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Stem cells for novel gene delivery of nitric oxide in the gut

$0I01FY2012VAVA

Va Boston Health Care System, Boston MA

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Abstract

ABSTRACT Deficiency of the gas nitric oxide (NO) has been implicated in a number of gastrointestinal motility disorders including achalasia, diabetic gastroparesis, pyloric stenosis, chronic constipation, and Hirschsprung's Disease. However, the therapeutic potential of NO has been hindered by its short biological half-life in seconds, rapid diffusion, and multiple targets of action. Ideally, local and chronic delivery of NO to these deficient areas is necessary for treatment. Our broad objective is to study how embryonic and somatic stem cells may be manipulated, not simply for cell replacement therapy as has been the initial focus for their use, but as a novel means of chronic and local drug delivery or gene therapy in the adult gastrointestinal tract. Our preliminary work has revealed that embryonic stem (ES) cells can be engineered for stable production of NO. Moreover, after injection in the adult pylorus, these cells remained in the area, reconstituted the native tissues, respected the local architecture, and continued to express NO. These exciting findings support the feasibility for a novel approach to directed gene therapy in the gut. This proposal entails three specific goals using mice as the cell and animal model for this stem cell technology: (1) the establishment of ES cell lines for optimal delivery of nitric oxide using (a) fluorescent probes to help distinguish injected cells from its host and (b) a bicistronic vector which allows for selection of cells expressing high amounts of NO; (2) assessment of the histological and physiological impact of NO delivery in wild type and knockout mice lacking neuronal NO synthase to establish the pluripotency of the ES cells in adult gut and to assess the ability to complement a specific genetic defect; and (3) harvesting non-embryonic stem cells, namely from intestinal epithelium and bone marrow, for gene delivery and potential cell replacement therapy in the gut. We hypothesize that stem cells can be optimized for directed gene therapy in the adult gut. This approach appears particularly well suited for such diffusible, unstable and transiently bioactive compound such as nitric oxide. Using stem cells for delivery of gene products provides a novel and widely applicable technique for future treatment of a number of inflammatory and degenerative conditions.

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