Project Objective: Tool/Resources/Bottleneck
Mapping and modeling endothelial cell fate decisions for pulmonary arterial hypertension
Research Objective We will build a foundational model and experimental platform to catalog all genes that promote and protect against PAH, with the potential to extend to many other developmental and disease processes. Impact The studies aim to identify genetic targets for PAH therapy and develop a predictive model to accelerate stem cell research and […]
An interactive data resource for hypothesis testing in stem cell single-cell gene expression and validation of the results with brain organoids
Research Objective We are building a "virtual molecular microscope" where anyone can quickly visualize a very recent, high-throughput molecular assay, single-cell RNA-seq and spatial gene expression studies Impact Currently, a lot of data has been published, hundreds of datasets on the cerebral cortex alone, but it takes hours to convert the datasets and look at […]
Characterization and applications of human blastoids for understanding early human embryogenesis
Research Objective Our work will yield an improved stem-cell based embryo model that we will explore with various omics approaches and genetic screens to gain insights into the pathways that control human embryos. Impact An improved stem cell-based embryo model is a crucial step for in-depth studies of human development and will enhance our ability […]
Overcoming barriers for airway stem cell gene therapy for Cystic Fibrosis
Research Objective This research will allow the targeting of airway stem cells for long lived gene therapy for Cystic Fibrosis and for other airway diseases Impact We will overcome the barriers to accessing airway basal stem cells for gene correction for Cystic Fibrosis (CF) and use a new gene correction strategy to correct >99% of […]
Modeling Retinitis Pigmentosa using patient-derived human iPSC organoids
Research Objective The objective of this proposal is to develop a human retinal organoid model of adRP to gain insights in pathogenesis and assess clinically relevant approaches to restore RHO protein function. Impact Upon successful completion of this study, we will have established a disease-in-a-dish model and a novel therapeutic approach towards management of the […]
Engineering pluripotent stem cells for universally available, off-the-shelf T cell therapies
Research Objective Our goal is to develop new gene editing methods for producing universal, off-the-shelf, therapeutic T cells from induced pluripotent stem cells (iPSC) that can be applied to a range of diseases. Impact We will develop new gene editing approaches to overcome the block to T cell development from iPSC that occurs when key […]
Establishment of a novel approach to systematically study the dynamic organization of protein complexes in stem cells
Research Objective We focus on hiPSCs pluripotency and neurodifferentiation to develop a novel framework to allow simultaneous identification of multiple interactions between proteins and between proteins and the genome Impact Our framework will allow high-throughput queries of the organization and functionality of proteins and shift the focus towards unprecedented, multi-dimensional studies of the cellular complexity. […]
Drug Discovery for Dilated Cardiomyopathy using Patient-Derived Human iPSCs
Research Objective Greenstone Biosciences will use patient-derived stem cells to discover safe and effective drugs for cardiovascular disease. Impact The use of patient-derived stem cells to discover novel drug targets for cardiovascular disease, identify drug candidates, and establish clinical trial in a dish to evaluate drug safety and efficacy. Major Proposed Activities Use patient-derived induced […]
Towards a trophectoderm stem-cell model representing human blastocysts of the highest implantation potential
Research Objective To define a new reference for embryos and stem cell lines of the highest developmental potential and work towards a trophoblast stem cell model to study factors important for successful implantation Impact The molecular determinants of successful human blastocyst implantation remain unknown and trophectoderm stem cell models to study these embryo factors and […]
Development of a stem-cell based approach to interpret global effects of genetic variants contributing to neurodevelopmental disease risk
Research Objective We are developing a strategy to characterize the disease-relevance of hundreds of mutations across diverse genetic backgrounds using stem cells Impact Understanding how mutations impact cellular function can identify treatments for genetic diseases, but currently less than 1% of identified mutations have a known function. Major Proposed Activities Identify optimal conditions for SNV […]