An animal model mimicking pedunculopontine nucleus cholinergic degeneration in Parkinson's disease
Date
2015Author
Pienaar, Ilse S.
Elson, Joanna L.
Harrison, Ian F.
Bury, Alexander
Woll, Petter
Metadata
Show full item recordAbstract
A rostral brainstem structure, the pedunculopontine
nucleus (PPN), is severely affected by Parkinson’s
disease (PD) pathology and is regarded a promising target
for therapeutic deep-brain stimulation (DBS). However,
understanding the PPN’s role in PD and assessing the
potential of DBS are hampered by the lack of a suitable
model of PPN degeneration. Rats were rendered Parkinsonian
through a unilateral substantia nigra pars compacta
(SNpc) stereotaxic injection of the proteasome inhibitor
Lactacystin, to investigate whether the lesion’s pathological
effects spread to impact the integrity of PPN cholinergic
neurons which are affected in PD. At 5 weeks postsurgery,
stereological analysis revealed that the lesion
caused a 48 % loss of dopaminergic SNpc neurons and a
61 % loss of PPN cholinergic neurons, accompanied by
substantial somatic hypotrophy in the remaining cholinergic
neurons. Magnetic resonance imaging revealed T2
signal hyper-/hypointensity in the PPN of the injected
hemisphere, respectively at weeks 3 and 5 post-lesion.
Moreover, isolated PPN cholinergic neurons revealed no
significant alterations in key autophagy mRNA levels,
suggesting that autophagy-related mechanisms fail to protect
the PPN against Lactacystin-induced cellular changes.
Hence, the current results suggest that the Lactacystin PD
model offers a suitable model for investigating the role of
the PPN in PD
URI
http://hdl.handle.net/10394/18833https://doi.org/10.1007/s00429-013-0669-5
https://link.springer.com/article/10.1007%2Fs00429-013-0669-5