The researchers placed normal rats on a lard-based diet, which stimulated the animals to voluntarily overeat and gain weight. When the researchers inhibited CPT1A by delivering special molecules called "ribozymes" into the brain of the rats, the animals ate dramatically less. The treatment also improved the blood sugar levels of these animals, who suffered from a common metabolic impairment known as insulin resistance, in which the body is unable to respond properly to insulin. The authors report that this animal model of diet-induced obesity and insulin resistance displayed defective adaptation to an increase in fat availability coupled with a severe impairment in the ability of the brain to sense fat intake. Further studies will be required to establish the critical role of this biochemical pathway in nutrient sensing in other animal models and, critically, in humans.
TITLE: Restoration of hypothalamic lipid sensing normalizes energy and glucose homeostasis in overfed rats
AUTHOR CONTACT:
Luciano Rossetti
Albert Einstein College of Medicine, New York, New York, USA
Phone: (718) 430-4118; Fax: (718) 430-8557; E-mail: rossetti@aecom.yu.edu
View the PDF of this article at: https://www.the-jci.org/article.php?id=26640
Journal
Journal of Clinical Investigation