Brown adipose tissue (BAT) plays a fundamental role in maintaining body temperature by producing heat. BAT that had been know to exist only in mammals and the human neonate has received great attention for the treatment of obesity and diabetes due to its important function in energy metabolism, ever since it is recently reported that human adults have functional BAT. In addition, beige adipocytes, brown adipocytes in white adipose tissue (WAT), have also been shown to take part in whole body metabolism. Multiple lines of evidence demonstrated that transplantation or activation of BAT or/and beige adipocytes reversed obesity and improved insulin sensitivity. Furthermore, many genes involved in BATactivation and/or the recruitment of beige cells have been found, thereby providing new promising strategies for future clinical application of BAT activation to treat obesity and metabolic diseases. This review focuses on recent advances of BAT function in the metabolic aspect and the relationship between BAT and cancer cachexia, a pathological process accompanied with decreased body weight and increased energy expenditure in cancer patients. The underlying possible mechanisms to reduce BAT mass and its activity in the elderly are also discussed.
Adipose Tissue, Brown ; metabolism ; Aging ; metabolism ; Animals ; Cachexia ; metabolism ; pathology ; Disease Models, Animal ; Energy Metabolism ; Humans ; Metabolic Syndrome ; metabolism ; Neoplasms ; metabolism ; pathology ; Obesity ; metabolism ; Thermogenesis

Metabolic associated fatty liver disease (MAFLD) is a liver disease with hepatocyte steatosis caused by metabolic disorders, which is closely related to obesity, diabetes, metabolic dysfunction, and other factors. Its pathological process changes from simple steatosis, liver inflammation to non-alcoholic steatohepatitis (NASH), and then leads to liver fibrosis, cirrhosis, and liver cancer. At present, no specific therapeutics are available for treatment of MAFLD targeting its etiology. Celastrol is the main active component of the traditional Chinese medicine Celastrus orbiculatus Thunb. In recent years, it has been found that celastrol shows important medicinal value in regulating lipid metabolism, reducing fat and weight, and protecting liver, and then ameliorates MAFLD. This article reviews the related research progress of celastrol in the prevention and treatment of MAFLD, so as to provide a reference for the comprehensive development and utilization of celastrol.
Humans ; Non-alcoholic Fatty Liver Disease/metabolism* ; Liver/pathology* ; Pentacyclic Triterpenes/metabolism* ; Obesity

Obesity, which underlies various metabolic and cardiovascular diseases, is a growing public health challenge for which established therapies are inadequate. Given the current obesity epidemic, there is a pressing need for more novel therapeutic strategies that will help adult individuals to manage their weight. One promising therapeutic intervention for reducing obesity is to enhance energy expenditure. Investigations into human brown fat and the recently discovered beige/brite fat have galvanized intense research efforts during the past decade because of their pivotal roles in energy dissipation. In this review, we summarize the evolution of human brown adipose tissue (hBAT) research and discuss new in vivo methodologies for evaluating energy expenditure in patients. We highlight the differences between human and mouse BAT by integrating and comparing their cellular morphology, function, and gene expression profiles. Although great advances in hBAT biology have been achieved in the past decade, more cellular models are needed to acquire a better understanding of adipose-specific processes and molecular mechanisms. Thus, this review also describes the development of a human brown fat cell line, which could provide promising mechanistic insights into hBAT function, signal transduction, and development. Finally, we focus on the therapeutic potential and current limitations of hBAT as an anti-glycemic, anti-lipidemic, and weight loss-inducing 'metabolic panacea'.
Adipose Tissue, Beige ; metabolism ; pathology ; Adipose Tissue, Brown ; metabolism ; pathology ; Animals ; Cell Line ; Energy Metabolism ; Humans ; Mice ; Obesity ; metabolism ; pathology ; therapy

Obesity is characterized by abnormal and excessive adipose tissue accumulated in the body. Compared with peripheral obesity (the accumulation of subcutaneous adipose tissue), abdominal obesity (the accumulation of visceral adipose tissue) is associated with increased risk of the metabolic syndrome, such as diabetes, hypertension, atherosclerosis, and dyslipidemia. Adipose tissue is a highly heterogeneous endocrine organ. Adipose tissue depots differ significantly in anatomy, cell biology, glucose and lipid metabolism as well as in endocrine regulation. Visceral adipose tissue has a stronger metabolic activity and secrets a larger amount of free fat acids, adipocytokines, hormones and inflammatory factors, which flux into the liver directly via the hepatic portal vein. These characteristics indicate that visceral adiposity may lead to the metabolic syndrome and thus visceral adipose tissue might be the clinical target for the prevention and treatment of obesity.
Adipose Tissue ; pathology ; Humans ; Intra-Abdominal Fat ; pathology ; Lipid Metabolism ; Metabolic Syndrome ; physiopathology ; Obesity ; physiopathology ; Obesity, Abdominal ; physiopathology ; Subcutaneous Fat ; pathology

This study tested the effects of the gastrointestinal pulse train electrical stimulation with different parameters and at different locations on the neuronal activities of the lateral hypothalamus area (LHA) in obese rats in order to find the optimal stimulation parameter and location. Eight gastric electrical stimulations (GES) with different parameters were performed and the neuronal activities of gastric-distension responsive (GD-R) neurons in LHA were observed. The effects of stimulations with 8 parameters were compared to find the optimal parameter. Then the optimal parameter was used to perform electrical stimulation at duodenum and ileum, and the effects of the duodenal and ileac stimulation on the GD-R neurons in LHA were compared with the gastric stimulation of optimal parameter. The results showed that GES with the lowest energy parameter (0.3 ms, 3 mA, 20 Hz, 2 s on, 3 s off) activated the least neurons. The effects of GES with other parameters whose pulse width was 0.3 ms were not significantly different from those of the lowest energy parameter. Most gastric stimulations whose pulse width was 3 ms activated more LHA neurons than the smallest energy parameter stimulation, and the effects of those 3 ms gastric stimulations were similar. Accordingly, the lowest energy parameter was recognized as the optimal parameter. The effects of stimulations with the optimal parameter at stomach, duodenum and ileum on the LHA neuronal activities were not different. Collectively, gastrointestinal electrical stimulation (GIES) with relatively large pulse width might have stronger effects to the neuronal activities of GD-R neurons in LHA of obese rats. The effects of the GIES at different locations (stomach, duodenum and ileum) on those neurons are similar, and GES is preferential because of its easy clinical performance and safety.
Animals ; Duodenum ; pathology ; physiopathology ; Electric Stimulation ; Hypothalamus ; pathology ; physiopathology ; Ileum ; pathology ; physiopathology ; Male ; Neurons ; metabolism ; pathology ; Obesity ; chemically induced ; pathology ; physiopathology ; Rats ; Rats, Sprague-Dawley ; Stomach ; pathology ; physiopathology

BACKGROUND/AIMS: Obesity increases the risk of colorectal cancer and adenomatous polyp, and one of the underlying mechanisms of this increase is considered to be due to the growth promoting effects of adipokines, such as leptin. In order to investigate this finding, leptin expression in the colonic tissue and blood leptin concentration of the colonic adenoma patients were compared to those of the control group. METHODS: Colonic adenoma tissues were obtained by polypectomy (n=60). In these patients, normal colonic mucosa at remote areas from the polyp was also obtained and blood samples were collected as well. Age and sex matched control subjects were selected among those who showed normal colonic mucosa in health screening colonoscopy (n=60). RESULTS: There was no significant difference in serum leptin concentration between the colonic adenoma patients and control subjects. Leptin expression was noted in 43.3% of the colonic adenomas, but only in 6.7% of normal colonic mucosa from the control subjects (p<0.01). There were ten cases of concurrent adenocarcinoma in situ in adenoma patients, eight cases of which expressed leptin (p=0.01). In adenoma group, leptin expression rate was significantly high in larger adenomas and in obese patients (p<0.05). However, there was no statistically significant relationship between leptin expression in colonic mucosa and serum leptin level. CONCLUSIONS: Leptin expression was more frequently observed in colonic adenomas, especially in larger adenomas associated with adenocarcinoma in situ, but blood leptin level was not related to tissue leptin expression. Leptin expression was more frequently observed in obese patients from the adenoma group. Therefore, leptin may play an important role in colonic tumorigenesis and progression, especially in obese patient.
Adenoma/metabolism/*pathology ; Adult ; Aged ; Body Mass Index ; Colonic Neoplasms/metabolism/*pathology ; Colonic Polyps/metabolism/pathology ; Female ; Humans ; Intestinal Mucosa/*metabolism ; Leptin/blood/*metabolism ; Male ; Middle Aged ; Obesity/metabolism/pathology ; Odds Ratio ; Waist Circumference

BACKGROUND/AIMS: Obesity increases the risk of colorectal cancer and adenomatous polyp, and one of the underlying mechanisms of this increase is considered to be due to the growth promoting effects of adipokines, such as leptin. In order to investigate this finding, leptin expression in the colonic tissue and blood leptin concentration of the colonic adenoma patients were compared to those of the control group. METHODS: Colonic adenoma tissues were obtained by polypectomy (n=60). In these patients, normal colonic mucosa at remote areas from the polyp was also obtained and blood samples were collected as well. Age and sex matched control subjects were selected among those who showed normal colonic mucosa in health screening colonoscopy (n=60). RESULTS: There was no significant difference in serum leptin concentration between the colonic adenoma patients and control subjects. Leptin expression was noted in 43.3% of the colonic adenomas, but only in 6.7% of normal colonic mucosa from the control subjects (p<0.01). There were ten cases of concurrent adenocarcinoma in situ in adenoma patients, eight cases of which expressed leptin (p=0.01). In adenoma group, leptin expression rate was significantly high in larger adenomas and in obese patients (p<0.05). However, there was no statistically significant relationship between leptin expression in colonic mucosa and serum leptin level. CONCLUSIONS: Leptin expression was more frequently observed in colonic adenomas, especially in larger adenomas associated with adenocarcinoma in situ, but blood leptin level was not related to tissue leptin expression. Leptin expression was more frequently observed in obese patients from the adenoma group. Therefore, leptin may play an important role in colonic tumorigenesis and progression, especially in obese patient.
Adenoma/metabolism/*pathology ; Adult ; Aged ; Body Mass Index ; Colonic Neoplasms/metabolism/*pathology ; Colonic Polyps/metabolism/pathology ; Female ; Humans ; Intestinal Mucosa/*metabolism ; Leptin/blood/*metabolism ; Male ; Middle Aged ; Obesity/metabolism/pathology ; Odds Ratio ; Waist Circumference

In healthy individuals, energy intake is in balance with energy expenditure, which helps to maintain a normal body weight. The brain's inability to control energy homeostasis underlies the pathology of hyperphagia and obesity. The brain detects body energy excess and deficit by sensing the levels of circulating metabolic hormones and nutrients and by receiving metabolic information from the periphery via the autonomic nervous system. A specialized neuronal network coordinates energy intake behavior and the metabolic processes affecting energy expenditure. Here, we briefly review neuronal mechanisms by which our body maintains energy balance.
Autonomic Nervous System ; Brain Stem ; Brain* ; Energy Intake ; Energy Metabolism* ; Homeostasis ; Hyperphagia ; Hypothalamus ; Ideal Body Weight ; Metabolism ; Neurons ; Obesity ; Pathology

Pathogenesis of diabetic cardiomyopathy (DCM) is a complicate and chronic process that is secondary to acute cardiac responses to diabetes. One of the acute responses is cardiac cell death that plays a critical role in the initiation and development of DCM. Besides hyperglycemia, inflammatory response in the diabetic heart is also a major cause for cardiac cell death. Diabetes or obesity often causes systemic and cardiac increases in tumor necrosis factor-alpha, interleukin-18 and plasminogen activator inhibitor-1. However, how these cytokines cause cardiac cell death remains unclear. It has been considered to relate to oxidative and/or nitrosative stress. We have demonstrated that metallothionein as a potent antioxidant or stress protein significantly protected the heart from oxidative damage and cell death caused by these cytokines, leading to effective prevention of DCM. The direct link of the inhibition of oxidative stress and damage to the prevention of cardiac cell death was defined by addition of superoxide or peroxynitrite specific inhibitor to completely prevent cytokine-induced cardiac cell death. Cardiac cell death is induced by the inflammatory cytokines that is increased in response to diabetes. Inflammatory cytokine-induced cardiac cell death is mediated by oxidative stress and is also the major initiator for DCM development.
Animals ; Cardiomyopathies ; etiology ; Cell Death ; Diabetes Mellitus ; metabolism ; pathology ; Humans ; Inflammation ; pathology ; physiopathology ; Interleukin-18 ; metabolism ; Metallothionein ; metabolism ; Myocardium ; pathology ; Obesity ; complications ; metabolism ; pathology ; Oxidative Stress ; Tumor Necrosis Factor-alpha ; metabolism

BACKGROUND/AIMS: Colorectal adenoma and cancer are known to be associated with obesity. Leptin, an adipocyte-derived hormone that plays a crucial role in obesity has been suggested as a growth factor in colon cancer. However, the association between adenoma and leptin remains controversial. We evaluated the leptin expression in human colorectal adenoma and its correlation to clinicopathologic factors. METHODS: Leptin expression was assessed by immunohistochemistry in 91 samples of colorectal adenoma larger than 5 mm, which were removed by endoscopic polypectomy. All patients underwent colonoscopy for cancer screening at Seoul Paik Hospital from 2007 to 2008 and we only included the patients less than 50 years of age. Leptin expression and its relationship with clinicopathologic features were analyzed. RESULTS: Eighty samples were available for the interpretation of leptin expression and showed positive in 42 (52.5%) cases and negative in 38 (47.5%) cases. As body mass index (BMI) increased based on World Health Organization (WHO) classification the positivity of leptin expression also increased (p(trend)=0.02). In leptin positive group, the correlation of leptin expression with adenoma size and histological showed positive tendency without statistical significance. CONCLUSIONS: Leptin expression of colorectal adenoma was associated with BMI. The question of whether leptin contributes to colorectal adenoma development is unresolved and will require additional studies.
Adenoma/complications/metabolism/*pathology ; Adult ; Body Mass Index ; Colonoscopy ; Colorectal Neoplasms/complications/metabolism/*pathology ; Female ; Humans ; Leptin/*metabolism ; Male ; Middle Aged ; Obesity/complications