Saul A. Villeda
Affiliations: | University of California, San Francisco, San Francisco, CA |
Area:
neuroscience, aging, stem cell, cognition, neuroimmunologyGoogle:
"Saul Villeda"Mean distance: 15.31 (cluster 32) | S | N | B | C | P |
Parents
Sign in to add mentor| Patricia E. Phelps | research assistant | 2001-2004 | UCLA |
| Anne Brunet | grad student | 2005-2007 | Stanford |
| Tony Wyss-Coray | grad student | 2007-2012 | Stanford Medical School/Palo Alto VA |
Children
Sign in to add trainee| Manasi Iyer | research assistant | 2014-2016 | UCSF |
| Kai Lin (Karin) Lin | grad student | UCSF | |
| Joe Udeochu | grad student | UCSF | |
| Elizabeth Wheatley | grad student | UCSF | |
| Xuelai Shelly Fan | post-doc | 2015- | UCSF |
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Publications
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| Herber CS, Pratt KJB, Shea JM, et al. (2024) Spatial Coding Dysfunction and Network Instability in the Aging Medial Entorhinal Cortex. Biorxiv : the Preprint Server For Biology |
| Shea JM, Villeda SA. (2024) Microglia aging in the hippocampus advances through intermediate states that drive inflammatory activation and cognitive decline. Biorxiv : the Preprint Server For Biology |
| Stevenson ME, Bieri G, Kaletsky R, et al. (2023) Neuronal activation of G EGL-30/GNAQ late in life rejuvenates cognition across species. Cell Reports. 42: 113151 |
| Schroer AB, Ventura PB, Sucharov J, et al. (2023) Platelet factors attenuate inflammation and rescue cognition in ageing. Nature |
| Park C, Hahn O, Gupta S, et al. (2023) Platelet factors are induced by longevity factor klotho and enhance cognition in young and aging mice. Nature Aging |
| Leiter O, Brici D, Fletcher SJ, et al. (2023) Platelet-derived exerkine CXCL4/platelet factor 4 rejuvenates hippocampal neurogenesis and restores cognitive function in aged mice. Nature Communications. 14: 4375 |
| Braz JM, Hamel K, Craik V, et al. (2023) Pain and itch processing in aged mice. The Journal of Pain |
| Pratt KJB, Shea JM, Remesal-Gomez L, et al. (2023) Loss of neuronal Tet2 enhances hippocampal-dependent cognitive function. Cell Reports. 42: 111926 |
| Bieri G, Schroer AB, Villeda SA. (2023) Blood-to-brain communication in aging and rejuvenation. Nature Neuroscience |
| Pratt KJB, Shea JM, Remesal-Gomez L, et al. (2022) Loss of neuronal Tet2 enhances hippocampal-dependent cognitive function. Cell Reports. 41: 111612 |