122 research outputs found

    Islets in Type 2 Diabetes: In Honor of Dr. Robert C. Turner

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    long as the work is properly cited, the use is educational and not for profit, and the work is not altered. Se

    Induction of remission in diabetes by lowering blood glucose

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    As diabetes continues to grow as major health problem, there has been great progress in understanding the important role of pancreatic beta-cells in its pathogenesis. Diabetes develops when the normal interplay between insulin secretion and the insulin sensitivity of target tissues is disrupted. With type 2 diabetes (T2D), glucose levels start to rise when beta-cells are unable to meet the demands of insulin resistance. For type 1 diabetes (T1D) glucose levels rise as beta-cells are killed off by autoimmunity. In both cases the increased glucose levels have a toxic effect on beta-cells. This process, called glucose toxicity, has a major inhibitory effect on insulin secretion. This beta-cell dysfunction can be reversed by therapies that reduce glucose levels. Thus, it is becoming increasingly apparent that an opportunity exists to produce a complete or partial remission for T2D, both of which will provide health benefit

    Transplanted Beta Cell Response to Increased Metabolic Demand Changes in Beta Cell Replication and Mass

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    Abstract We determined the capacity of transplanted beta cells to modify their replication and mass when stimulated by changes in metabolic demand. Invest. 1994Invest. . 93:1577Invest. -158

    Reversing and modulating cellular senescence in beta cells, a new field of opportunities to treat diabetes

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    Diabetes constitutes a world-wide pandemic that requires searching for new treatments to halt its progression. Cellular senescence of pancreatic beta cells has been described as a major contributor to development and worsening of diabetes. The concept of reversibility of cellular senescence is critical as is the timing to take actions against this “dormant” senescent state. The reversal of cellular senescence can be considered as rejuvenation of the specific cell if it returns to the original “healthy state” and doesn’t behave aberrantly as seen in some cancer cells. In rodents, treatment with senolytics and senomorphics blunted or prevented disease progression, however their use carry drawbacks. Modulators of cellular senescence is a new area of research that seeks to reverse the senescence. More research in each of these modalities should lead to new treatments to stop diabetes development and progression
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