Expression of GDNF Throughout Rat Brain After Intranasal Delivery of hGDNF Plasmid Nanoparticles

Glial cell line‐derived neurotrophic factor (GDNF) gene therapy is a promising approach for CNS disorders such as Parkinson's disease (PD). We are examining intranasal administration of PEG‐CK30 DNA nanoparticles (NPs) encoding hGDNF, developed by Copernicus Therapeutics, Inc. We have shown that intranasal NPs incorporating hGDNF DNA (pGDNF), or a hGDNF‐eGFP fusion plasmid (pUGG), transfect brain cells in vivo , and that intranasal pGDNF NPs protect substantia nigra (SN) dopamine neurons in a rat model of PD. Here, we examined transfection in rat brain 7 days after intranasal delivery of these NPs. ELISA showed increased GDNF levels throughout the brain of rats given pGDNF relative to saline controls. Immunohistochemistry (IHC) revealed that the number of eGFP positive cells was significantly higher in rats given intranasal pUGG NPs compared to background fluorescence in controls, with the highest numbers in midbrain. Double label IHC showed that most eGFP positive cells were immediately adjacent to capillary endothelial cells staining for RECA‐1, and they were often contiguous to GFAP positive astrocytic endfeet enwrapping capillaries. When eGFP cells were observed adjacent to dopamine neurons in SN, or NeuN labeled cells in any region, these neurons were also found close to a capillary. This pattern suggests that pericytes are transfected after intranasal administration of DNA NPs, consistent with distribution by perivascular transport. These results confirm delivery and transfection of cells in rat brain after intranasal administration of Copernicus' DNA NPs and support use of intranasal hGDNF NPs as a non‐invasive gene therapy for PD.