Trent Watkins, PhD

Asst Professor in Residence
Neurology
+1 415 514-4168
Research Description: 

The Watkins Lab seeks to harness intrinsic repair programs to restore function to the damaged and diseased nervous system. Using axon injury as a primary model, the lab's research focuses on the signaling pathways and transcriptional responses that determine the fates of distressed neurons. These responses include programs that can, in the case of the peripheral nervous system (PNS), enable remarkable axon regeneration and recovery of function. In the central nervous system (CNS), however, these same programs typically fail to overcome barriers to regeneration and instead can become major drivers of neurodegeneration. Understanding and controlling these stress signaling pathways and transcriptional programs therefore may generate opportunities for both neuroprotection and improved repair.

The Watkins Lab relocated in 2023 from Baylor College of Medicine in Houston to the Division of Neuroimmunology and Glial Biology at UCSF. This move offers promising new opportunities for collaborative studies to understand the interplay among intrinsic neuronal stress responses, neuroinflammation, and myelin repair.

Secondary Thematic Area: 
None
Research Summary: 
The Watkins Lab studies axonal stress signaling to understand how transcriptional programs determine neuronal fate in injury and disease, from driving neurodegeneration to enabling axon regeneration
Publications: 

Chemogenetic neuronal silencing decouples c-Jun activation from cell death in the temporal cortex.

The European journal of neuroscience

Wood CA, Somasundaram P, Dundee JM, Rudy MA, Watkins TA, Jankowsky JL

Remyelination protects neurons from DLK-mediated neurodegeneration.

Nature communications

Duncan GJ, Ingram SD, Emberley K, Hill J, Cordano C, Abdelhak A, McCane M, Jenks JE, Jabassini N, Ananth K, Ferrara SJ, Stedelin B, Sivyer B, Aicher SA, Scanlan TS, Watkins TA, Mishra A, Nelson JW, Green AJ, Emery B

Coordinated stimulation of axon regenerative and neurodegenerative transcriptional programs by Atf4 following optic nerve injury.

bioRxiv : the preprint server for biology

Somasundaram P, Farley MM, Rudy MA, Stefanoff DG, Shah M, Goli P, Heo J, Wang S, Tran NM, Watkins TA

Remyelination protects neurons from DLK-mediated neurodegeneration.

bioRxiv : the preprint server for biology

Duncan GJ, Ingram SD, Emberley K, Hill J, Cordano C, Abdelhak A, McCane M, Jabassini N, Ananth K, Ferrara SJ, Stedelin B, Sivyer B, Aicher SA, Scanlan T, Watkins TA, Mishra A, Nelson J, Green AJ, Emery B