High Content Imaging Archives - Sanford Burnham Prebys

Dr. Susanne Heynen-Genel has over 20 years of experience in image-based screening systems, including automated microscopy instrumentation, image analysis, algorithm development, and HCS assay design. She has been directing development and execution of image-based high-content assays for high-throughput screening (primary screens of large chemical and RNAi libraries) and small scale screening (secondary assays, focused libraries assays for validation of basic research findings) for ten years at the Conrad Prebys Center for Chemical Genomics. 

Prior to joining Sanford Burnham Prebys, Susanne was a staff systems scientist at Beckman Coulter, where her responsibilities included system design and integration of high-content screening systems and applications. Previous to that she was an applications scientist for high-throughput microscopy systems at Q3DM until its acquisition by Beckman Coulter. She spent a year as postdoctoral researcher at the University of California in San Diego where she also received her PhD in Bioengineering in 2002. Her graduate student research focused on optimizing fluorometric performance of high-throughput microscopy systems to yield more accurate quantification. This work was incorporated in an image-based HCS platform commercialized first by Q3DM Inc. and then by Beckman Coulter. The accompanying image and single cell data analysis and classification work, initially aimed at detection of cancer cells for cytodiagnostics and presented at conferences, was on the forefront of high-throughput imaging analysis at the time and similar analyses algorithms have more recently been incorporated in commercial HCS image analysis software packages.

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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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Yoav Altman received his B.A. degree in Integrative Biology from the University of California at Berkeley. He started working with flow cytometry in 2001 at La Jolla Institute for Allergy and Immunology and joined Sanford Burnham Prebys Medical Discovery Institute in 2002 as Manager of the Flow Cytometry Shared Resource and was promoted to Director in 2009. Yoav has over 18 years of experience sorting and analyzing a variety of cell lines and primary cells, including IPSCs, hESCs, immune cells, disaggregated tumors and solid tissues, such as cardiomyocytes, hepatocytes, intestinal epithelium, brain tissue, and skeletal muscle. His expertise includes a variety of single-cell assays including side population, cell cycle, apoptosis determination, immunophenotyping, calcium flux, mitochondrial membrane potential, ROS, fluorescent proteins, and FRET. Yoav is available to assist with reagent selection, experiment design, data analysis, protocol development, grant preparation, instrument training and operation and writing methods sections for publications. Yoav’s current interests include developing new imaging flow cytometry methods as well as single-particle analysis of submicron biological particles.

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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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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