In vivo Modeling 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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Related Disease
Cardiomyopathies, Cardiovascular Diseases

Anatomical Systems and Sites
Cardiovascular System, General Cell Biology, Heart

Research Models
Computational Modeling, Drosophila, Human

Techniques and Technologies
Bioinformatics, Cell Biology, Confocal Microscopy, Fluorescence Microscopy, Genetics, In vivo Modeling, Live Cell Imaging, Live Imaging, Microscopy and Imaging, Molecular Biology, RNA Interference (RNAi), Systems Biology, Transgenic Organisms

Xueqin (Sherine) Sun seeks to better understand the genetic and epigenetic underpinnings of cancers, using genome editing technologies, animal and patient-derived models, and other tools to develop more effective cancer therapies.

“My lab is interested in studying how DNA or the machinery that interprets it leads to the transformation of normal cells into cancerous cells and concurrently, their specific vulnerabilities. Identifying these intrinsic vulnerabilities and targeting them properly is profoundly important to developing effective cancer therapies.”

Another aspect of Sun’s work is understanding how cancer cells and tumors change their circumstances and environment to improve survival, including hiding from or repressing the immune system.

“Changes to DNA itself and the way how DNA is interpreted by cells can transform normal cells into cancer cells. And transformed cells propagate by enhancing the misinterpreted DNA information, which in turn becomes the Achilles’ heel of cancer cells. Our goal is to find out how DNA information is misinterpreted in different ways and how to correct it to halt cancer.”

At Sanford Burnham Prebys, Sun and colleagues will employ a host of leading-edge tools and approaches, including functional genomics, artificial intelligence, structural biology, large-scale drug screening, and advanced imaging/spatial technologies.

Sun conducted her postdoctoral fellowship at Cold Spring Harbor Laboratory under the guidance of Alea Mills, PhD, a professor at the National Cancer Institute-designated cancer center at Cold Spring Harbor.

She received her PhD from Wuhan University in China.

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Charles Spruck earned his BS in Biology at UCLA and PhD in Molecular Biology at the University of Southern California. He worked as a postdoctoral fellow at The Scripps Research Institute in La Jolla and was recruited to the Sidney Kimmel Cancer Center in San Diego as an Assistant Professor in 2003. He joined Sanford Burnham Prebys in 2010.

Education and Training

2003: Post-doc, The Scripps Research Institute
1986: PhD, University of Southern California
1995; BS, University of California at Los Angeles

Prestigious Funding Awards / Major Collaborative Grants

NIH/NCI DoD BCRP CBCRP TRDRP

Honors and Recognition

ACS Scholar

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After a successful teaching career at the University of Michigan I have had the privilege to “reboot” my research career at Sanford Burnham Prebys where I have had the opportunity to develop novel methodologies to understand cardiomyopathy. I have also had the opportunity to work with NASA scientists to do experiments on the International Space Station.

Education

Postdoctoral Fellow, Stanford University, Palo Alto, CA, Neurochemistry
Postdoctoral Fellow, University of Texas Medical School, Houston, TX, Neuroscience NIMH 
PhD, Wesleyan University, Middletown, CT, Neuroscience NIMH 
B.A., Lehigh University, Bethlehem, PA, Biology 

Prestigious Runding Awards or Major Collaborative Grants

2015-2020: NIH R01 HL132241-01A1 – Using Drosophila genetics to identify molecular links between ion channel dysfunction and pathological cardiac remodeling. (PI) 2013-2018 NASA NRA #NNH12ZTT001N – The effects of microgravity on cardiac function, structure and gene expression using the Drosophila model. (Co-I)

Honor and Awards

2014: Space Florida International Space Station Research Competition Winner – Co-investigator – One of three Basic Research proposals selected for launch aboard SpaceX3 – Mission completed, live flies returned on May 18,2014
2001: Excellence in Teaching Award, University of Michigan
1997: Excellence in Teaching Award, University of Michigan
1986-1988: National Institute of Mental Health Fellowship
1983-1985: National Institute of Mental Health Fellowship
1981: Sigma Xi Research Award 1980 MBL Scholarship, Neural Systems and Behavior Course
1971-1975: National Merit Scholarship, Lehigh University

Board Appointments

2018-present: Board member American Society for Gravitational and Space Research

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