Activation of glial glutamate transporter via MAPK p38 prevents enhanced and long-lasting non-evoked resting pain after surgical incision in rats
Reichl S, Segelcke D, Keller V, Jonas R, Boecker A, Wenk M, Evers D, Zahn PK, Pogatzki-Zahn EM (2016)
Neuropharmacology 105: 607-617.
Zeitschriftenaufsatz
| Veröffentlicht | Englisch
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Autor*in
Reichl, Sylvia;
Segelcke, Daniel;
Keller, Viktor;
Jonas, RobinUniBi ;
Boecker, Armin;
Wenk, Manuel;
Evers, Dagmar;
Zahn, Peter K.;
Pogatzki-Zahn, Esther M.
Abstract / Bemerkung
Pain after surgery has recently become a major issue not only due to lack of treatment success in the acute phase; even more alarming is the large number of patients developing prolonged pain after surgery. Because spinal glutamate as well as spinal glia plays a major role in acute incisional pain, we investigated the role of the spinal glial glutamate transporters (GT), GLAST, GLT-1, for acute and prolonged pain and hyperalgesia caused by an incision. Spinal administration of the GT-inhibitor DL-TBOA increased non-evoked pain but not evoked pain behavior (hyperalgesia) up to 2 weeks after incision. In accordance, spinal GLAST (and to a lesser degree GLT-1) were upregulated after incision for several days. Long-term incision induced GT upregulation was prevented by long-lasting p38-inhibitor administration but not by long-lasting ERK1/2-inhibition after incision. In accordance, daily treatment with the p38-inhibitor (but not the ERK1/2 inhibitor) prolonged non-evoked but not evoked pain behavior after incision. In electrophysiological experiments, spontaneous activity of high threshold (HT) (but not wide dynamic range (WDR)) neurons known to transmit incision induced non-evoked pain was increased after prolonged treatment with the p38-inhibitor. In conclusion, our findings indicate a new spinal pathway by which non-evoked pain behavior after incision is modulated. The pathway is modality (non-evoked pain) and neuron (HT) specific and disturbance contributes to prolonged long-term pain after surgical incision. This may have therapeutic implications for the treatment of acute and – even more relevant – for prevention of chronic pain after surgery in patients.
Erscheinungsjahr
2016
Zeitschriftentitel
Neuropharmacology
Band
105
Seite(n)
607-617
ISSN
0028-3908
Page URI
https://pub.uni-bielefeld.de/record/2967448
Zitieren
Reichl S, Segelcke D, Keller V, et al. Activation of glial glutamate transporter via MAPK p38 prevents enhanced and long-lasting non-evoked resting pain after surgical incision in rats. Neuropharmacology. 2016;105:607-617.
Reichl, S., Segelcke, D., Keller, V., Jonas, R., Boecker, A., Wenk, M., Evers, D., et al. (2016). Activation of glial glutamate transporter via MAPK p38 prevents enhanced and long-lasting non-evoked resting pain after surgical incision in rats. Neuropharmacology, 105, 607-617. https://doi.org/10.1016/j.neuropharm.2016.02.024
Reichl, Sylvia, Segelcke, Daniel, Keller, Viktor, Jonas, Robin, Boecker, Armin, Wenk, Manuel, Evers, Dagmar, Zahn, Peter K., and Pogatzki-Zahn, Esther M. 2016. “Activation of glial glutamate transporter via MAPK p38 prevents enhanced and long-lasting non-evoked resting pain after surgical incision in rats”. Neuropharmacology 105: 607-617.
Reichl, S., Segelcke, D., Keller, V., Jonas, R., Boecker, A., Wenk, M., Evers, D., Zahn, P. K., and Pogatzki-Zahn, E. M. (2016). Activation of glial glutamate transporter via MAPK p38 prevents enhanced and long-lasting non-evoked resting pain after surgical incision in rats. Neuropharmacology 105, 607-617.
Reichl, S., et al., 2016. Activation of glial glutamate transporter via MAPK p38 prevents enhanced and long-lasting non-evoked resting pain after surgical incision in rats. Neuropharmacology, 105, p 607-617.
S. Reichl, et al., “Activation of glial glutamate transporter via MAPK p38 prevents enhanced and long-lasting non-evoked resting pain after surgical incision in rats”, Neuropharmacology, vol. 105, 2016, pp. 607-617.
Reichl, S., Segelcke, D., Keller, V., Jonas, R., Boecker, A., Wenk, M., Evers, D., Zahn, P.K., Pogatzki-Zahn, E.M.: Activation of glial glutamate transporter via MAPK p38 prevents enhanced and long-lasting non-evoked resting pain after surgical incision in rats. Neuropharmacology. 105, 607-617 (2016).
Reichl, Sylvia, Segelcke, Daniel, Keller, Viktor, Jonas, Robin, Boecker, Armin, Wenk, Manuel, Evers, Dagmar, Zahn, Peter K., and Pogatzki-Zahn, Esther M. “Activation of glial glutamate transporter via MAPK p38 prevents enhanced and long-lasting non-evoked resting pain after surgical incision in rats”. Neuropharmacology 105 (2016): 607-617.
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