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- Title
GDNF rescues hyperglycemia-induced diabetic enteric neuropathy through activation of the PI3K/Akt pathway.
- Authors
Anitha, Mallappa; Gondha, Chetan; Sutliff, Roy; Parsadanian, Alexander; Mwangi, Simon; Sitaraman, Shanthi V.; Srinivasan, Shanthi
- Abstract
Diabetes can result in loss of enteric neurons and subsequent gastrointestinal complications. The mechanism of enteric neuronal loss in diabetes is not known. We examined the effects of hyperglycemia on enteric neuronal survival and the effects of glial cell line-derived neurotrophic factor (GDNF) on modulating this survival. Exposure of primary enteric neurons to 20 mM glucose (hyperglycemia) for 24 hours resulted in a significant increase in apoptosis compared with 5 mM glucose (normoglycemia). Exposure to 20 mM glucose resulted in decreased Akt phosphorylation and enhanced nuclear translocation of forkhead box O3a (FOXO3a). Treatment of enteric neurons with GDNF ameliorated these changes. In streptozotocin-induced diabetic mice, there was evidence of myenteric neuronal apoptosis and reduced Akt phosphorylation. Diabetic mice had loss of NADPH diaphorase-stained myenteric neurons, delayed gastric emptying, and increased intestinal transit time. The pathophysiological effects of hyperglycemia (apoptosis, reduced Akt phosphorylation, loss of inhibitory neurons, motility changes) were reversed in diabetic glial fibrillary acidic protein-GDNF (GFAP-GDNF) Tg mice. In conclusion, we demonstrate that hyperglycemia induces neuronal loss through a reduction in Akt-mediated survival signaling and that these effects are reversed by GDNF. GDNF may be a potential therapeutic target for the gastrointestinal motility disorders related to diabetes.
- Subjects
HYPERGLYCEMIA; DIABETES complications; BLOOD sugar; NERVOUS system; GLUCOSE; NEUROPATHY; PROTEIN metabolism; GLUCOSE metabolism; ANIMAL experimentation; APOPTOSIS; AUTONOMIC nervous system; BIOCHEMISTRY; COMPARATIVE studies; DIABETES; DIABETIC neuropathies; GASTROINTESTINAL diseases; GASTROINTESTINAL system; PHENOMENOLOGY; RESEARCH methodology; MEDICAL cooperation; MICE; NERVE tissue; NEURONS; PHOSPHOTRANSFERASES; PROTEINS; PROTEOLYTIC enzymes; RECOMBINANT proteins; RESEARCH; TRANSFERASES; EVALUATION research; ANATOMY
- Publication
Journal of Clinical Investigation, 2006, Vol 116, Issue 2, p344
- ISSN
0021-9738
- Publication type
journal article
- DOI
10.1172/JCI26295