Adaptive thermogenesis in adipocytes: is beige the new brown? | Q34326605 | ||
Development of obesity in transgenic mice after genetic ablation of brown adipose tissue | Q34346636 | ||
Irisin and FGF21 are cold-induced endocrine activators of brown fat function in humans | Q34403054 | ||
Brown and white adipose tissues: intrinsic differences in gene expression and response to cold exposure in mice | Q34405118 | ||
Two types of brown adipose tissue in humans | Q34407211 | ||
Prdm16 determines the thermogenic program of subcutaneous white adipose tissue in mice | Q34428994 | ||
Brown adipose tissue improves whole-body glucose homeostasis and insulin sensitivity in humans | Q34430537 | ||
Discovery of a class of endogenous mammalian lipids with anti-diabetic and anti-inflammatory effects. | Q34442874 | ||
Activation of human brown adipose tissue by a β3-adrenergic receptor agonist. | Q34456901 | ||
Genetic and functional characterization of clonally derived adult human brown adipocytes | Q34467305 | ||
Identification of inducible brown adipocyte progenitors residing in skeletal muscle and white fat. | Q34472039 | ||
Potential of brown adipose tissue type II thyroxine 5'-deiodinase as a local and systemic source of triiodothyronine in rats | Q34569529 | ||
Thyroid hormone potentiates insulin signaling and attenuates hyperglycemia and insulin resistance in a mouse model of type 2 diabetes | Q34583551 | ||
The brown fat-enriched secreted factor Nrg4 preserves metabolic homeostasis through attenuation of hepatic lipogenesis | Q34642326 | ||
Detection of brown adipose tissue and thermogenic activity in mice by hyperpolarized xenon MRI | Q34752336 | ||
Nerve growth factor protects the ischemic heart via attenuation of the endoplasmic reticulum stress induced apoptosis by activation of phosphatidylinositol 3-kinase | Q34784766 | ||
Thermogenic activation induces FGF21 expression and release in brown adipose tissue. | Q34787051 | ||
Translational issues in targeting brown adipose tissue thermogenesis for human obesity management | Q34852201 | ||
Brown and beige fat in humans: thermogenic adipocytes that control energy and glucose homeostasis | Q35056776 | ||
A clinical approach to brown adipose tissue in the para-aortic area of the human thorax | Q35393770 | ||
Similarity of mouse perivascular and brown adipose tissues and their resistance to diet-induced inflammation. | Q35395679 | ||
Brown adipose tissue activation is inversely related to central obesity and metabolic parameters in adult human | Q35495647 | ||
The brown fat secretome: metabolic functions beyond thermogenesis | Q35561612 | ||
Beta-adrenergic receptors and regulation of energy expenditure: a family affair | Q35639145 | ||
Uncoupling protein 1 binds one nucleotide per monomer and is stabilized by tightly bound cardiolipin. | Q35698944 | ||
Brown adipose tissue oxidative metabolism contributes to energy expenditure during acute cold exposure in humans. | Q35698990 | ||
Insulin-independent reversal of type 1 diabetes in nonobese diabetic mice with brown adipose tissue transplant. | Q35749428 | ||
Functional brown adipose tissue limits cardiomyocyte injury and adverse remodeling in catecholamine-induced cardiomyopathy. | Q35751292 | ||
Reversal of type 1 diabetes in mice by brown adipose tissue transplant. | Q35766895 | ||
Expression of the mitochondrial uncoupling protein gene from the aP2 gene promoter prevents genetic obesity | Q35768964 | ||
Cardiac natriuretic peptides act via p38 MAPK to induce the brown fat thermogenic program in mouse and human adipocytes | Q35780260 | ||
Clonal analyses and gene profiling identify genetic biomarkers of the thermogenic potential of human brown and white preadipocytes | Q35832675 | ||
The varying faces of IL-6: From cardiac protection to cardiac failure. | Q36368339 | ||
Loss of perivascular adipose tissue on peroxisome proliferator-activated receptor-γ deletion in smooth muscle cells impairs intravascular thermoregulation and enhances atherosclerosis | Q36384655 | ||
The role of brown adipose tissue in human obesity | Q36657174 | ||
Anatomical localization, gene expression profiling and functional characterization of adult human neck brown fat. | Q36831935 | ||
Dual modulation of vascular function by perivascular adipose tissue and its potential correlation with adiposity/lipoatrophy-related vascular dysfunction | Q36879413 | ||
Inactivation of UCP1 and the glycerol phosphate cycle synergistically increases energy expenditure to resist diet-induced obesity | Q36924198 | ||
FGF21 is an Akt-regulated myokine | Q37017459 | ||
Control of lipolysis by natriuretic peptides and cyclic GMP. | Q37109051 | ||
Endocrine protection of ischemic myocardium by FGF21 from the liver and adipose tissue | Q37199307 | ||
Proinflammatory phenotype of perivascular adipocytes: influence of high-fat feeding | Q37344131 | ||
15O PET measurement of blood flow and oxygen consumption in cold-activated human brown fat. | Q37444605 | ||
Brown adipose tissue blood flow and mass in obesity: a contrast ultrasound study in mice | Q37637880 | ||
Perivascular fat, AMP-activated protein kinase and vascular diseases. | Q37671282 | ||
Distribution and development of brown adipocytes in the murine and human adipose organ | Q37726537 | ||
Brown fat and the myth of diet-induced thermogenesis | Q37726542 | ||
β3-Adrenoceptor activation attenuates atherosclerotic plaque formation in ApoE(-/-) mice through lowering blood lipids and glucose | Q37729585 | ||
Brown adipose tissue--a new role in humans? | Q37729817 | ||
Perivascular adipose tissue as a cause of atherosclerosis. | Q37774439 | ||
Brown fat thermogenesis and body weight regulation in mice: relevance to humans | Q37799246 | ||
Metabolic consequences of the presence or absence of the thermogenic capacity of brown adipose tissue in mice (and probably in humans). | Q37799249 | ||
TH-, NPY-, SP-, and CGRP-immunoreactive nerves in interscapular brown adipose tissue of adult rats acclimated at different temperatures: an immunohistochemical study | Q73411984 | ||
Physiological effects of heat and cold | Q73949863 | ||
Only UCP1 can mediate adaptive nonshivering thermogenesis in the cold | Q74394663 | ||
THERMOGENESIS OF BROWN ADIPOSE TISSUE IN COLD-ACCLIMATED RATS | Q76714371 | ||
Perivascular inflammation after balloon angioplasty of porcine coronary arteries | Q77088630 | ||
Adiponectin expression in human epicardial adipose tissue in vivo is lower in patients with coronary artery disease | Q81480879 | ||
UCP1 deficiency increases susceptibility to diet-induced obesity with age | Q81797596 | ||
UCP1 is essential for adaptive adrenergic nonshivering thermogenesis | Q83092333 | ||
Adiponectin produced in coronary circulation regulates coronary flow reserve in nondiabetic patients with angiographically normal coronary arteries | Q83890656 | ||
Role of perivascular adipose tissue-derived methyl palmitate in vascular tone regulation and pathogenesis of hypertension | Q84770550 | ||
Outdoor Temperature, Age, Sex, Body Mass Index, and Diabetic Status Determine the Prevalence, Mass, and Glucose-Uptake Activity of 18F-FDG-Detected BAT in Humans | Q85189481 | ||
Modulation of vascular function by perivascular adipose tissue: the role of endothelium and hydrogen peroxide | Q41587387 | ||
Adenosine activates brown adipose tissue and recruits beige adipocytes via A2A receptors | Q41700452 | ||
Enhanced sympathetic activity in mice with brown adipose tissue transplantation (transBATation). | Q41782976 | ||
Direct assessment of brown adipose tissue as a site of systemic tri-iodothyronine production in the rat. | Q41789711 | ||
Arteriovenous anastomoses in interscapular brown adipose tissue in the rat. | Q41789849 | ||
Genetic disruption of uncoupling protein 1 in mice renders brown adipose tissue a significant source of FGF21 secretion | Q41810632 | ||
Recruited brown adipose tissue as an antiobesity agent in humans | Q41890383 | ||
In vivo noninvasive characterization of brown adipose tissue blood flow by contrast ultrasound in mice | Q41991341 | ||
Brown adipose tissue takes up plasma triglycerides mostly after lipolysis | Q42097167 | ||
Increased brown adipose tissue oxidative capacity in cold-acclimated humans | Q42262593 | ||
TSH effects on thermogenesis in rat brown adipocytes | Q42472626 | ||
Thermogenic responses in brown fat cells are fully UCP1-dependent. UCP2 or UCP3 do not substitute for UCP1 in adrenergically or fatty scid-induced thermogenesis | Q42488444 | ||
Expression of nerve growth factor in brown adipose tissue: implications for thermogenesis and obesity | Q42557041 | ||
Adaptive evolution of the uncoupling protein 1 gene contributed to the acquisition of novel nonshivering thermogenesis in ancestral eutherian mammals | Q42637361 | ||
Three years with adult human brown adipose tissue | Q42747388 | ||
The corticotrophin-releasing factor/urocortin system regulates white fat browning in mice through paracrine mechanisms | Q42796049 | ||
Brown adipose tissue transplantation improves whole-body energy metabolism | Q43137936 | ||
Blunted metabolic responses to cold and insulin stimulation in brown adipose tissue of obese humans. | Q43429671 | ||
Brown-Adipose-Tissue Mitochondria: Photoaffinity Labelling of the Regulatory Site of Energy Dissipation | Q43465451 | ||
Adult epicardial fat exhibits beige features | Q43871475 | ||
Activation by retinoids of the uncoupling protein UCP1. | Q44999149 | ||
Uncoupling protein 1 in fish uncovers an ancient evolutionary history of mammalian nonshivering thermogenesis | Q45345676 | ||
Brown adipose tissue volume in healthy lean south Asian adults compared with white Caucasians: a prospective, case-controlled observational study | Q46411188 | ||
Fibroblast growth factor 21 protects against cardiac hypertrophy in mice. | Q46527697 | ||
Differential effects of statins on endogenous H2S formation in perivascular adipose tissue. | Q46585322 | ||
Sex-dependent effects of the UCP1 -3826 A/G polymorphism on obesity and blood pressure. | Q47192247 | ||
Coronary perivascular adipose tissue characteristics are related to atherosclerotic plaque size and composition. A post-mortem study. | Q47281837 | ||
Excess weight gain during the early postnatal period is associated with permanent reprogramming of brown adipose tissue adaptive thermogenesis | Q47286631 | ||
Adrenergic activation of triiodothyronine production in brown adipose tissue | Q48724505 | ||
A switch from white to brown fat increases energy expenditure in cancer-associated cachexia. | Q51709332 | ||
Ectopic UCP1 Overexpression in White Adipose Tissue Improves Insulin Sensitivity in Lou/C Rats, a Model of Obesity Resistance. | Q52927321 | ||
Impact of brown adipose tissue on body fatness and glucose metabolism in healthy humans. | Q53089250 | ||
Impact of UCP1 and β3AR gene polymorphisms on age-related changes in brown adipose tissue and adiposity in humans. | Q53139071 | ||
The secretion pattern of perivascular fat cells is different from that of subcutaneous and visceral fat cells. | Q53186169 | ||
Determination of UCP1 expression in subcutaneous and perirenal adipose tissues of patients with hypertension. | Q53574277 | ||
Short-term cold acclimation improves insulin sensitivity in patients with type 2 diabetes mellitus. | Q53833860 | ||
Brown fat is essential for cold-induced thermogenesis but not for obesity resistance in aP2-Ucp mice. | Q54142969 | ||
Decreased brown fat markedly enhances susceptibility to diet-induced obesity, diabetes, and hyperlipidemia. | Q54154717 | ||
In vivo measurement of energy substrate contribution to cold-induced brown adipose tissue thermogenesis. | Q54174111 | ||
Brown adipose tissue activity controls triglyceride clearance. | Q55053878 | ||
Adiponectin is a novel humoral vasodilator | Q56981922 | ||
Thermal Imaging to Assess Age-Related Changes of Skin Temperature within the Supraclavicular Region Co-Locating with Brown Adipose Tissue in Healthy Children | Q58961713 | ||
Different Metabolic Responses of Human Brown Adipose Tissue to Activation by Cold and Insulin | Q60714047 | ||
Nerve growth factor rescues diabetic mice heart after ischemia/reperfusion injury via up-regulation of the TRPV1 receptor | Q64377853 | ||
Brown adipose tissue uncoupling protein content in human infants, children and adults | Q69615952 | ||
Growth and distribution of human fetal brown fat | Q69818566 | ||
The characterization and energetic potential of brown adipose tissue in man | Q70109330 | ||
Influence of perivascular adipose tissue on rat aortic smooth muscle responsiveness | Q70220693 | ||
Topography and vascularization of brown fat in a small nonhibernator (deer mouse, Peromyscus maniculatus) | Q71313965 | ||
Energy balance following sympathetic denervation of brown adipose tissue | Q71321536 | ||
Production of nerve growth factor by brown fat in culture: relation with the in vivo developmental stage of the tissue | Q72672275 | ||
Brown adipose tissue and heat production in the newborn infant | Q72858454 | ||
The occurrence of brown adipose tissue in outdoor workers | Q72902291 | ||
P433 | issue | 11 | |
P304 | page(s) | H1592-605 | |
P577 | publication date | 2016-04-15 | |
P1433 | published in | American Journal of Physiology Heart and Circulatory Physiology | Q3193662 |
P1476 | title | Brown adipose tissue: The heat is on the heart | |
P478 | volume | 310 |
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