Health & Medicine
Melt Love Handles Away with the Push of a Button, Excess Weight Converts to Energy
Kathleen Lees
First Posted: Apr 23, 2013 12:31 PM EDT
Researchers at the University of Bonn have found that by using a "toggle switch," they can convert undersirable white fat cells into brown fat cells in mice.
Many people not only in industrialized nations struggle with excess weight - but all fat is not alike. "Love handles" in particular contain troublesome white fat cells which store excess food. Brown fat cells are the exact opposite: they burn excess energy as the desirable "heaters" of the body.
Scientists at the University of Bonn working with Prof. Dr. Alexander Pfeifer, Director of the Institute for Pharmacology and Toxicology, have spent years using animal models to explore how the undesirable white fat can be converted into sought-after brown fat. "In this way, excess pounds may be able to simply be melted away and obesity combated," Pfeifer said.
In the study, the researchers were able to decode a "microRNA switch" in mice that is incredibly important for brown fat cells. Micro-RNAs are located in the genome of cells and very quickly and efficiently regulate gene activity. The researchers studied a specific microRNA: microRNA 155. The gene regulator micro-RNA 155 inhibits a certain transcription factor, that controls brown fat cell function. Surprisingly, Prof. Pfeifer and his team found that the transcription factor also regulates the levels microRNA 155 establishing a tight feed-back loop that works like a toggle switch: When the microRNA is highly expressed brown fat cell differentiation is blocked; conversely, if the transcription factor wins the upper hand, brown fat is produced at an increased level and this in turn boosts fat burning in the body.
The researchers at Bonn University and their colleagues from the Federal Institute of Drugs and Medical Devices (BfArM) and from the University of Regensburg worked with so-called transgenic and knockout mice in whom the gene for micro-RNA 155 was either increased or silenced. "The mechanism was already set in motion when the micro-RNA 155 was only halved in the mice," said lead author Yong Chen, graduate student of the NRW International Graduate School BIOTECH-PHARMA.
Researchers saw that the mice had significantly more brown fat cells available then the control group did. This included many white cells that had been converted into brown cells, according to a press release.
The micro-RNA functions as an antagonist to the brown fat cells. "As long as enough micro-RNA 155 is present, the production of brown fat cells is blocked," says Chen. Only if it falls below a certain proportion does this brake let up; the blueprint for brown fat can be read and implemented by the cell - the desired fat burners can develop. These findings help scientists better understand the causes of lipid metabolism diseases.
The scientists at the University of Bonn see in their results a potential starting point for drugs to combat obesity. "However, we are still in the basic research stage," Pfeifer said.
The results are now being presented in the scientifc journal Nature Communications.
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First Posted: Apr 23, 2013 12:31 PM EDT
Researchers at the University of Bonn have found that by using a "toggle switch," they can convert undersirable white fat cells into brown fat cells in mice.
Many people not only in industrialized nations struggle with excess weight - but all fat is not alike. "Love handles" in particular contain troublesome white fat cells which store excess food. Brown fat cells are the exact opposite: they burn excess energy as the desirable "heaters" of the body.
Scientists at the University of Bonn working with Prof. Dr. Alexander Pfeifer, Director of the Institute for Pharmacology and Toxicology, have spent years using animal models to explore how the undesirable white fat can be converted into sought-after brown fat. "In this way, excess pounds may be able to simply be melted away and obesity combated," Pfeifer said.
In the study, the researchers were able to decode a "microRNA switch" in mice that is incredibly important for brown fat cells. Micro-RNAs are located in the genome of cells and very quickly and efficiently regulate gene activity. The researchers studied a specific microRNA: microRNA 155. The gene regulator micro-RNA 155 inhibits a certain transcription factor, that controls brown fat cell function. Surprisingly, Prof. Pfeifer and his team found that the transcription factor also regulates the levels microRNA 155 establishing a tight feed-back loop that works like a toggle switch: When the microRNA is highly expressed brown fat cell differentiation is blocked; conversely, if the transcription factor wins the upper hand, brown fat is produced at an increased level and this in turn boosts fat burning in the body.
The researchers at Bonn University and their colleagues from the Federal Institute of Drugs and Medical Devices (BfArM) and from the University of Regensburg worked with so-called transgenic and knockout mice in whom the gene for micro-RNA 155 was either increased or silenced. "The mechanism was already set in motion when the micro-RNA 155 was only halved in the mice," said lead author Yong Chen, graduate student of the NRW International Graduate School BIOTECH-PHARMA.
Researchers saw that the mice had significantly more brown fat cells available then the control group did. This included many white cells that had been converted into brown cells, according to a press release.
The micro-RNA functions as an antagonist to the brown fat cells. "As long as enough micro-RNA 155 is present, the production of brown fat cells is blocked," says Chen. Only if it falls below a certain proportion does this brake let up; the blueprint for brown fat can be read and implemented by the cell - the desired fat burners can develop. These findings help scientists better understand the causes of lipid metabolism diseases.
The scientists at the University of Bonn see in their results a potential starting point for drugs to combat obesity. "However, we are still in the basic research stage," Pfeifer said.
The results are now being presented in the scientifc journal Nature Communications.
See Now: NASA's Juno Spacecraft's Rendezvous With Jupiter's Mammoth Cyclone