 |
|
Ben-Gurion U. researchers identify how stressed fat tissue malfunctions
July 15, 2009Ben-Gurion University of the Negev (BGU) researchers, in a collaboration with colleagues from the University of Leipzig, Germany, have identified a signaling pathway that is operational in intra-abdominal fat, the fat depot that is most strongly tied to obesity-related morbidity.
The paper was just published in the Endocrine Society's the Journal of Clinical Endocrinology and Metabolism ( J. Clin. Endocrinol. Metab. 2009; 94:2507-251)
"Fat tissue in obesity is dysfunctional, yet, the processes that cause fat tissue to malfunction are poorly understood -- specifically, it is unknown how fat cells 'translate' stresses in obesity into dysfunction," said Dr. Assaf Rudich, senior lecturer from the Department of Clinical Biochemistry at Ben-Gurion University.
Fat tissue is no longer considered simply a storage place for excess calories, but in fact is an active tissue that secretes multiple compounds, thereby communicating with other tissues, including the liver, muscles, pancreas and the brain. Normal communication is necessary for optimal metabolism and weight regulation. However, in obesity, fat (adipose) tissue becomes dysfunctional, and mis-communicates with the other tissues. This places fat tissue at a central junction in mechanisms leading to common diseases attributed to obesity, like type 2 diabetes and cardiovascular diseases.
Fat tissue dysfunction is believed to be caused by obesity-induced fat tissue stress: Cells over-grow as they store increasing amounts of fat. This excessive cell growth may cause decreased oxygen delivery into the tissue; individual cells may die (at least in mouse models), and fat tissue inflammation ensues. Also, excess nutrients (glucose, fatty acids) can also result in increased metabolic demands, and this in itself can cause cellular stress.
The BGU and Leipzig teams established a setup for collecting fat tissue samples from people undergoing abdominal surgery. The team identified a signaling pathway that is operational in intra-abdominal fat, the fat depot that is most strongly tied to obesity-related morbidity.
The degree of activation of a signaling pathway from these individuals was compared with those of leaner people, those with obesity predominantly characterized by accumulation of "peripheral" fat, and those with obesity with predominant accumulation of fat within the abdominal cavity.
They discovered that the signaling pathway was more active depending on the amount of fat accumulation in the abdomen, and that it correlated with multiple biochemical markers for increased cardio-metabolic risk. Moreover, the expression of one of the upstream signaling components, a protein called ASK1, predicts whole-body insulin resistance (an endocrine abnormality that is strongly tied to diabetes and cardiovascular disease), independent of other traditional risk factors.
Researchers also demonstrated that although non-fat cells within adipose tissue express most of this protein in lean persons, the adipocytes themselves increase its expression by more than four-fold in abdominally-obese persons.
"The importance of this study is not only in contributing to the understanding of adipose tissue dysfunction in obesity, but as a consequence, may provide important leads for novel ways to prevent the dangerous consequences, such as type 2 diabetes, of intra-abdominal fat accumulation," states Dr. Iris Shai, a BGU researcher at the S. Daniel Abraham International Center for Health and Nutrition and Soroka University Medical Center in Beer-Sheva, Israel.
American Associates, Ben-Gurion University of the Negev
Fat tissue is no longer considered simply a storage place for excess calories, but in fact is an active tissue that secretes multiple compounds, thereby communicating with other tissues, including the liver, muscles, pancreas and the brain. Normal communication is necessary for optimal metabolism and weight regulation. However, in obesity, fat (adipose) tissue becomes dysfunctional, and mis-communicates with the other tissues. This places fat tissue at a central junction in mechanisms leading to common diseases attributed to obesity, like type 2 diabetes and cardiovascular diseases.
Fat tissue dysfunction is believed to be caused by obesity-induced fat tissue stress: Cells over-grow as they store increasing amounts of fat. This excessive cell growth may cause decreased oxygen delivery into the tissue; individual cells may die (at least in mouse models), and fat tissue inflammation ensues. Also, excess nutrients (glucose, fatty acids) can also result in increased metabolic demands, and this in itself can cause cellular stress.
The BGU and Leipzig teams established a setup for collecting fat tissue samples from people undergoing abdominal surgery. The team identified a signaling pathway that is operational in intra-abdominal fat, the fat depot that is most strongly tied to obesity-related morbidity.
The degree of activation of a signaling pathway from these individuals was compared with those of leaner people, those with obesity predominantly characterized by accumulation of "peripheral" fat, and those with obesity with predominant accumulation of fat within the abdominal cavity.
They discovered that the signaling pathway was more active depending on the amount of fat accumulation in the abdomen, and that it correlated with multiple biochemical markers for increased cardio-metabolic risk. Moreover, the expression of one of the upstream signaling components, a protein called ASK1, predicts whole-body insulin resistance (an endocrine abnormality that is strongly tied to diabetes and cardiovascular disease), independent of other traditional risk factors.
Researchers also demonstrated that although non-fat cells within adipose tissue express most of this protein in lean persons, the adipocytes themselves increase its expression by more than four-fold in abdominally-obese persons.
"The importance of this study is not only in contributing to the understanding of adipose tissue dysfunction in obesity, but as a consequence, may provide important leads for novel ways to prevent the dangerous consequences, such as type 2 diabetes, of intra-abdominal fat accumulation," states Dr. Iris Shai, a BGU researcher at the S. Daniel Abraham International Center for Health and Nutrition and Soroka University Medical Center in Beer-Sheva, Israel.
American Associates, Ben-Gurion University of the Negev
Fat Tissue Current Events and Fat Tissue News RSSUM Scientists Create Fruit Fly Model to Help Unravel Genetics of Human Diabetes
As rates of obesity, diabetes, and related disorders have reached epidemic proportions in the US in recent years, scientists are working from many angles to pinpoint the causes and contributing factors involved in this public health crisis.
Phytochemicals in plant-based foods could help battle obesity, disease
The cheeseburger and French fries might look tempting, but eating a serving of broccoli or leafy greens first could help people battle metabolic processes that lead to obesity and heart disease, a new University of Florida study shows.
Inner Workings of Molecular Thermostat Point to Pathways to Fight Diabetes, Obesity, According to Penn Study
Best known as the oxygen-carrying component of hemoglobin, the protein that makes blood red, heme also plays a role in chemical detoxification and energy metabolism within the cell. Heme levels are tightly maintained, and with good reason: Too little heme prevents cell growth and division; excessive amounts of heme are toxic.
Exercise Minimizes Weight Regain By Reducing Appetite, Burning Fat, And Lowering 'Defended' Body Weight
Exercise helps prevent weight regain after dieting by reducing appetite and by burning fat before burning carbohydrates.
UCF discovery could open door to obesity, diabetes treatments
At a time of alarming increases in obesity and associated diseases -- and fiery debates about the cost of health care -- a UCF research team has identified a new genetic mechanism that controls the body's fat-building process.
Scarring key to link between obesity and diabetes
The team, in collaboration with University Hospital Aintree, the University of Warwick and researchers in Sweden, found that people classified as obese and those with pre-diabetes have raised levels of a protein called SPARC, that can cause tissue scarring.
Study: being active as a preschooler pays off later in childhood
Being active at age 5 helps kids stay lean as they age even if they don't remain as active later in childhood, a new University of Iowa study shows.
Common allergy drug reduces obesity and diabetes in mice
Crack open the latest medical textbook to the chapter on type 2, or adult-onset, diabetes, and you'll be hard pressed to find the term "immunology" anywhere.
Study explains potential failure of oral contraceptives with obese women
Researchers have identified a potential biological mechanism that could explain why oral contraceptives may be less effective at preventing pregnancy in obese women, as some epidemiological studies have indicated.
Link between obesity and diabetes discovered
A Monash University study has proven a critical link between obesity and the onset of Type 2 diabetes, a discovery which could lead to the design of a drug to prevent the disease.
More Fat Tissue Current Events and Fat Tissue News Articles
|
Adult fat tissue for cell therapy.(Letter to the Editor): An article from: Medical Update by Keith L. March (Author) This digital document is an article from Medical Update, published by Benjamin Franklin Literary & Medical Society, Inc. on September 1, 2004. The length of the article is 554 words. The page length shown above is based on a typical 300-word page. The article is delivered in HTML format and is available in your Amazon.com Digital Locker immediately after purchase. You can view it with any web browser. Citation Details Title: Adult fat tissue for cell therapy.(Letter to the Editor) Author: Keith L. March Publication: Medical Update (Newsletter) Date: September 1, 2004 Publisher: Benjamin Franklin Literary & Medical Society, Inc. Volume: 30 Issue: 3 Page: 6(1) Article Type: Letter to the Editor Distributed by Thomson... | |
 |
Trielements Reessence? Cellulite Support, 60 Capsules, 2.2 Bottle by Trielements ReEssence powerfully combats cellulite in these 4 areas: Fat - Supports healthy metabolism & the conversion of fat into energy. Connective Tissue - Promotes re-growth of healthy, supple connective tissue. Circulation - Helps tone and strengthen blood vessels and increase microcirculation. Waste/Toxins - Supports & strengthens the body’s natural waste removal and detoxification systems. |
 |
Alex My Tissue Art by Panline USA It's so easy for little hands to start making art! Simply peel the picture one section at a time, crunch up the colorful tissue paper squares, and stick them down. Each kit comes with six self-stick patterns, 500 tissue paper squares in a rainbow of colors, and four giant wiggly eyes. |
![Accumulation profiles of persistent organochlorines in liver and fat tissues of various waterbird species from Greece [An article from: Chemosphere]](http://ecx.images-amazon.com/images/I/51M6G4MFGFL._SL160_.jpg) |
Accumulation profiles of persistent organochlorines in liver and fat tissues of various waterbird species from Greece [An article from: Chemosphere] by T.M. Sakellarides (Author), I.K. Konstantinou (Author), D.G. Hela (Author), L (Author) This digital document is a journal article from Chemosphere, published by Elsevier in 2006. The article is delivered in HTML format and is available in your Amazon.com Media Library immediately after purchase. You can view it with any web browser. Description: Waterbirds are particularly subject to accumulation of persistent organic pollutants (POPs) that have been shown to constitute a major hazard for this group of birds. Liver and fat tissue from ten species belonging to the orders Ciconiformes (Ardeidae, Ciconiidae, Phoenicopteridae) and Pelicaniformes (Pelecanidae, Phalacrocoracidae) were used as bioindicators in order to assess environmental pollution by POPs (HCHs, DDTs, cyclodienes, PCBs) in Greek wetlands. To our knowledge, this is the first study on POPs in livers of... |
|
Fat as a Tissue b | |
|
Transplantation of Tissues Cartilage, Bone, Fascia, Tendon, & Muscle Volume 1 & Transplantation of Tissues : Skin, Cornea, Fat, Nerves, Teeth, Blood Vessels, Endocrine Glands, Organs, Peritoneum, Cancer Cells Volume II (TRANSPLANTATION OF TISSUES, volume 1 & 2) by Lyndon A. Peer (Author) Two Volume set by Lyndon A. Peer on the Transplantation of Tissues. Green Boards. | |
|
Brown Adipose Tissue by Paul Trayhurn (Author), David G. Nicholls (Editor) | |
 |
NOW FOODS SUPER ENZYME CAPS 180 CAPS by NOW Foods NOW Super Enzyme Capsules are a comprehensive blend of enzymes that support healthy digestive functions. Bromelain, Ox Bile, Pancreatin and PaDiscomfort have been formulated to optimize the breakdown of fats, carbohydrates and protein for maximum assimilation. |
 |
Trielements Reessence¿ Cellulite Support, 120 Capsules, 4.2 Bottle by Trielements ReEssence powerfully combats cellulite in these 4 areas: Fat - Supports healthy metabolism & the conversion of fat into energy. Connective Tissue - Promotes re-growth of healthy, supple connective tissue. Circulation - Helps tone and strengthen blood vessels and increase microcirculation. Waste/Toxins - Supports & strengthens the body’s natural waste removal and detoxification systems. |
|
Adipose tissue may function as part of endocrine system: adipokines relay information.(News): An article from: Family Practice News by Jane Salodof MacNeil (Author) This digital document is an article from Family Practice News, published by International Medical News Group on July 1, 2004. The length of the article is 642 words. The page length shown above is based on a typical 300-word page. The article is delivered in HTML format and is available in your Amazon.com Digital Locker immediately after purchase. You can view it with any web browser. Citation Details Title: Adipose tissue may function as part of endocrine system: adipokines relay information.(News) Author: Jane Salodof MacNeil Publication: Family Practice News (Magazine/Journal) Date: July 1, 2004 Publisher: International Medical News Group Volume: 34 Issue: 13 Page: 4(1) Distributed by Thomson... |
| © 2009 BrightSurf.com |