Abstract
ABSTRACTParkinson's disease (PD) often manifests with prodromal pain and sensory losses whose etiologies are not well understood. Multiple genetic and toxicity-based rodent models of PD partly recapitulate the histopathology and motor function deficits. Although far less studied, there is some evidence that rodents, similar to humans, develop sensory manifestations of the disease, which may precede motor disturbances and help to elucidate the underlying mechanisms of PD-associated pain at the molecular and neuron circuit levels. The present Review summarizes nociception and other sensory functions in frequently used rodent PD models within the context of the complex phenotypes. In terms of mechanisms, it appears that the acute loss of dopaminergic neurons in systemic toxicity models (MPTP, rotenone) primarily causes nociceptive hyperexcitability, presumably owing to a loss of inhibitory control, whereas genetic models primarily result in a progressive loss of heat perception, reflecting sensory fiber neuropathies. At the molecular level, neither α-synuclein deposits alone nor failure of mitophagy alone appear to be strong enough to result in axonal or synaptic pathology of nociceptive neurons that manifest at the behavioral level, and peripheral sensory loss may mask central ‘pain’ in behavioral tests. Hence, allostatic combinations or additional challenges and novel behavioral assessments are needed to better evaluate PD-associated sensory neuropathies and pain in rodents.
Highlights
Parkinson’s disease (PD) is a complex neurodegenerative disease that primarily affects motor systems of the basal ganglia, and multiple extranigral regions (Braak et al., 1995)
The motor symptoms progress over time and include muscle rigidity, tremor, slowness of movement and difficulty walking (Darweesh et al, 2017)
Because loss of olfactory functions is a prodromal sign of PD in humans (Bohnen et al, 2010; Doty, 2012; Johansen et al, 2013; Postuma and Berg, 2016), researchers use olfaction tests to assess odor thresholds, preferences and social behavior in PD rodents (Table 2) (Fleming et al, 2008; Kurtenbach et al, 2013; Lehmkuhl et al, 2014; Ubeda-Banon et al, 2012) or flies (Chen et al, 2014; Poddighe et al, 2013)
Summary
Parkinson’s disease (PD) is a complex neurodegenerative disease that primarily affects motor systems of the basal ganglia (see Box 1 for a glossary of terms), and multiple extranigral regions (Braak et al., 1995). 16-19 months, i.e. decreased loss of DA neuron locomotor activity in OFT; terminals in the striatum; impaired motor performance accumulation of SNCA in and coordination in cylinder No motor alterations in rotarod No olfactory dysfunction in marble Bichler et al, or grip strength; reduced burying; normal nociception in rearing in cylinder test; formalin test; impairment in reduced spontaneous activity long-term memory in passive
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