Greenland
Unraveling the Biocircuitry of Obesity
Posted on by Dr. Francis Collins

Caption: Mouse neurons (purple), with their nuclei (blue) and primary cilia (green).
Credit: Yi Wang, Vaisse Lab, UCSF
Obesity involves the complex interplay of diet, lifestyle, genetics, and even the bacteria living in the gut. But there are other less-appreciated factors that are likely involved, and a new NIH-supported study suggests one that you probably never would have imagined: antenna-like sensory projections on brain cells.
The study in mice, published in the journal Nature Genetics [1], suggests these neuronal projections, called primary cilia, are a key part of a known “hunger circuit,” which receives signals from other parts of the body to control appetite. The researchers add important evidence in mouse studies showing that changes in the primary cilia can produce a short circuit, impairing the brain’s ability to regulate appetite and leading to overeating and obesity.
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Tags: ADCY3, Alström syndrome, appetite, Bardet-Biedl syndrome, brain, cell biology, childhood obesity, ciliopathies, eating, fat, food, Greenland, hunger circuit, hypothalmus, leptin, MC4R neurons, melanocortin 1 receptor gene, neurons, obesity, obesity genes, overweight, Pakistan, polydactyly, primary cilia, weight