Ben Barres
Academic Appointments
- Professor, Neurobiology
- Member, Bio-X
- Professor, Developmental Biology
- Professor, Neurology & Neurological Sciences
Key Documents
Contact Information
- Academic Offices
Personal Information Email Tel (650) 723-3231
Professional Overview
Administrative Appointments
- Chair, Stanford University School of Medicine - Neurobiology (2008 - present)
Postdoctoral Advisees
Christopher Bohlen, Won Suck Chung, Laura Clarke, Shane Liddelow, Jan Melom, Gabriela Suarez-Mier, Ye Zhang, John Zuchero
Industry Relationships
Stanford is committed to ethical and transparent interactions with our industrial and other commercial partners. It is our policy to disclose payments (exclusive of travel support) from, and/or equity in, companies or other commercial entities to Stanford faculty of $5,000 or more in total value, as well as any equity in a privately held company, when the faculty member also has institutional responsibilities related to his or her interactions with the company. View Full Information
Scientific Focus
Current Research Interests
THE MYSTERY AND MAGIC OF GLIA
We are interested in the development and function of glial cells in the mammalian central nervous system. To understand the interactions between neurons and glial cells we have developed methods to highly purify and culture retinal ganglion cells (neurons) as well as the glial cell types they interact with, oligodendrocytes and astrocytes, from the rodent optic nerve. We are using a large variety of methods to address these issues including cell purification by immunopanning, tissue culture, patch clamping, immunohistochemistry and molecular biology. Currently, we are focusing on several questions:
(1) What are the cell-cell interactions that control myelination and node of Ranvier formation?
(2) Do glial cells play a role in synapse formation and function?
(3) What are the signals that promote the survival and growth of retinal ganglion cells and can we use this knowledge to promote their survival and regeneration after injury?
(4) How do protoplasmic astrocytes, the main glial cell type in gray matter, develop and what is their function?.
We have found evidence of several novel glial signals that induce the onset of myelination, the clustering of axonal sodium channels, the survival and growth of retinal ganglion cells, and the formation of synapses. We are characterizing these processes and are attempting to identify these glial-derived molecules.
Publications
- Emerging roles of astrocytes in neural circuit development. Nat Rev Neurosci. 2013; (5): 311-21
- Expansion of oligodendrocyte progenitor cells following SIRT1 inactivation in the adult brain. Nat Cell Biol. 2013; (6): 614-24
- Generation of oligodendroglial cells by direct lineage conversion. Nat Biotechnol. 2013; (5): 434-9
- Glia as primary drivers of neuropathology in TDP-43 proteinopathies. Proc Natl Acad Sci U S A. 2013; (12): 4439-40
- A Nogo signal coordinates the perfect match between myelin and axons. Proc Natl Acad Sci U S A. 2012; (4): 1003-4
- A novel role for microglia in minimizing excitotoxicity. BMC Biol. 2012: 7
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