Parkinson's disease (PD) is most commonly manifested by the presence of motor symptoms. However, non-motor symptoms occur several years before the onset of motor symptoms themselves. Hallmarks of dysfunction of the respiratory system are still outside the main focus of interest, whether by clinicians or scientists, despite their indisputable contribution to the morbidity and mortality of patients suffering from PD. In addition, many of the respiratory symptoms are already present in the early stages of the disease and efforts to utilize these parameters in the early diagnosis of PD are now intensifying. Mechanisms that lead to the development and progression of respiratory symptoms are only partially understood. This review focuses mainly on the comparison of respiratory problems observed in clinical studies with available findings obtained from experimental animal models. It also explains pathological changes observed in non-neuronal tissues in subjects with PD.
Numerous pathological changes of subcellular structures are characteristic hallmarks of neurodegeneration. The main research has focused to mitochondria, endoplasmic reticulum, Golgi apparatus, lysosomal networks as well as microtubular system of the cell. The sequence of specific organelle damage during pathogenesis has not been answered yet. Exposition to rotenone is used for simulation of neurodegenerative changes in
SH-SY5Y cells, which are widely used for in vitro modelling of Parkinson´s disease pathogenesis. Intracellular effects were investigated in time points from 0 to 24 h by confocal microscopy and biochemical analyses. Analysis of fluorescent images identified the sensitivity of organelles towards rotenone in this order: microtubular cytoskeleton, mitochondrial network, endoplasmic reticulum, Golgi apparatus and lysosomal network. All observed morphological changes of intracellular compartments were identified before αS protein accumulation. Therefore, their potential as an early diagnostic marker is of interest. Understanding of subcellular sensitivity in initial stages of neurodegeneration is crucial for designing new approaches and a management of neurodegenerative disorders.
Events associated with the progression of Parkinson´s disease (PD) are closely related to biomembrane dysfunction. The specific role of membrane composition in the conformational stability of alpha synuclein (αS) has already been well documented. Administration of rotenone is one of the best strategies to initiate PD phenotype in animal models. In the present study, daily exposure (14 weeks) of orally administered rotenone (10 mg/kg) was employed in a mouse model. The mitochondrial complex I inhibition resulted in elevated level of αS in whole tissue homogenate of mouse jejunum. In addition, we identified a strong intra-individual correlation between αS level and the specific esterified fatty acids. The observed correlation depends mainly on the acyl chain length. Based on the obtained results, it is suggested that there is a high potential to manipulate fatty acid homeostasis in modulating αS based pathogenesis of PD, at least in experimental conditions.
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