darin
09-05-2007, 03:10 PM
THANK GOD for science!! There's hope! I was considering gastric bypass, but hopefully I won't have to go to such extremes!
DALLAS — Sept. 4, 2007 — Researchers at UT Southwestern Medical Center have found that a single gene might control whether or not individuals tend to pile on fat, a discovery that may point to new ways to fight obesity and diabetes.
“From worms to mammals, this gene controls fat formation,” said Dr. Jonathan Graff, associate professor of developmental biology and internal medicine at UT Southwestern and senior author of a study appearing in the Sept. 5 issue of Cell Metabolism. “It could explain why so many people struggle to lose weight and suggests an entirely new direction for developing medical treatments that address the current epidemic of diabetes and obesity.
“People who want to fit in their jeans might someday be able to overcome their genes.”
The gene, called adipose, was discovered in fat fruit flies more than 50 years ago by a graduate student at Yale University, but few people knew about it. Its mechanism was unknown, and whether it’s important in other genes was a mystery.
In the current study, the UT Southwestern researchers examined how adipose works by analyzing fruit flies, tiny worms called C. elegans, cultured cells, and genetically engineered mice, as well as by exploiting sophisticated molecular techniques. Using several methods, they manipulated adipose in the various animals, turning the gene on and off at different stages in the animals’ lives and in various parts of their bodies.
It was discovered that the gene, which is also present in humans, is likely to be a high-level master switch that tells the body whether to accumulate or burn fat.
In the mice, the researchers found that increasing adipose activity improved the animals’ health in many ways. Mice with experimentally increased adipose activityate as much or more than normal mice; however, they were leaner, had diabetes-resistant fat cells, and were better able to control insulin and blood-sugar metabolism.
In contrast, animals with reduced adipose activity were fatter, less healthy and had diabetes.
The researchers’ work on flies showed that the gene is “dose-sensitive” — that is, the various combinations of the gene’s variants lead to a range of body types from slim to medium to obese.
“This is good news for potential obesity treatments, because it’s like a volume control instead of a light switch; it can be turned up or down, not just on or off,” Dr. Graff said. “Eventually, of course, the idea is to develop drugs to target this system, but that’s in the years to come.”
More:
http://www8.utsouthwestern.edu/utsw/cda/dept353744/files/409858.html
DALLAS — Sept. 4, 2007 — Researchers at UT Southwestern Medical Center have found that a single gene might control whether or not individuals tend to pile on fat, a discovery that may point to new ways to fight obesity and diabetes.
“From worms to mammals, this gene controls fat formation,” said Dr. Jonathan Graff, associate professor of developmental biology and internal medicine at UT Southwestern and senior author of a study appearing in the Sept. 5 issue of Cell Metabolism. “It could explain why so many people struggle to lose weight and suggests an entirely new direction for developing medical treatments that address the current epidemic of diabetes and obesity.
“People who want to fit in their jeans might someday be able to overcome their genes.”
The gene, called adipose, was discovered in fat fruit flies more than 50 years ago by a graduate student at Yale University, but few people knew about it. Its mechanism was unknown, and whether it’s important in other genes was a mystery.
In the current study, the UT Southwestern researchers examined how adipose works by analyzing fruit flies, tiny worms called C. elegans, cultured cells, and genetically engineered mice, as well as by exploiting sophisticated molecular techniques. Using several methods, they manipulated adipose in the various animals, turning the gene on and off at different stages in the animals’ lives and in various parts of their bodies.
It was discovered that the gene, which is also present in humans, is likely to be a high-level master switch that tells the body whether to accumulate or burn fat.
In the mice, the researchers found that increasing adipose activity improved the animals’ health in many ways. Mice with experimentally increased adipose activityate as much or more than normal mice; however, they were leaner, had diabetes-resistant fat cells, and were better able to control insulin and blood-sugar metabolism.
In contrast, animals with reduced adipose activity were fatter, less healthy and had diabetes.
The researchers’ work on flies showed that the gene is “dose-sensitive” — that is, the various combinations of the gene’s variants lead to a range of body types from slim to medium to obese.
“This is good news for potential obesity treatments, because it’s like a volume control instead of a light switch; it can be turned up or down, not just on or off,” Dr. Graff said. “Eventually, of course, the idea is to develop drugs to target this system, but that’s in the years to come.”
More:
http://www8.utsouthwestern.edu/utsw/cda/dept353744/files/409858.html