centered image

Insights On Diabetic Retinopathy

Discussion in 'General Discussion' started by In Love With Medicine, Jan 24, 2020.

  1. In Love With Medicine

    In Love With Medicine Golden Member

    Joined:
    Jan 18, 2020
    Messages:
    4,085
    Likes Received:
    3
    Trophy Points:
    7,180
    Gender:
    Male

    [​IMG]

    Diabetic retinopathy, a leading cause of blindness in the United States, is associated with metabolic dysfunction and chronic elevation of retinal inflammation

    Megan Capozzi, PhD, John Penn, PhD, and colleagues previously showed that the transcription factor PPAR-beta/delta can regulate aspects of diabetic retinopathy, including inflammation and angiogenesis (blood vessel growth). They have now used a PPAR-beta/delta inhibitor, GSK0660, to further characterize the protein’s role in human retinal Müller cells, which support retinal neurons, microvascular endothelial cells and mouse retina.

    They found that GSK0660 inhibits production of inflammatory mediators by Müller cells and blocks the effects of one of those mediators, TNF-alpha, on leukocyte adhesion in endothelial cells and mouse retina.

    The results, reported in the January issue of Experimental Eye Research, show that inhibition of PPAR-beta/delta reduces both Müller cell and endothelial cell inflammatory signaling events. Because PPAR-beta/delta inhibition targets multiple pathogenic steps in diabetic retinopathy, it may be an ideal therapeutic strategy for the disease, the authors conclude.

    Source
     

    Add Reply

Share This Page

<