Gene prompts cells to store fat, fueling obesity
Duke University Health & Medicine News Nov 19, 2017
Genetic variant is carried by millions of Americans.
Obesity is often attributed to a simple equation: People are eating too much and exercising too little. But evidence is growing that at least some of the weight gain that plagues modern humans is predetermined.
New research from the Research Triangle suggests that variants in a gene called ankyrin-BÂcarried by millions of AmericansÂcould cause people to put on pounds through no fault of their own.
The study, which was conducted in mice, shows that the gene variation causes fat cells to suck up glucose faster than normal, more than doubling their size. When an aging metabolism or high-fat diet is added to the equation, obesity becomes all but inevitable.
ÂWe call it fault-free obesity, said Vann Bennett, MD, PhD, senior author of the study and George Barth Geller Professor of Biochemistry at Duke University School of Medicine.
ÂWe believe this gene might have helped our ancestors store energy in times of famine. In current times, where food is plentiful, ankyrin-B variants could be fueling the obesity epidemic.Â
The results appeared the week of November 13 in the Proceedings of the National Academy of Sciences journal.
Bennett discovered the protein ankyrin-B more than thirty years ago. It is present in every bodily tissue and acts like an anchor by tethering important proteins to the inside of the cellÂs membrane. Bennett and other researchers have linked defects in ankyrin-B to a number of human diseases, including autism, muscular dystrophy, aging, diabetes and irregular heartbeat.
Several years ago, Jane Healey, an MD/PhD student working in the Bennett laboratory, noticed that mice with cardiac arrhythmia caused by mutations in ankyrin-B were fatter than their wildtype litter mates. To figure out why, she created mouse models that carried a couple of common human variants of the gene.
Damaris Lorenzo, PhD, a postdoctoral fellow in the lab at the time, found that these mice quickly grew fat, locking away most of their calories in fat tissue rather than sending them to other tissues to burn as energy. These findings were published in 2015 in the Journal of Clinical Investigation.
ÂThe problem is, we still didnÂt know how this gene worked," said Bennett. ÂThere is this common belief in the field that much of obesity can be traced back to appetite and the appetite control centers that reside in the brain. But what if it isnÂt all in our head?Â
To study that question, Lorenzo, now an assistant professor of cell biology and physiology at the University of North Carolina at Chapel Hill, had her research group completely knock out the ankyrin-B gene in the fat tissue of mice.
They repeated many of the same experiments that had been conducted in the previous mouse models, which carried mutant versions of ankyrin-B throughout their bodies. Like before, the knock-out mice gained weight, and their energy-storing white fat cells doubled in sizeÂdespite eating and exercising the same amount as normal mice. WhatÂs more, the weight gain increased as the mice aged or were fed a high-fat diet.
ÂWe quickly learned that the increased accumulation of lipids in fat cells Âspilled over to the liver and muscles, Lorenzo said. ÂThe abnormal accumulation of fat in these tissues led to inflammation and disruption of response to insulin, a hallmark of type II diabetes. A similar cascade of events is what often takes place in humans, and that is why obesity can be so detrimental to our health, Lorenzo said.
After conducting a number of biochemistry experiments, Lorenzo showed that eliminating or mutating ankyrin-B changed the dynamics of GLUT4, the protein that allows glucose to enter fat cells. As a result, the flood gates were effectively opened, allowing glucose to flow into the cells more quickly than normal.
Lorenzo wondered if the same mechanism held true f
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Obesity is often attributed to a simple equation: People are eating too much and exercising too little. But evidence is growing that at least some of the weight gain that plagues modern humans is predetermined.
New research from the Research Triangle suggests that variants in a gene called ankyrin-BÂcarried by millions of AmericansÂcould cause people to put on pounds through no fault of their own.
The study, which was conducted in mice, shows that the gene variation causes fat cells to suck up glucose faster than normal, more than doubling their size. When an aging metabolism or high-fat diet is added to the equation, obesity becomes all but inevitable.
ÂWe call it fault-free obesity, said Vann Bennett, MD, PhD, senior author of the study and George Barth Geller Professor of Biochemistry at Duke University School of Medicine.
ÂWe believe this gene might have helped our ancestors store energy in times of famine. In current times, where food is plentiful, ankyrin-B variants could be fueling the obesity epidemic.Â
The results appeared the week of November 13 in the Proceedings of the National Academy of Sciences journal.
Bennett discovered the protein ankyrin-B more than thirty years ago. It is present in every bodily tissue and acts like an anchor by tethering important proteins to the inside of the cellÂs membrane. Bennett and other researchers have linked defects in ankyrin-B to a number of human diseases, including autism, muscular dystrophy, aging, diabetes and irregular heartbeat.
Several years ago, Jane Healey, an MD/PhD student working in the Bennett laboratory, noticed that mice with cardiac arrhythmia caused by mutations in ankyrin-B were fatter than their wildtype litter mates. To figure out why, she created mouse models that carried a couple of common human variants of the gene.
Damaris Lorenzo, PhD, a postdoctoral fellow in the lab at the time, found that these mice quickly grew fat, locking away most of their calories in fat tissue rather than sending them to other tissues to burn as energy. These findings were published in 2015 in the Journal of Clinical Investigation.
ÂThe problem is, we still didnÂt know how this gene worked," said Bennett. ÂThere is this common belief in the field that much of obesity can be traced back to appetite and the appetite control centers that reside in the brain. But what if it isnÂt all in our head?Â
To study that question, Lorenzo, now an assistant professor of cell biology and physiology at the University of North Carolina at Chapel Hill, had her research group completely knock out the ankyrin-B gene in the fat tissue of mice.
They repeated many of the same experiments that had been conducted in the previous mouse models, which carried mutant versions of ankyrin-B throughout their bodies. Like before, the knock-out mice gained weight, and their energy-storing white fat cells doubled in sizeÂdespite eating and exercising the same amount as normal mice. WhatÂs more, the weight gain increased as the mice aged or were fed a high-fat diet.
ÂWe quickly learned that the increased accumulation of lipids in fat cells Âspilled over to the liver and muscles, Lorenzo said. ÂThe abnormal accumulation of fat in these tissues led to inflammation and disruption of response to insulin, a hallmark of type II diabetes. A similar cascade of events is what often takes place in humans, and that is why obesity can be so detrimental to our health, Lorenzo said.
After conducting a number of biochemistry experiments, Lorenzo showed that eliminating or mutating ankyrin-B changed the dynamics of GLUT4, the protein that allows glucose to enter fat cells. As a result, the flood gates were effectively opened, allowing glucose to flow into the cells more quickly than normal.
Lorenzo wondered if the same mechanism held true f
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