ASSOCIATION BETWEEN INSULIN RESISTANCE AND NITRIC OXIDE IN HUMAN RETINAL MICROVASCULAR ENDOTHELIAL CELLS IN VITRO
الملخص
Diabetic retinopathy (DR) a major consequence of diabetes is considered the leading
cause of vision loss and blindness worldwide among working adults. Endothelial
dysfunction expediting imbalance in vascular homeostasis, is one of the primary
manifestation leading to the pathogenesis of DR. NO a major vasodilator involved in the
regulation of vascular homeostasis is reported to be released by insulin dependent PI3K/
Akt signaling pathway. Endothelial dysfunction impairs ocular hemodynamics by
reducing the bioavailability of NO and increasing the production of reactive oxygen
species (ROS) and may be responsible for the pathogenesis of vascular dysfunction in
retinopathy.
In the current study in order to examine the effect of insulin on NO production, HRECs
cells were cultured and grown in high glucose (30mM) and normal (5mM) glucose for
24 hours. Subsequently, the cells were treated with 100nM insulin for 10 minutes, 1, 2,
and 4 hours. The various parameters of PI3K/ Akt signaling pathway were analyzed.
This study demonstrated that Hyperglycemia causes an increase in ROS/oxidative stress
and apoptosis, while insulin promotes a significant decrease in ROS and apoptosis, eNOS
mediated NO production increases with hyperglycemia but remarkably reduced with
insulin treatment after 1hour, 2 hours and 4 hours. This may suggest that insulin could
counteract the hyperglycemic effect on AKT/PI3 kinase which mediates NO production
and VEGF-A, with decreased adhesion molecules such as p-selectin that is involved in
barrier disorder of retinal endothelial cells. In summary, insulin could counteract the
deleterious effects of hyperglycemia on retinal endothelial cells via various molecular
approach including oxidative stress, apoptosis, NO, and adhesion molecules.
DOI/handle
http://hdl.handle.net/10576/3900المجموعات
- العلوم الصحية - كلية الآداب والعلوم (قبل 2016) [12 items ]