Brain’s On-Off Thirst Switch Identified

Findings could lead to new therapies for dehydration and excessive thirst. (Lab: Charlie Zuker)

(Originally published by Columbia University Medical Center)

January 23, 2015

Neurons that trigger our sense of thirst—and neurons that turn it off—have been identified by Columbia University Medical Center neuroscientists. The paper was published today in the online edition of Nature.

Findings could lead to new therapies for dehydration and excessive thirst. (Lab: Charlie Zuker)
Findings could lead to new therapies for dehydration and excessive thirst. (Lab: Charlie Zuker)

For years, researchers have suspected that thirst is regulated by neurons in the subfornical organ (SFO), in the hypothalamus. But it has been difficult to pinpoint exactly which neurons are involved. “When researchers used electrical current to stimulate different parts of the SFO of mice, they got confusing results,” said lead author Yuki Oka, PhD, a postdoctoral research scientist in the laboratory of Charles S. Zuker, PhD, professor of biochemistry and molecular biophysics and of neuroscience, a member of the Kavli Institute for Brain Science and the Mortimer B. Zuckerman Mind Brain Behavior Institute, and a Howard Hughes Medical Institute Investigator at CUMC.

The CUMC team hypothesized that there are at least two types of neurons in the SFO, including ones that drive thirst and others that suppress it. “Those electrostimulation experiments were probably activating both types of neurons at once, so they were bound to get conflicting results,” said Yuki Oka.

To test their hypothesis, Drs. Oka and Zuker turned to optogenetics, a more precise technique for controlling brain activity. With optogenetics, researchers can control specific sets of neurons in the brain after inserting light-activated molecules into them. Shining light onto these molecules turns on the neurons without affecting other types of neurons nearby.

These “mind-control” experiments revealed two types of neurons in the SFO that control thirst: CAMKII neurons, which turn thirst on, and VGAT neurons, which turn it off.

When the researchers turned on CAMK11 neurons, mice immediately began to seek water and to drink intensively. This behavior was as strong in well-hydrated mice as in dehydrated ones. Once the neurons were shut off—by turning off the light—the mice immediately stopped drinking.

The researchers also found that light-stimulation of the CAMKII neurons did not induce feeding behavior. In addition, light-induced thirst was specific for water and did not increase the animals’ consumption of other fluids, including glycerol and honey.

Similar experiments with VGAT neurons showed that these neurons act to turn off thirst. When the researchers turned on these neurons with light, dehydrated mice immediately stopped drinking, even if they were drinking water. “Together, these findings show that the SFO is a dedicated brain system for thirst,” said Dr. Oka.

“The SFO is one of few neurological structures that is not blocked by the blood-brain barrier—it’s completely exposed to the general circulation,” said Dr. Oka. “This raises the possibility that it may be possible to develop drugs for conditions related to thirst.


The article is titled, “Thirst Driving and Suppressing Signals Encoded by Distinct Neural Populations in the Brain.” The other contributor is Mingye Ye, also a postdoctoral fellow in Zuker’s lab at CUMC.

The authors declare no financial or other conflicts of interest.

The study was funded by the Howard Hughes Medical Institute and grants from the NIH (1R01NS076774, 1R01DA035025) to Professor Zuker. Dr. Oka recently moved to the California Institute of Technology as a newly appointed assistant professor.

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Neuroscience