Small brain region plays a major role in the control of appetite; possible link to nicotine
HOUSTON – (Oct. 3, 2016) – A small group of brain cells moderates whether an individual is hungry or full. In mouse studies, when these cells are impaired, the animal eats constantly and becomes obese. On the other hand, when the cells enhance their activity, the mice eat little and lose weight. The study, published today in Nature by researchers from Baylor College of Medicine, Texas Children’s Hospital and the University of Texas Health Science Center in Houston, opens the possibility of developing drugs to help treat obesity, a major health problem around the world, as well as other eating disorders.
“How the brain controls appetite has been mostly focused on the hypothalamus,” said senior author Dr. Benjamin Arenkiel, an associate professor of molecular and human genetics and of neuroscience at Baylor. The hypothalamus is a brain region involved in a variety of bodily functions, such as temperature regulation, control of food and water intake, sexual behavior and reproduction and mediation of emotional responses.
“In addition, acetylcholine, a modulator of brain activity, has been proposed to play a role in appetite control, but this role had not been explored until now,” said Arenkiel, who is also a McNair Scholar at Baylor and an investigator at the Jan and Dan Duncan Neurological Research Institute at Texas Children’s.
Arenkiel and colleagues studied the basal forebrain, which has brain cells that produce acetylcholine. To determine whether acetylcholine helps control the appetite in mice, the researchers made genetic modifications that killed only the cells in the basal forebrain that produce acetylcholine.
“Without acetylcholine, the mice seem hungry all the time; they are insatiable,” said Arenkiel. “If you limit the amount of food, they will lose weight equally to the mice with acetylcholine in their basal forebrain.”
When the researchers increased the production of acetylcholine in the basal forebrain in normal mice, the animals seemed to have lost their appetite. “They won’t starve themselves; they will be almost anorexic. We think acetylcholine-producing cells in the basal forebrain are regulating the satiety cues in the brain.”
“Nicotine, known for attenuating the appetite, works like acetylcholine does. Both molecules bind to the same molecules or receptors on the surface of cells,” said Arenkiel. “The brain circuit that controls feeding also interfaces with nicotine and nicotine addiction. This suggests that it might be possible in the future to use currently available nicotine receptor agonists to treat obesity.” Nicotine receptor agonists are drugs that bind to nicotine receptors and mimic the action of acetylcholine.
“This study has allowed us to better understand the brain circuit that controls appetite,” said Arenkiel. “The hypothalamus receives clues from the senses; for instance, the smells and appetizing looks of homemade food. It also receives internal clues, such as the levels of blood sugar and insulin in the body. The hypothalamus processes all these information to regulate feeding. What we have found here is that acetylcholine can influence the hypothalamic circuit and regulate satiety.”
Other authors that contributed to this work include Alexander M. Herman, Joshua Ortiz-Guzmán, Mikhail Kochukov, Isabella Herman, Katie Quast, Jay M. Patel, Burak Tepe, Jeffrey C. Carlson, Kevin Ung, Jennifer Selever and Qingchun Tong.
This study received financial support from NIH grants 5F31NS089411, R01NS078294, and R01DK109934, the Klarman Family Foundation, the Klingenstein-Simons Fellowship Award, the Brain and Behavior Research Foundation, the Charif Souki Fund, and the McNair Medical Institute. The authors further acknowledge the BCM Diabetes and Endocrinology Research Center and the services of its Mouse Metabolism Core supported by NIH grant P30DK079638, and the BCM-IDDRC U54HD083092.
About Texas Children’s Hospital
Texas Children’s Hospital, a not-for-profit health care organization, is committed to creating a healthier future for children and women throughout the global community by leading in patient care, education and research. Consistently ranked as the best children’s hospital in Texas, and among the top in the nation, Texas Children’s has garnered widespread recognition for its expertise and breakthroughs in pediatric and women’s health. The hospital includes the Jan and Dan Duncan Neurological Research Institute; the Feigin Center for pediatric research; Texas Children’s Pavilion for Women, a comprehensive obstetrics/gynecology facility focusing on high-risk births; Texas Children’s Hospital West Campus, a community hospital in suburban West Houston; and Texas Children’s Hospital The Woodlands, a second community hospital planned to open in 2017. The organization also created the nation’s first HMO for children, has the largest pediatric primary care network in the country and a global health program that’s channeling care to children and women all over the world. Texas Children’s Hospital is affiliated with Baylor College of Medicine. For more information, go to www.texaschildrens.org. Get the latest news by visiting the online newsroom and Twitter at twitter.com/texaschildrens.