Aging And The Pancreas
Aging
Investigators
Linked publications, trials & patents
Abstract
A major component of our research in the Diabetes Section is understanding what controls beta cell mass of the pancreas. With age and type 2 diabetes, there is a failure of expansion of beta cell mass. This is possibly due to increased apoptosis of existing beta cells as well as decreased beta cell neogenesis. We have been investigating the actions of GLP-1, a gut hormone, as they relate to insulin release. We found that not only is it a potent insulinotropic agent, it upregulates insulin biosynthesis, increases translocation of pdx-1, a transcription factor necessary for maintenance of the beta cell phenotype, to the nucleus and it increases glucokinase protein levels (the essential glucose sensor in beta cells). We also found that it increases beta cell mass by increasing beta cell proliferation in islets of Langerhans. Other investigators demonstrated antiapototic effects of GLP-1 in beta cell lines and whole islets. A GLP-1 receptor (GLP-1R) agonist, exendin-4, has recently become available for treating type 2 diabetes. Data from the Baltimore Longitudinal Study of Aging shows us that diabetes, in people whose ages are sixty-five years or older, is, to a large extent, due to beta cell failure, with insulin resistance being a minor component. Therefore, exendin-4 or any compound which works through the GLP-1R should be an ideal way to treat the elderly with diabetes. An added benefit is that GLP-1R agonists will not cause hypoglycemia because their insulinotropic effect is glucose dependent. A component of our basic work is investigating how GLP-1 increases beta cell turnover. We have uncovered all of the prototypic components of the Notch pathway in mature islets. Activation of the pathway requires gamma-secretase to cleave the C-terminus of the Notch receptor (NICD), which then translocates to the nucleus. NICD controls pancreatic endocrine differentiation and determines cell fate (endocrine vs. exocrine vs. duct cell type) in the embryonal pancreas. GLP-1R activation, by increasing PKA activity results, in turn, in inducing gamma-secretase activity. Inhibition of gamma-secretase in vitro and in vivo by gamma-secretase inhibitors prevents GLP-1R mediated proliferation of beta cells. This provides a direct link between activation of the Notch signaling pathway, GLP-1R activation and beta cell proliferation. We are currently working with peptides based on the receptor activation moieties of Notch ligands as possible agents to increase beta cell proliferation in vivo. We are also investigating if the Notch pathway is negatively perturbed in aging.
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