[HTML][HTML] Visualization of sensory neurons and their projections in an upper motor neuron reporter line

B Genç, AKB Lagrimas, P Kuru, R Hess, MW Tu… - PloS one, 2015 - journals.plos.org
B Genç, AKB Lagrimas, P Kuru, R Hess, MW Tu, DM Menichella, RJ Miller, AS Paller…
PloS one, 2015journals.plos.org
Visualization of peripheral nervous system axons and cell bodies is important to understand
their development, target recognition, and integration into complex circuitries. Numerous
studies have used protein gene product (PGP) 9.5 [aka ubiquitin carboxy-terminal hydrolase
L1 (UCHL1)] expression as a marker to label sensory neurons and their axons. Enhanced
green fluorescent protein (eGFP) expression, under the control of UCHL1 promoter, is stable
and long lasting in the UCHL1-eGFP reporter line. In addition to the genetic labeling of …
Visualization of peripheral nervous system axons and cell bodies is important to understand their development, target recognition, and integration into complex circuitries. Numerous studies have used protein gene product (PGP) 9.5 [a.k.a. ubiquitin carboxy-terminal hydrolase L1 (UCHL1)] expression as a marker to label sensory neurons and their axons. Enhanced green fluorescent protein (eGFP) expression, under the control of UCHL1 promoter, is stable and long lasting in the UCHL1-eGFP reporter line. In addition to the genetic labeling of corticospinal motor neurons in the motor cortex and degeneration-resistant spinal motor neurons in the spinal cord, here we report that neurons of the peripheral nervous system are also fluorescently labeled in the UCHL1-eGFP reporter line. eGFP expression is turned on at embryonic ages and lasts through adulthood, allowing detailed studies of cell bodies, axons and target innervation patterns of all sensory neurons in vivo. In addition, visualization of both the sensory and the motor neurons in the same animal offers many advantages. In this report, we used UCHL1-eGFP reporter line in two different disease paradigms: diabetes and motor neuron disease. eGFP expression in sensory axons helped determine changes in epidermal nerve fiber density in a high-fat diet induced diabetes model. Our findings corroborate previous studies, and suggest that more than five months is required for significant skin denervation. Crossing UCHL1-eGFP with hSOD1G93A mice generated hSOD1G93A-UeGFP reporter line of amyotrophic lateral sclerosis, and revealed sensory nervous system defects, especially towards disease end-stage. Our studies not only emphasize the complexity of the disease in ALS, but also reveal that UCHL1-eGFP reporter line would be a valuable tool to visualize and study various aspects of sensory nervous system development and degeneration in the context of numerous diseases.
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