Axonal regeneration of sensory nerves is delayed by continuous intrathecal infusion of nerve growth factor

While it is well established that nerve growth factor is growth promoting for sensory neurons in culture, it is unclear whether it serves such a function in vivo. In fact, our previous studies led to the hypothesis that nerve growth factor could actually impair axonal regeneration by reducing the ne...

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Published inNeuroscience Vol. 76; no. 4; pp. 1153 - 1158
Main Author Gold, B.G
Format Journal Article
LanguageEnglish
Published Oxford Elsevier Ltd 01.02.1997
Elsevier
Subjects
Animals
axonal regeneration
Axons - drug effects
Biological and medical sciences
Development. Senescence. Regeneration. Transplantation
dorsal root ganglion
Fundamental and applied biological sciences. Psychology
Ganglia, Spinal - cytology
Ganglia, Spinal - drug effects
Injections, Spinal
Male
Nerve Crush
nerve growth factor
Nerve Growth Factors - administration & dosage
Nerve Growth Factors - pharmacology
Nerve Regeneration - drug effects
Neurons, Afferent - drug effects
rat
Rats
Rats, Sprague-Dawley
sciatic nerve
Sciatic Nerve - drug effects
Sciatic Nerve - physiology
Sciatic Nerve - ultrastructure
sensory neurons
Vertebrates: nervous system and sense organs
axonal regeneration
rat
nerve growth factor
DRG, dorsal root ganglion
dorsal root ganglion
NGF, nerve growth factor
sensory neurons
sciatic nerve
Regeneration
Spinal cord
Vertebrata
Mammalia
Rat
Rodentia
Central nervous system
Nerve growth factor
Sensory neuron
Spinal ganglion
Sciatic nerve
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Abstract While it is well established that nerve growth factor is growth promoting for sensory neurons in culture, it is unclear whether it serves such a function in vivo. In fact, our previous studies led to the hypothesis that nerve growth factor could actually impair axonal regeneration by reducing the neuronal cell body response to injury. In the present study, the consequence of continuous intrathecal infusion of nerve growth factor on regeneration of sensory neurons was examined in rats given a bilateral sciatic nerve crush. Rats received nerve growth factor (125ng/h) as a continuous infusion into the subarachnoid space of the lumbar spinal cord via an osmotic minipump (Alzet); controls received cytochrome C. At seven or 10 days, the pump was removed and L4 or L5 dorsal root ganglion exposed and injected with 50μCi of [3H]leucine. Animals were killed 24h later, the sciatic nerves removed, cut into 3mm segments and the radioactivity in each segment determined by liquid scintillation spectrophotometry. Maximal regeneration distances (determined from the front of the resultant transport curves) were similarly reduced (by approximately 6mm) in nerve growth factor-infused compared to cytochrome C-infused rats. Thus, regeneration rates (determined between eight and 11 days) were unaltered by nerve growth factor infusion; regeneration rates from cytochrome C-infused and nerve growth factor-infused animals were 2.8mm/day and 3.1mm/day, respectively. However, nerve growth factor significantly (P<0.005) increased the delay to onset for regeneration by two days. Taken together, the present study demonstrates that nerve growth factor delays the onset of regeneration without affecting the rate of regeneration. The results implicate the involvement of at least two signals in the regulation of axonal regeneration in dorsal root ganglion neurons. It is suggested that the loss of nerve growth factor serves as an early, induction signal regulating the onset of regeneration and that a second, unidentified signal independently serves to maintain regeneration.
AbstractList While it is well established that nerve growth factor is growth promoting for sensory neurons in culture, it is unclear whether it serves such a function in vivo. In fact, our previous studies led to the hypothesis that nerve growth factor could actually impair axonal regeneration by reducing the neuronal cell body response to injury. In the present study, the consequence of continuous intrathecal infusion of nerve growth factor on regeneration of sensory neurons was examined in rats given a bilateral sciatic nerve crush. Rats received nerve growth factor (125ng/h) as a continuous infusion into the subarachnoid space of the lumbar spinal cord via an osmotic minipump (Alzet); controls received cytochrome C. At seven or 10 days, the pump was removed and L4 or L5 dorsal root ganglion exposed and injected with 50μCi of [3H]leucine. Animals were killed 24h later, the sciatic nerves removed, cut into 3mm segments and the radioactivity in each segment determined by liquid scintillation spectrophotometry. Maximal regeneration distances (determined from the front of the resultant transport curves) were similarly reduced (by approximately 6mm) in nerve growth factor-infused compared to cytochrome C-infused rats. Thus, regeneration rates (determined between eight and 11 days) were unaltered by nerve growth factor infusion; regeneration rates from cytochrome C-infused and nerve growth factor-infused animals were 2.8mm/day and 3.1mm/day, respectively. However, nerve growth factor significantly (P<0.005) increased the delay to onset for regeneration by two days. Taken together, the present study demonstrates that nerve growth factor delays the onset of regeneration without affecting the rate of regeneration. The results implicate the involvement of at least two signals in the regulation of axonal regeneration in dorsal root ganglion neurons. It is suggested that the loss of nerve growth factor serves as an early, induction signal regulating the onset of regeneration and that a second, unidentified signal independently serves to maintain regeneration.
While it is well established that nerve growth factor is growth promoting for sensory neurons in culture, it is unclear whether it serves such a function in vivo. In fact, our previous studies led to the hypothesis that nerve growth factor could actually impair axonal regeneration by reducing the neuronal cell body response to injury. In the present study, the consequence of continuous intrathecal infusion of nerve growth factor on regeneration of sensory neurons was examined in rats given a bilateral sciatic nerve crush. Rats received nerve growth factor (125 ng/h) as a continuous infusion into the subarachnoid space of the lumbar spinal cord via an osmotic minipump (Alzet); controls received cytochrome C. At seven or 10 days, the pump was removed and L4 or L5 dorsal root ganglion exposed and injected with 50 microCi of (3H)leucine. Animals were killed 24 h later, the sciatic nerves removed, cut into 3 mm segments and the radioactivity in each segment determined by liquid scintillation spectrophotometry. Maximal regeneration distances (determined from the front of the resultant transport curves) were similarly reduced (by approximately 6 mm) in nerve growth factor-infused compared to cytochrome C-infused rats. Thus, regeneration rates (determined between eight and 11 days) were unaltered by nerve growth factor infusion; regeneration rates from cytochrome C-infused and nerve growth factor-infused animals were 2.8 mm/day and 3.1 mm/day, respectively. However, nerve growth factor significantly (P < 0.005) increased the delay to onset for regeneration by two days. Taken together, the present study demonstrates that nerve growth factor delays the onset of regeneration without affecting the rate of regeneration. The results implicate the involvement of at least two signals in the regulation of axonal regeneration in dorsal root ganglion neurons. It is suggested that the loss of nerve growth factor serves as an early, induction signal regulating the onset of regeneration and that a second, unidentified signal independently serves to maintain regeneration.
While it is well established that nerve growth factor is growth promoting for sensory neurons in culture, it is unclear whether it serves such a function in vivo. In fact, our previous studies led to the hypothesis that nerve growth factor could actually impair axonal regeneration by reducing the neuronal cell body response to injury. In the present study, the consequence of continuous intrathecal infusion of nerve growth factor on regeneration of sensory neurons was examined in rats given a bilateral sciatic nerve crush. Rats received nerve growth factor (125 ng/h) as a continuous infusion into the subarachnoid space of the lumbar spinal cord via an osmotic minipump (Alzet); controls received cytochrome C. At seven or 10 days, the pump was removed and L4 or L5 dorsal root ganglion exposed and injected with 50 microCi of (3H)leucine. Animals were killed 24 h later, the sciatic nerves removed, cut into 3 mm segments and the radioactivity in each segment determined by liquid scintillation spectrophotometry. Maximal regeneration distances (determined from the front of the resultant transport curves) were similarly reduced (by approximately 6 mm) in nerve growth factor-infused compared to cytochrome C-infused rats. Thus, regeneration rates (determined between eight and 11 days) were unaltered by nerve growth factor infusion; regeneration rates from cytochrome C-infused and nerve growth factor-infused animals were 2.8 mm/day and 3.1 mm/day, respectively. However, nerve growth factor significantly (P &lt; 0.005) increased the delay to onset for regeneration by two days. Taken together, the present study demonstrates that nerve growth factor delays the onset of regeneration without affecting the rate of regeneration. The results implicate the involvement of at least two signals in the regulation of axonal regeneration in dorsal root ganglion neurons. It is suggested that the loss of nerve growth factor serves as an early, induction signal regulating the onset of regeneration and that a second, unidentified signal independently serves to maintain regeneration.
Author Gold, B.G
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IsPeerReviewed true
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Issue 4
Keywords axonal regeneration
rat
nerve growth factor
DRG, dorsal root ganglion
dorsal root ganglion
NGF, nerve growth factor
sensory neurons
sciatic nerve
Regeneration
Spinal cord
Vertebrata
Mammalia
Rat
Rodentia
Central nervous system
Nerve growth factor
Sensory neuron
Spinal ganglion
Sciatic nerve
Language English
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Snippet While it is well established that nerve growth factor is growth promoting for sensory neurons in culture, it is unclear whether it serves such a function in...
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SubjectTerms Animals
axonal regeneration
Axons - drug effects
Biological and medical sciences
Development. Senescence. Regeneration. Transplantation
dorsal root ganglion
Fundamental and applied biological sciences. Psychology
Ganglia, Spinal - cytology
Ganglia, Spinal - drug effects
Injections, Spinal
Male
Nerve Crush
nerve growth factor
Nerve Growth Factors - administration & dosage
Nerve Growth Factors - pharmacology
Nerve Regeneration - drug effects
Neurons, Afferent - drug effects
rat
Rats
Rats, Sprague-Dawley
sciatic nerve
Sciatic Nerve - drug effects
Sciatic Nerve - physiology
Sciatic Nerve - ultrastructure
sensory neurons
Vertebrates: nervous system and sense organs
Title Axonal regeneration of sensory nerves is delayed by continuous intrathecal infusion of nerve growth factor
URI https://dx.doi.org/10.1016/S0306-4522(96)00416-2
https://www.ncbi.nlm.nih.gov/pubmed/9027875
https://search.proquest.com/docview/78803342
Volume 76
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