The effect of treadmill training on synaptic stripping from axotomized motoneurons in mice Público
Krakowiak, Jr., Joseph Raymond (2012)
Abstract
Abstract
The effect of treadmill training on synaptic stripping from
axotomized motoneurons in
mice
By Joseph R. Krakowiak, Jr.
Functional recovery following peripheral nerve injury is poor
despite the fact that
axons in peripheral nerves can regenerate robustly. A potential
cause for poor functional
recovery that is not widely appreciated is 'synaptic stripping':
the elimination of synaptic
inputs from the soma and proximal dendrites of motoneurons in the
spinal cord following
peripheral nerve injury. The molecular mechanism and signaling
pathways of synaptic
stripping are currently unknown. However, recent work has provided
a case for the
dependence on neurotrophins, especially brain derived neurotrophic
factor (BDNF).
Modest treadmill training has been shown to stimulate neuronal
production of BDNF and
NT-4/5. In this thesis, I used modest treadmill training in mice to
increase BDNF in
motoneurons in an attempt to prevent or counter synaptic stripping
following a peripheral
nerve injury. I found that with treadmill training after a
peripheral nerve injury, nearly no
synaptic stripping effect was observed compared to untrained mice.
I repeated the
treadmill training experiments with complete BDNF knockout mice and
neuron-specific
BDNF knockouts. In complete BDNF knockout mice, treadmill training
produced a much
smaller effect, and in neuron-specific BDNF knockout mice,
treadmill training produced
no effect. In fact, the opposite effect was observed resulting in
more synaptic stripping
after training compared to untrained mice. This thesis provides
support for the hypothesis
that BDNF plays an integral role in the synaptic reformation caused
by treadmill training.
Table of Contents
TABLE OF CONTENTS
Background
............................................................................................................1
Methods..................................................................................................................5
Animals and Surgical Methods
......................................................................................5
Tamoxifen
Treatment..................................................................................................7
Treadmill Training Procedures
......................................................................................7
Immunohistochemical Analysis
.....................................................................................8
Imaging Analysis
.......................................................................................................8
Statistical Analysis
....................................................................................................9
Results
..................................................................................................................10
Synaptic stripping following sciatic nerve transection in the mouse
....................................10
Treadmill training prevents synaptic stripping
.................................................................11
An astrocyte reaction is absent after treadmill training
....................................................11
Lack of BDNF prevents treadmill training effect
..............................................................12
Lack of neuronal BDNF prevents treadmill training effect
..................................................13
Treadmill training effect is dependent upon BDNF
...........................................................13
Discussion
.............................................................................................................14
Future Directions
...................................................................................................17
References
............................................................................................................18
Figures and Legends
...............................................................................................22
Figure 1
..................................................................................................................22
Figure 2
..................................................................................................................23
Figure 3
..................................................................................................................24
Figure 4
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Figure 5
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Figure 6
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Figure 7
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Figure 8
..................................................................................................................29
Figure 9
..................................................................................................................30
Figure 10
................................................................................................................31
Figure 11
................................................................................................................32
Figure 12
................................................................................................................33
About this Honors Thesis
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