Program Type: Discovery


An hematopoietic stem-cell-based approach to treat HIV employing CAR T cells and anti-HIV broadly neutralizing antibodies.

Research Objective We propose to transduce hematopoietic stem cells with vectors that encode chimeric antigen receptors targeting HIV for T cells and anti-HIV broadly neutralizing antibodies for B and/or plasma cells. Impact Recent methods are limited by the rise of escape mutants against a single CAR. Our approach solves this issue by the ability to […]

Combating Ovarian Cancer Using Stem Cell-Engineered Off-The-Shelf CAR-iNKT Cells

Research Objective HSC-engineered allogeneic mesothelin-targeting CAR-iNKT (AlloMCAR-iNKT) cells Impact treatment of ovarian cancer Major Proposed Activities Milestone 1. Production of the AlloMCAR-iNKT cells Milestone 2. Characterization of the AlloMCAR-iNKT cells Milestone 3. Delivery of the new therapeutic candidate Ovarian cancer (OC) is the leading cause of death among women with gynecological malignancies. In the USA, […]

CAR T cells targeting abnormal N-glycans for the treatment of refractory/metastatic solid cancers

Research Objective Develop genetically modified chimeric antigen receptor T cells to kill incurable solid cancers by targeting a previously un-targetable tumor associated carbohydrate antigen. Impact Refractory/metastatic solid cancers are almost always incurable and have limited therapeutic options. Directing the immune system to kill cancer cells provides an unprecedented new approach. Major Proposed Activities Engineer and […]

Bioengineering human stem cell-derived beta cell organoids to monitor cell health in real time and improve therapeutic outcomes in patients

Research Objective We will generate nanoprobe-containing stem cell-derived human beta cells that can be monitored in real time in response to inflammatory stress upon transplantation in patients with type 1 diabetes. Impact Our product will replace donor islets for cell replacement therapy in patients with type 1 diabetes, and will provide a readout of cell […]

Enabling non-genetic activity-driven maturation of iPSC-derived neurons

Research Objective We will empower stem cell biologists to generate iPSC-derived neurons faster and with enhanced maturation by enabling optical cell stimulation and triggering activity-dependent maturation processes Impact Our project will address such critical bottlenecks as insufficient maturity of iPSC-derived neurons that limits their utility in age-related neurological disorders that manifest later in life. Major […]

Developing gene therapy for dominant optic atrophy using human pluripotent stem cell-derived retinal organoid disease models

Research Objective We will develop a gene therapy for a major inherited optic nerve disease and test the effectiveness of the treatment by analyzing healthy and patient stem cell-derived mini human retinas. Impact The research will use stem cell-based methods to overcome the shortage of human retinal cells and establish disease models, thus allow testing […]

Novel antisense therapy to treat genetic forms of neurodevelopmental disease.

Research Objective We propose to discovery and evaluate antisense gene therapy for specific mutations underlying debilitating or life-threatening neurodevelopmental diseases including epilepsy and autism syndromes. Impact The conditions are four specific neurodevelopmental syndromes where mutations are well suited to ASO therapy. The bottlenecks are current lack of cellular evidence for ASOs to impact disease course. […]

Novel methods to eliminate cancer stem cells

Research Objective Our goal is to develop and optimize novel drugs that can attack blood cancer stem cells. These drugs interfere with a target protein, and will prevent relapse of disease. Impact By targeting blood cancer stem cells, these compounds can be used to treat and prevent recurrence of cancer in patients. In the future, […]

Drug Development of Inhibitors of Inflammation Using Human iPSC-Derived Microglia (hiMG)

Research Objective We will screen for modifiers of the response to misfolded αSyn and Aβ, and their cognate antibodies. Development of drugs to combat this inflammation is important in neurodegenerative diseases. Impact Inhibiting the immune response to minimize NLRP3 inflammasome activation may prevent the neurotoxic effect of activated microglia, and attenuate disease progression in neurodegenerative […]

A new precision medicine based iPSC-derived model to study personalized intestinal fibrosis treatments in pediatric patients with Crohn’s disease

Research Objective We propose to discover a tool that will utilize patient specific iPSC-derived human mini-guts to identify personalized antifibrotic treatments in pediatric Crohn’s disease patients Impact The major bottleneck in intestinal fibrosis research is the difficulty in obtaining patient-specific biologically relevant cells for in vitro modeling. This iPSC-derived tool would overcome it. Major Proposed […]