Amyotrophic Lateral Sclerosis (Lou Gehrig's Disease) Archives - Sanford Burnham Prebys

Dr. Anne Bang is an experienced cell biologist and stem cell expert who leads efforts at the Prebys Center to develop patient cell specific and human induced pluripotent stem cell (hiPSC)-based disease models for drug screening and target identification. Dr. Bang has over 20 years of experience in the fields of developmental and stem cell biology. She obtained a BS degree from Stanford University, a PhD in Biological Sciences from the University of California, San Diego, and did postdoctoral training in the Neurobiology Laboratory at the Salk Institute for Biological Sciences where her studies focused on nervous system development. 

Anne’s experience in stem cell biology began in 2005 when she joined ViaCyte, Inc. where she served as Director of Stem Cell Research and managed an interdisciplinary group working to develop human embryonic stem cells as a replenishable source of pancreatic cells for the treatment of diabetes. Her efforts focused on optimization of the differentiation process, and then on advancing the cell therapy product into development, scaled manufacturing, product characterization, and safety assessment. Anne is a co-inventor on multiple ViaCyte patents, and her team’s contributions played a key role in securing a $20 MM California Institute of Regenerative Medicine (CIRM) Award. 

In June of 2010, Sanford Burnham Prebys recruited Anne as Director of Cell Biology to lead efforts in stem cell-based disease modeling at the Conrad Prebys Center for Chemical Genomics. Her role includes leading internal research projects, as well as external collaborations with academic and industry partners.  Anne’s research program is primarily focused on neurological and neuromuscular disease, with the aim of designing human cell-based models and assays that recapitulate disease phenotypes, yet have the throughput and reproducibility required for drug discovery. Towards this goal her group has worked to develop a suite of foundational high throughput assays to monitor neuronal morphology, mitochondrial function, and electrophysiology, using high content screening, and multi-electrode array formats. They have conducted high-throughput drug screens on muscular dystrophy patient cells, hiPSC-derived cardiomyocytes, and hiPSC-derived neurons, including from Alzheimer’s patient specific hiPSC. Anne is a principal investigator for the National Institute of Mental Health (NIMH) National Cooperative Reprogrammed Cell Research Groups consortium and has also received research support from rare disease foundations and pharma sponsored collaborations. She also serves on advisory boards for multiple biotechnology companies.

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Dr. Yu Xin (Will) Wang received his PhD at the University of Ottawa where he identified cellular asymmetry and polarity mechanisms regulating muscle stem cell self-renewal and skeletal muscle regeneration. He then carried out postdoctoral training at Stanford University School of Medicine developing single cell multi-omic approaches to characterize the regenerative process and what goes awry with disease and aging.  

“I’ve always had a passion for science and became fascinated with how the body repairs and heals itself when I was introduced to the potential of stem cells in regenerative medicine. I was struck by the ability of a small pool of muscle stem cells that can rebuild and restore the function of muscle. My lab at Sanford Burnham Prebys aims to better understanding the repair process and harness our body’s ability to heal in order to combat chronic diseases and even counteract aging.”

Education and Training

Postdoctoral Fellowship, Stanford University School of Medicine
PhD in Cellular Molecular Medicine, University of Ottawa, Canada
BS in Biomedical Sciences, University of Ottawa, Canada

Prestigious Funding Awards

2020: NINDS K99/R00 Pathway to Independence Award

Honors and Recognition

Governor General’s Gold Medal – Canada

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Evan Y. Snyder earned his MD and PhD (in neuroscience) from the University of Pennsylvania in 1980 as a member of NIH’s Medical Scientist Training Program (MSTP). He had also studied psychology and linguistics at the University of Oxford. After moving to Boston in 1980, he completed residencies in pediatrics and neurology as well as a clinical fellowship in Neonatal-Perinatal Medicine at Children’s Hospital-Boston, Harvard Medical School. He also served as Chief Resident in Medicine (1984-1985) and Chief Resident in Neurology (1987) at Children’s Hospital-Boston. In 1989, he became an attending physician in the Department of Pediatrics (Division of Newborn Medicine) and Department of Neurology at Children’s Hospital-Boston, Harvard Medical School. From 1985-1991, concurrent with his clinical activities, he conducted postdoctoral research as a fellow in the Department of Genetics, Harvard Medical School. In 1992, Dr. Snyder was appointed an instructor in neurology (neonatology) at Harvard Medical School and was promoted to assistant professor in 1996. He maintained lab spaces in both Children’s Hospital-Boston and at Harvard Institutes of Medicine/Beth-Israel Deaconess Medical Center. In 2003, Dr. Snyder was recruited to Sanford Burnham Prebys as Professor and Director of the Program in Stem Cell and Regenerative Biology. He then inaugurated the Stem Cell Research Center (serving as its founding director) and initiated the Southern California Stem Cell Consortium. Dr. Snyder is a Fellow of the American Academy of Pediatrics (FAAP). He also received training in Philosophy and Linguistics at Oxford University.

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Probing the lithium-response pathway in hiPSCs implicates the phosphoregulatory set-point for a cytoskeletal modulator in bipolar pathogenesis.

Tobe BTD, Crain AM, Winquist AM, Calabrese B, Makihara H, Zhao WN, Lalonde J, Nakamura H, Konopaske G, Sidor M, Pernia CD, Yamashita N, Wada M, Inoue Y, Nakamura F, Sheridan SD, Logan RW, Brandel M, Wu D, Hunsberger J, Dorsett L, Duerr C, Basa RCB, McCarthy MJ, Udeshi ND, Mertins P, Carr SA, Rouleau GA, Mastrangelo L, Li J, Gutierrez GJ, Brill LM, Venizelos N, Chen G, Nye JS, Manji H, Price JH, McClung CA, Akiskal HS, Alda M, Chuang DM, Coyle JT, Liu Y, Teng YD, Ohshima T, Mikoshiba K, Sidman RL, Halpain S, Haggarty SJ, Goshima Y, Snyder EY

Proc Natl Acad Sci U S A 2017 May 30 ;114(22):E4462-E4471

Nicholas Cosford, PhD has served on the Sanford Burnham Prebys Board of Trustees since 2023. He is the first faculty member to do so.

Cosford joined the Sanford Burnham Prebys faculty in 2008 as an associate professor. In 2013, he became a full professor. His lab investigates the interactions of small molecule compounds with therapeutically important proteins and cellular signaling pathways. With a specific focus on the discovery and optimization of compounds that might treat cancer, central nervous system diseases and infectious diseases.

Prior to joining Sanford Burnham Prebys in 2005, Cosford worked in both the biotechnology and pharmaceutical industries.  At Sibia Neurosciences and at Merck Research Laboratories, he directed multidisciplinary research teams focused on small-molecule hit-to-lead optimization and was responsible for moving several lead compounds through to the clinical phase, including a nicotinic agonist (Altinicline) from research to Phase II clinical trials for treating Parkinson’s disease.

He is an author of more than 90 peer-reviewed, published scientific papers, and has been issued more than 40 issued patents, with an additional 40 patent applications pending.

Cosford has a Bachelor of Science degree in chemistry from the University of Bath in England and Doctor of Philosophy degree in organic chemistry from Emory University in Atlanta, GA.  

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