Proteomic profiling of neuromas reveals alterations in protein composition and local protein synthesis in hyper-excitable nerves
<p>Abstract</p> <p>Neuropathic pain may arise following peripheral nerve injury though the molecular mechanisms associated with this are unclear. We used proteomic profiling to examine changes in protein expression associated with the formation of hyper-excitable neuromas derived f...
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SAGE Publishing
2008-08-01
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| Series: | Molecular Pain |
| Online Access: | http://www.molecularpain.com/content/4/1/33 |
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doaj-fe118aa17b8745ad9a78cf2f5bf60b422020-11-25T03:16:23ZengSAGE PublishingMolecular Pain1744-80692008-08-01413310.1186/1744-8069-4-33Proteomic profiling of neuromas reveals alterations in protein composition and local protein synthesis in hyper-excitable nervesTimms John FCramer RainerOkuse KenjiRoza CarolinaCendan Cruz-MiguelHuang Hong-LeiWood John N<p>Abstract</p> <p>Neuropathic pain may arise following peripheral nerve injury though the molecular mechanisms associated with this are unclear. We used proteomic profiling to examine changes in protein expression associated with the formation of hyper-excitable neuromas derived from rodent saphenous nerves. A two-dimensional difference gel electrophoresis (2D-DIGE) profiling strategy was employed to examine protein expression changes between developing neuromas and normal nerves in whole tissue lysates. We found around 200 proteins which displayed a >1.75-fold change in expression between neuroma and normal nerve and identified 55 of these proteins using mass spectrometry. We also used immunoblotting to examine the expression of low-abundance ion channels Nav1.3, Nav1.8 and calcium channel α2δ-1 subunit in this model, since they have previously been implicated in neuronal hyperexcitability associated with neuropathic pain. Finally, S<sup>35</sup>methionine in vitro labelling of neuroma and control samples was used to demonstrate local protein synthesis of neuron-specific genes. A number of cytoskeletal proteins, enzymes and proteins associated with oxidative stress were up-regulated in neuromas, whilst overall levels of voltage-gated ion channel proteins were unaffected. We conclude that altered mRNA levels reported in the somata of damaged DRG neurons do not necessarily reflect levels of altered proteins in hyper-excitable damaged nerve endings. An altered repertoire of protein expression, local protein synthesis and topological re-arrangements of ion channels may all play important roles in neuroma hyper-excitability.</p> http://www.molecularpain.com/content/4/1/33 |
| collection |
DOAJ |
| language |
English |
| format |
Article |
| sources |
DOAJ |
| author |
Timms John F Cramer Rainer Okuse Kenji Roza Carolina Cendan Cruz-Miguel Huang Hong-Lei Wood John N |
| spellingShingle |
Timms John F Cramer Rainer Okuse Kenji Roza Carolina Cendan Cruz-Miguel Huang Hong-Lei Wood John N Proteomic profiling of neuromas reveals alterations in protein composition and local protein synthesis in hyper-excitable nerves Molecular Pain |
| author_facet |
Timms John F Cramer Rainer Okuse Kenji Roza Carolina Cendan Cruz-Miguel Huang Hong-Lei Wood John N |
| author_sort |
Timms John F |
| title |
Proteomic profiling of neuromas reveals alterations in protein composition and local protein synthesis in hyper-excitable nerves |
| title_short |
Proteomic profiling of neuromas reveals alterations in protein composition and local protein synthesis in hyper-excitable nerves |
| title_full |
Proteomic profiling of neuromas reveals alterations in protein composition and local protein synthesis in hyper-excitable nerves |
| title_fullStr |
Proteomic profiling of neuromas reveals alterations in protein composition and local protein synthesis in hyper-excitable nerves |
| title_full_unstemmed |
Proteomic profiling of neuromas reveals alterations in protein composition and local protein synthesis in hyper-excitable nerves |
| title_sort |
proteomic profiling of neuromas reveals alterations in protein composition and local protein synthesis in hyper-excitable nerves |
| publisher |
SAGE Publishing |
| series |
Molecular Pain |
| issn |
1744-8069 |
| publishDate |
2008-08-01 |
| description |
<p>Abstract</p> <p>Neuropathic pain may arise following peripheral nerve injury though the molecular mechanisms associated with this are unclear. We used proteomic profiling to examine changes in protein expression associated with the formation of hyper-excitable neuromas derived from rodent saphenous nerves. A two-dimensional difference gel electrophoresis (2D-DIGE) profiling strategy was employed to examine protein expression changes between developing neuromas and normal nerves in whole tissue lysates. We found around 200 proteins which displayed a >1.75-fold change in expression between neuroma and normal nerve and identified 55 of these proteins using mass spectrometry. We also used immunoblotting to examine the expression of low-abundance ion channels Nav1.3, Nav1.8 and calcium channel α2δ-1 subunit in this model, since they have previously been implicated in neuronal hyperexcitability associated with neuropathic pain. Finally, S<sup>35</sup>methionine in vitro labelling of neuroma and control samples was used to demonstrate local protein synthesis of neuron-specific genes. A number of cytoskeletal proteins, enzymes and proteins associated with oxidative stress were up-regulated in neuromas, whilst overall levels of voltage-gated ion channel proteins were unaffected. We conclude that altered mRNA levels reported in the somata of damaged DRG neurons do not necessarily reflect levels of altered proteins in hyper-excitable damaged nerve endings. An altered repertoire of protein expression, local protein synthesis and topological re-arrangements of ion channels may all play important roles in neuroma hyper-excitability.</p> |
| url |
http://www.molecularpain.com/content/4/1/33 |
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