Body’s good fat tissue communicates with brain through sensory nerves, researchers find
News Mar 27, 2015
Brown fat tissue, the body's "good fat," communicates with the brain through sensory nerves, possibly sharing information that is important for fighting human obesity, such as how much fat we have and how much fat we've lost, according to researchers at Georgia State University.
The findings, published in the Journal of Neuroscience, help to describe the conversation that takes place between the brain and brown fat tissue while brown fat is generating heat.
Brown fat is considered "good fat" or "healthy fat" because it burns calories to help generate heat for our bodies and expend energy, while white fat stores energy for later and can increase the risk for health issues, such as diabetes and heart disease. A person with a healthy metabolism has less white fat and an active supply of brown fat.
Studies show that brown fat plays a big role in someone having the capability to burn more energy, becoming a tool to stay trim and fight obesity. Pharmaceutical companies are trying to target brown fat and activate it more, said Johnny Garretson, study author and doctoral student in the Neuroscience Institute and Center for Obesity Reversal at Georgia State.
The study found that when brown fat tissue was activated with a drug that mimics the sympathetic nervous system messages that normally come from the brain, the fat talked back to the brain by activating sensory nerves. The sensory nerves from brown fat increased their activity in response to direct chemical activation and heat generation.
"This is the first time that the function of sensory nerves from brown fat has been examined," Garretson said. "Brown fat is an active organ that's relatively important for metabolism, and we found a new pathway of its communication.
"The study informs us more about the communication between fat and the brain, which is really beneficial for treating human obesity. There is evidence that people with more brown fat have a better metabolism, lower instances of type II diabetes and are trimmer. Knowing how to increase the amount of brown fat activity or increase the brown fat, that's the future of trying to figure out yet another way to try and lose weight effectively and quickly."
The researchers speculate that brown fat is telling the brain many things, such as how much heat is being generated, how much and what types of free energy are being used or stored, how much fat we have and how much fat we've lost.
"As brown fat gets hotter and starts to generate heat, being active and doing good things for our body, it increases our metabolism and helps us burn white fat," Garretson said. "As it's getting hotter, Dr. (Vitaly) Ryu and other members of our lab found that it tells the brain it's getting hotter. We think this is some type of feedback, like a thermostat, and as it gets hotter, it probably controls how the brain is talking back to it."
It was already known the brain communicates with fat tissue by telling it to break down and either release or use free energy for our bodies to function. This study shows a feedback loop between brown fat tissue and the brain.
The research team has studied the communication from fat to the brain and the brain to fat for years, but they're one of only a few labs in the world to examine communication from fat to the brain through the nervous system, Garretson said.
Note: Material may have been edited for length and content. For further information, please contact the cited source.
J.T. Garretson, B.J.W. Teubner, K.L. Grove, A. Vazdarjanova, V. Ryu, T.J. Bartness. Peroxisome Proliferator-Activated Receptor Controls Ingestive Behavior, Agouti-Related Protein, and Neuropeptide Y mRNA in the Arcuate Hypothalamus. Journal of Neuroscience, Published March 18 2015. doi: 10.1523/JNEUROSCI.2129-14.2015
Researchers Democratize Neuroscience by Making it Easier to Share Brain Imaging DataNews
Researchers have developed a set of tools to make one critical area of big data research — that of our central nervous system — easier to share.READ MORE
Neuroscientists Identify The Retrosplenial Cortex as an Integrator of Vision and Head MovementNews
Study highlights role of primary visual cortex in integrating head and visual movement signalsREAD MORE
So Hot it Hurts: Ion channel trio underlying painful heat sensation foundNews
Researchers show that acute noxious heat sensing in mice depends on a triad of transient receptor potential (TRP) ion channels: TRPM3, TRPV1, and TRPA1.READ MORE