Cell Line Generation: iPS Cell
Activation of patient-specific endogenous myocardial repair through the exosomes generated from the hypoxic iPSC-derived cardiomyocytes (iCMs).
Research Objective This proposal will provide direct evidence of clinical implementation of patient-specific iPSC products by validating the efficacy of autologous, cell-free exosome therapy. Impact Five-year survival of heart failure is a dismal 50% and is top diagnosis of hospital admission. Exosomes offer a feasible and effective cell-free therapy by activating endogenous myocardial repair. Major […]
Generation of human universal donor iPS cells
Translational Candidate Universal donor cell that is a genetically-engineered iPSC clone and is equipped with a safety switch. Area of Impact Regenerative medicine including replacement therapies affected by immune rejection by host immune cells. Mechanism of Action The universal donor cell mitigates immune rejection by host immune cells and is equipped with a suicide gene […]
A Novel, Robust and Comprehensive Predictive Tool Using Human Disease-Specific Induced Pluripotent Stem Cells for Preclinical Drug Screening
Translational Candidate A library of induced pluripotent stem cell-derived cardiomyocytes from healthy subjects as well as patients with common hereditary cardiac disorders Area of Impact Preclinical toxicity screening and drug discovery Mechanism of Action Patients with pre-existing cardiac conditions are more susceptible to drug-induced cardiotoxicity than general population. Including iPSCs derived from this subset of […]
Clinical Translation of Autologous Regenerative Cell Therapy for Blindness
Translational Candidate We are studying autologous induced pluripotent stem cell-derived retinal pigment epithelium (AiPSC-RPE) cells for the treatment of maculopathies. Area of Impact Maculopathies (including AMD, SMD, & MMD) may be treated with AiPSC-RPE cells to replace RPE and support photoreceptors to improve vision. Mechanism of Action AiPSC-RPE cells replace RPE lost to disease, and […]
DEBCT: Genetically Corrected, Induced Pluripotent Cell-Derived Epithelial Sheets for Definitive Treatment of Dystrophic Epidermolysis Bullosa
Translational Candidate DEBCT is an autologous iPS-derived COL7A1-corrected keratinocyte graft indicated for the treatment of all chronic open wounds in patients with RDEB. Area of Impact RDEB patients lack type VII collagen and have chronic wounds that lack an abundance of keratinocyte stem cells. DEBCT skin grafts will close wounds. Mechanism of Action RDEB patient […]
Human iPSC-derived GABAergic Progenitors for Alzheimer’s Disease Treatment
Translational Candidate Human iPSC-derived GABAergic interneuron progenitors. Area of Impact Alzheimer's disease and related conditions. Mechanism of Action Transplantation of human iPSC-derived GABAergic progenitors, which will develop into mature GABAergic interneurons, to replace the lost GABAergic interneurons in the hippocampus of AD brains and related disorders. Unmet Medical Need As a complex disease that damages […]
Personalized Cell Therapy for Diabetes
Translational Candidate Preclinical studies will develop patient specific stem cell-derived islets that secrete insulin & other islet hormones for regulation of blood sugar Area of Impact Genetically matched stem cell derived islets could provide treatment for diabetes without the need for immunosuppression or implantable devices. Mechanism of Action The stem cell-derived islets contain insulin-producing pancreatic […]
Personalized Cell Therapy for Diabetes
Translational Candidate Preclinical studies will develop patient specific stem cell-derived islets that secrete insulin & other islet hormones for regulation of blood sugar Area of Impact Genetically matched stem cell derived islets could provide treatment for diabetes without the need for immunosuppression or implantable devices. Mechanism of Action The stem cell-derived islets contain insulin-producing pancreatic […]
Process development for establishing an iPSC-based therapeutic candidate for Canavan disease
Translational Candidate Genetically-corrected patient iPSC-derived neural progenitor cells, which have demonstrated efficacy to correct disease phenotype in a CD mouse model. Area of Impact This candidate has the potential to develop into a therapy for Canavan disease, a fatal neurological disease that has no cure or standard treatment. Mechanism of Action The proposed candidate is […]
ASCENT- Advanced Stem Cell Enteric Neuropathy Therapy
Translational Candidate ASCENT – Advanced Superdonor Cellular Enteric Neuropathy Therapy, is a donor progenitor cell population that replaces the enteric nervous system. Area of Impact ASCENT would treat enteric neuropathies including Hirschsprung disease and total intestinal aganglionosis which currently have no direct therapy Mechanism of Action Our goal is to develop an allogeneic “off the […]