David Julius, PhD

Professor & Chair
Department of Cellular and Molecular Pharmacology
+1 415 476-0431
Research Description: 

Our group is interested in understanding how sensory systems enable us to perceive our world. In one aspect of our research, we exploit the power of natural products to elucidate molecular mechanisms of touch and pain sensation. For example, we have asked how capsaicin, the main pungent ingredient in "hot" chili peppers, elicits burning pain, and how menthol, the cooling agent in mint leaves, evokes an icy cool sensation. Using these and other agents as pharmacological probes, we have identified ion channels on sensory nerve fibers that are activated by heat, cold, or chemical irritants, providing molecular insight into the process of thermosensation, pain, and itch. With the aid of genetic, electrophysiological, structural, and behavioral methods, we are asking how these ion channels are modulated in response to tumor growth, infection, or other forms of injury that produce inflammation and pain hypersensitivity. These basic scientific studies are helping to lay a foundation for the discovery and development of novel analgesic drugs.

Primary Thematic Area: 
Neurobiology
Secondary Thematic Area: 
None
Research Summary: 
Molecular Biology of Neurotransmitter Receptors and Ion Channels

Websites

Publications: 

Crypt and Villus Enterochromaffin Cells are Distinct Stress Sensors in the Gut.

bioRxiv : the preprint server for biology

Touhara KK, Rossen ND, Deng F, Chu T, Cil O, Li Y, Julius D

Allosteric regulation of TRPV1 by the inflammatory lipid LPA.

bioRxiv : the preprint server for biology

Arnold WR, Julius D, Cheng Y

Gut enterochromaffin cells drive visceral pain and anxiety.

Nature

Bayrer JR, Castro J, Venkataraman A, Touhara KK, Rossen ND, Morrie RD, Maddern J, Hendry A, Braverman KN, Garcia-Caraballo S, Schober G, Brizuela M, Castro Navarro FM, Bueno-Silva C, Ingraham HA, Brierley SM, Julius D