The use of Glial Cell-derived Neurotrophic Factor (GDNF) or its mimics as a potential therapeutic for diabetes mellitus type 1 (IDDM).
Emory investigators have demonstrated that GDNF, a potent survival factor in the nervous system, can also enhance the survival, proliferation and function of the insulin-producing pancreatic β-cells. They found that these cells express key GDNF receptors. In response to GDNF administration, β-cell survival is increased in vitro and in vivo via activation of the pro-survival PI3K pathway. Moreover, GDNF transgenic mice were found to have lower blood glucose levels, higher insulin levels and were resistant to diabetes compared to wild-type mice. Thus GDNF could be used as a novel treatment for IDDM, to increase the health and survival of β-cell transplants, or as a target for developing new therapeutics. Current treatments for diabetes center on early diagnosis and management of blood sugar levels through exercise, diet, self-glucose monitoring and insulin injections. While these lifestyle changes provide one avenue of treatment, long-term follow-through and a continued progression of the disease can render such treatments less useful. Transplantation of exogenous pancreatic β-cells is a promising method to control diabetes by restoring the body's capacity to produce insulin. Transplanted β-cells however suffer from poor health due to autoimmune tissue rejection and the limited supply of donor tissue. Thus, development of methods to enhance the production and functions of β-cells is important in islet transplantation. GDNF and its mimics could potentially be used in this regard both pre- and post-transplantation.
In vitro studies confirm the beneficial effects of GDNF on pancreatic β-cells and in vivo proof of principle has been demonstrated in rodent models of diabetes.
Publications
Anitha M et al (2006), The Journal of Clinical Investigation, 116:299-302.Mwangi S et al (2008), Gastroenterology,134(3):727-37.