| Literature DB >> 27425888 |
Pia Runeberg-Roos1, Elisa Piccinini2, Anna-Maija Penttinen2, Kert Mätlik2, Hanna Heikkinen2, Satu Kuure2, Maxim M Bespalov2, Johan Peränen2, Enrique Garea-Rodríguez3, Eberhard Fuchs4, Mikko Airavaara2, Nisse Kalkkinen2, Richard Penn5, Mart Saarma2.
Abstract
In Parkinson's disease midbrain dopaminergic neurons degenerate and die. Oral medications and deep brain stimulation can relieve the initial symptoms, but the disease continues to progress. Growth factors that might support the survival, enhance the activity, or even regenerate degenerating dopamine neurons have been tried with mixed results in patients. As growth factors do not pass the blood-brain barrier, they have to be delivered intracranially. Therefore their efficient diffusion in brain tissue is of crucial importance. To improve the diffusion of the growth factor neurturin (NRTN), we modified its capacity to attach to heparan sulfates in the extracellular matrix. We present four new, biologically fully active variants with reduced heparin binding. Two of these variants are more stable than WT NRTN in vitro and diffuse better in rat brains. We also show that one of the NRTN variants diffuses better than its close homolog GDNF in monkey brains. The variant with the highest stability and widest diffusion regenerates dopamine fibers and improves the conditions of rats in a 6-hydroxydopamine model of Parkinson's disease more potently than GDNF, which previously showed modest efficacy in clinical trials. The new NRTN variants may help solve the major problem of inadequate distribution of NRTN in human brain tissue.Entities:
Keywords: GDNF; GFRα1; GFRα2; Growth factor; Heparan sulfate; Heparin; NRTN; Neurturin; Parkinson's disease; RET
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Year: 2016 PMID: 27425888 DOI: 10.1016/j.nbd.2016.07.008
Source DB: PubMed Journal: Neurobiol Dis ISSN: 0969-9961 Impact factor: 5.996