2.Research advances in the origin and formation of brown adipose.
Acta Academiae Medicinae Sinicae 2009;31(6):778-781
Brown adipose tissue contributes to energy balance in humans by generating heat via the mitochondrial uncoupling of lipid oxidation. Currently it is believed that brown adipose has two origins: Myf5-negative progenitor (its source is same as that of white adipocyte) and Myf5-positive progenitor (its source is same as myocyte). Due to the different origins of brown adipocytes, they may be formed via multiple pathways which include the main pathway (by which Myf5-positive progenitors differentiate into brown adipocytes that distribute in classical locations) and alternative pathway (by which Myf5-negative progenitors differentiate into brown adipocytes that distribute in white adipose tissue).
Adipocytes
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cytology
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Adipose Tissue, Brown
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cytology
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physiology
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Humans
3.Recent advance in brown adipose physiology and its therapeutic potential.
Yun Hee LEE ; Young Suk JUNG ; Dalwoong CHOI
Experimental & Molecular Medicine 2014;46(2):e78-
Brown adipose tissue (BAT) is a specialized thermoregulatory organ that has a critical role in the regulation of energy metabolism. Specifically, energy expenditure can be enhanced by the activation of BAT function and the induction of a BAT-like catabolic phenotype in white adipose tissue (WAT). Since the recent recognition of metabolically active BAT in adult humans, BAT has been extensively studied as one of the most promising targets identified for treating obesity and its related disorders. In this review, we summarize information on the developmental origin of BAT and the progenitors of brown adipocytes in WAT. We explore the transcriptional control of brown adipocyte differentiation during classical BAT development and in WAT browning. We also discuss the neuronal control of BAT activity and summarize the recently identified non-canonical stimulators of BAT that can act independently of beta-adrenergic stimulation. Finally, we review new findings on the beneficial effects of BAT activation and development with respect to improving metabolic profiles. We highlight the therapeutic potential of BAT and its future prospects, including pharmacological intervention and cell-based therapies designed to enhance BAT activity and development.
Adipocytes/cytology/metabolism
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Adipogenesis
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Adipose Tissue, Brown/cytology/metabolism/*physiology
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Animals
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Humans
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Obesity/therapy
4.Effect of bone morphogenetic protein 7 on differentiation of adipose derived mesenchymal stem cells into brown adipocytes in rats.
Long ZHENG ; Jian-Min LIU ; Jun-Xia WANG ; Min-Zhi LI ; Wei-Guang LIAN ; Peng XIE ; Shu-Feng LIU
Acta Academiae Medicinae Sinicae 2014;36(6):654-659
OBJECTIVETo evaluate the effect of bone morphogenetic protein(BMP7)on the differentiation of adipose derived mesenchymal stem cells(AD-MSCs)isolated from different adipose tissues into brown adipocytes in rats.
METHODSPrimary AD-MSCs were isolated from rate interscapular brown adipose tissue(iBAT),inguinal subcutaneous white adipose tissue(sWAT),and epididymal white adipose tissue(eWAT),respectively,and then cultivated in vitro. Differentiation of AD-MSCs into brown adipocytes was induced by BMP7. The characteristics of brown adipocytes were detected by immunofluorescence staining and oil red staining of cells. The expression levels of brown adipocyte-related genes were detected by polymerase chain reaction.
RESULTSAD-MSCs from iBAT and sWAT were differentiated into cluster multilocular cells,which were stained red by oil red "O"staining and showed uncoupling protein 1-positive by immunofluorescent staining method. AD-MSCs from eWAT had a small number of scattered multilocular cells and showed uncoupling protein 1-negative. The results of reverse transcription-polymerase chain reaction showed that the uncoupling protein 1 gene was highly expressed in the iBAT group and sWAT group but was negative in the eWAT group.
CONCLUSIONAD-MSCs isolated from different adipose tissues in rats have different gene expression profiles and differentiation potentials.
Adipocytes, Brown ; physiology ; Adipose Tissue ; metabolism ; Adipose Tissue, Brown ; physiology ; Animals ; Bone Morphogenetic Protein 7 ; metabolism ; Cell Differentiation ; physiology ; Ion Channels ; metabolism ; Mesenchymal Stromal Cells ; physiology ; Mitochondrial Proteins ; metabolism ; Obesity ; metabolism ; Rats ; Uncoupling Protein 1
5.Simultaneous telemetric analyzing of the temporal relationship for the changes of the circadian rhythms of brown adipose tissue thermogenesis and core temperature in the rat.
Yong-lu YANG ; Zi-ling SHEN ; Yu TANG ; Nian WANG ; Bing SUN
Chinese Journal of Applied Physiology 2011;27(3):348-352
OBJECTIVETo measure simultaneously the time course for the circadian rhythm of brown adipose tissue(BAT) thermogenesis and core temperature, and analyzing their temporal relationship.
METHODSThe circadian rhythm of core temperature (Tc), BAT temperature (T(BAT)), axillary temperature (Tax) and motor activity were simultaneously measured by telemetry in adult male Sprague-Dawley rats at an ambient temperature of 22 degrees C during a 12-h light:12-h dark photoperiod (lights on at 06:00 h and lights off at 18:00 h).
RESULTS(1) T(BAT) was 0.67 degrees C lower than Tc group under the light phase, but it was similar to that Tc during the dark phase. The rate of increase in T(BAT) was higher than corresponding increases in Tc at the start of transition from the light to dark phase, and increase in T(BAT) commenced approximately 8 min before Tc increases. Whereas at the start of transition from the dark to light phase, decrease in T(BAT) commenced approximately 4 min before Tc decreases. (2) The amplitude of the circadian Tax rhythm was similar to that of Tc. During either the light phase or dark phase, Tax was lower than simultaneous measurement of Tc. (3) Increases in behavioral activity commenced before increases in T(BAT) and Tc at the start of transition from the light to dark phase.
CONCLUSIONBAT thermogenesis contributes to increase in core temperature during the dark phase, indicating that circadian changes of BAT thermogenesis does indeed play significant role in the overall maintenance of the circadian rhythm of core temperature.
Adipose Tissue, Brown ; metabolism ; physiology ; Animals ; Body Temperature ; physiology ; Circadian Rhythm ; physiology ; Male ; Rats ; Rats, Sprague-Dawley ; Telemetry ; methods ; Thermogenesis ; physiology
6.Role of oxotremorine in arginine vasopressin-induced hypothermia and its effects on behavioral thermoregulatory response in rats.
Zi-Ling SHEN ; Yong-Lu YANG ; Bing SUN ; Yu TANG ; Nian WANG
Chinese Journal of Applied Physiology 2012;28(2):107-112
OBJECTIVETo investigate the role of oxotremorine in arginine vasopressin (AVP)-induced hypothermia and its effects on the behavioral thermoregulatory response.
METHODSCore temperature (Tc), brown adipose tissue (BAT) temperature and motor activities were monitored in undisturbed female SD rats using radiotelemetry. The behavioral thermoregulatory response was monitored in rats using radiotelemetric temperature gradient apparatus. Effect of AVP (10 microg/kg) and oxotremorine (0.25 mg/kg) on Tc, motor activities, BAT temperature (T(BAT)), grooming activities and the behavioral thermoregulatory response were observed in rats.
RESULTSAdministration of AVP and oxotremorine caused a significant drop in Tc, T(BAT), and an increases in grooming activities, respectively. The hypothermic responses were accompanied with a preference for cooler ambient temperature. Oxotremorine augmented the reduction of Tc, T(BAT), and the elevation of grooming activities resulting from AVP, and lasting a longer time. Administration of oxotremorine followed immediately by AVP injection in rats was also shown to induce a preference for cooler ambient temperature, but there was no significant difference compared with AVP.
CONCLUSIONAVP-induced hypothermia was related with the set point temperature reduction, inhibiton of BAT thermogenesis and an increases in grooming activities. Oxotremorine could participate in peripheral AVP-induced hypothermia by affecting BAT thermogenesis and behavioral thermoregulation.
Adipose Tissue, Brown ; drug effects ; physiology ; Animals ; Arginine Vasopressin ; pharmacology ; Behavior, Animal ; Body Temperature Regulation ; Female ; Hypothermia, Induced ; Oxotremorine ; pharmacology ; Rats ; Rats, Sprague-Dawley
7.TRPV1 channel-mediated thermogenesis is a common mode for the Chinese pungent-hot or pungent-warm herbs to demonstrate their natures.
Feng SUI ; Li DAI ; Qian LI ; Hai-yu ZHOU ; Hong-dan ZHAN ; Hai-ru HUO ; Ting-liang JIANG
Acta Pharmaceutica Sinica 2015;50(7):836-841
To further uncover the scientific significance and molecular mechanism of the Chinese herbs with pungent hot or warm natures, endogenous and exogenous expression systems were established by isolation of dorsal root ganglion (DRG) neurons and transfection of HEK293 cells with TRPV1 channel gene separately. On this basis, the regulation action of capsaicin, one main ingredient from chili pepper, on TRPV1 channel was further explored by using confocal microscope. Besides, the three-sites one-unit technique and method were constructed based on the brown adipose tissue (BAT), anal and tail skin temperatures. Then the effect of capsaicin on mouse energy metabolism was evaluated. Both endogenous and exogenous TRPV1 channel could be activated and this action could be specifically blocked by the TRPV1 channel inhibitor capsazepine. Simultaneously, the mice's core body temperature and BAT temperature fall down and then go up, accompanied by the increase of temperature of the mice's tail skin. Promotion of the energy metabolism by activation of TRPV1 channel might be the common way for the pungent-hot (warm) herbs to demonstrate their natures.
Adipose Tissue, Brown
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drug effects
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physiology
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Animals
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Capsaicin
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analogs & derivatives
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pharmacology
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Energy Metabolism
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Ganglia, Spinal
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cytology
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HEK293 Cells
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Humans
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Mice
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Neurons
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drug effects
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physiology
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Plants, Medicinal
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chemistry
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TRPV Cation Channels
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physiology
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Temperature
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Thermogenesis
8.Supplementation of Fermented Barley Extracts with Lactobacillus Plantarum dy-1 Inhibits Obesity via a UCP1-dependent Mechanism.
Xiang XIAO ; Juan BAI ; Ming Song LI ; Jia Yan ZHANG ; Xin Juan SUN ; Ying DONG
Biomedical and Environmental Sciences 2019;32(8):578-591
OBJECTIVE:
We aimed to explore how fermented barley extracts with Lactobacillus plantarum dy-1 (LFBE) affected the browning in adipocytes and obese rats.
METHODS:
In vitro, 3T3-L1 cells were induced by LFBE, raw barley extraction (RBE) and polyphenol compounds (PC) from LFBE to evaluate the adipocyte differentiation. In vivo, obese SD rats induced by high fat diet (HFD) were randomly divided into three groups treated with oral gavage: (a) normal control diet with distilled water, (b) HFD with distilled water, (c) HFD with 800 mg LFBE/kg body weight (bw).
RESULTS:
In vitro, LFBE and the PC in the extraction significantly inhibited adipogenesis and potentiated browning of 3T3-L1 preadipocytes, rather than RBE. In vivo, we observed remarkable decreases in the body weight, serum lipid levels, white adipose tissue (WAT) weights and cell sizes of brown adipose tissues (BAT) in the LFBE group after 10 weeks. LFBE group could gain more mass of interscapular BAT (IBAT) and promote the dehydrogenase activity in the mitochondria. And LFBE may potentiate process of the IBAT thermogenesis and epididymis adipose tissue (EAT) browning via activating the uncoupling protein 1 (UCP1)-dependent mechanism to suppress the obesity.
CONCLUSION
These results demonstrated that LFBE decreased obesity partly by increasing the BAT mass and the energy expenditure by activating BAT thermogenesis and WAT browning in a UCP1-dependent mechanism.
3T3 Cells
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Adipocytes
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drug effects
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physiology
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Adipose Tissue, Brown
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drug effects
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physiology
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Adipose Tissue, White
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drug effects
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physiology
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Animal Feed
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analysis
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Animals
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Anti-Obesity Agents
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administration & dosage
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metabolism
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Cell Differentiation
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drug effects
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Diet
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Fermentation
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Hordeum
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chemistry
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Lactobacillus plantarum
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chemistry
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Male
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Mice
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Obesity
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drug therapy
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genetics
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Plant Extracts
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chemistry
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Probiotics
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administration & dosage
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metabolism
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Random Allocation
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Rats
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Rats, Sprague-Dawley
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Uncoupling Protein 1
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genetics
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metabolism