Browsing by Author "Reunanen, Saku"

Parkinson’s disease (PD) is a neurodegenerative disease in which dopaminergic neurons that form the nigrostriatal pathway gradually die. This causes the main motor symptoms of Parkinson’s disease: tremor, rigidity and bradykinesia. While PD affects 1-2% of total population, all currently used medicines are symptomatic, and there is no disease modifying therapy available at present. Although several different animal models for Parkinson’s disease exist, the lack of adequate animal models is often cited as a major obstacle for predicting the clinical success of potential drug candidates. Lewy bodies (LBs) are abnormal aggregates that develop and spread inside nerve cells of human PD patients, their main structural component being α-synuclein. Because α-synuclein is thought to play a major role in the pathology of PD, much research has been focused on it. Different α-synuclein-based animal models of PD exist today, of which the most recent are based on using direct injections of preformed α-synuclein fibrils (PFFs). These new α-synuclein based disease models have helped to understand the disease process in PD better, but cell death in these models takes longer to achieve and is often less pronounced compared to traditional neurotoxin based animal models of PD. The aim of this study was to participate in the development and characterization of a novel mouse model of PD. This new model combines PFF-injections with the commonly used neurotoxin 6-OHDA, which should result in more robust dopamine pathway degeneration than what is seen with the current PFF-based models. The main hypothesis of this study was that the combination of intrastriatal injections of PFFs and a low dose of 6-OHDA would cause gradual spreading of the α-synuclein aggregation pathology in the nigrostriatal dopamine pathway and progressive dopamine neuron loss leading to motor deficits. C57BL/6 mice were stereotactically injected unilaterally with both PFF and 6-OHDA, and their performance was assessed every other week with different behavioral tests until week 12. At the end, brains were collected and optical density of tyrosine hydroxylase (TH) and dopamine transporter (DAT) was measured from striatal sections, and TH and DAT positive cells in the substantia nigra were counted. The amount of Lewy bodies present in the brain slices was also counted from the cortex and substantia nigra areas of the brain. In the histological assays, statistically significant reductions of both TH and DAT were found in the brain sections of the PFF + 6-OHDA combination group and the amount of TH and DAT positive cells were lower in this group compared to the group receiving vehicle treatment only. However, the results of behavioral tests were non-significant, although a non-statistical positive trend in the amphethamine-induced rotations test was observed where mice receiving PFF + 6-OHDA rotated the most. Taken together, combination model that utilizes both PFF and 6-OHDA injections seems like a promising candidate in modelling PD in mice, but much more research and further development of the model is required before this combination model is ready and robust for use in drug development.