IMMUNOFLUORESCENCE STAINING FOR INFLAMMATION-RELATED MOLECULES
IN THE DORSAL ROOT GANGLIA OF RAT EXPERIMENTAL MODELS OF
PERIPHERAL NEUROPATHIC PAIN

D 2005

IMMUNOFLUORESCENCE STAINING FOR INFLAMMATION-RELATED MOLECULES IN THE DORSAL ROOT GANGLIA OF RAT EXPERIMENTAL MODELS OF PERIPHERAL NEUROPATHIC PAIN

PEJCHALOVÁ, Kateřina, Petr DUBOVÝ, Radim JANČÁLEK, Ilona KLUSÁKOVÁ, Ivana SVÍŽENSKÁ et. al.

Základní údaje

Originální název

IMMUNOFLUORESCENCE STAINING FOR INFLAMMATION-RELATED MOLECULES IN THE DORSAL ROOT GANGLIA OF RAT EXPERIMENTAL MODELS OF PERIPHERAL NEUROPATHIC PAIN

Název česky

Imunofluorescenční detekce molekul zánětu ve spinálních gangliích potkana na experimentálních modelech neuropatické bolesti

Autoři

PEJCHALOVÁ, Kateřina, Petr DUBOVÝ, Radim JANČÁLEK, Ilona KLUSÁKOVÁ a Ivana SVÍŽENSKÁ

Vydání

Czech Republic, Fifth conference of the Czech neuroscience society, s. 153-153, 2005

Nakladatel

Czech Neuroscience Society

Další údaje

Jazyk

angličtina

Typ výsledku

Stať ve sborníku

Obor

30000 3. Medical and Health Sciences

Stát vydavatele

Česká republika

Utajení

není předmětem státního či obchodního tajemství

Organizační jednotka

Lékařská fakulta

Klíčová slova anglicky

primary sensory neurons; cytokines; sciatic nerve ligation; IL1-beta; IL-6; TNF-alpha; TNFR; satellite cells

Štítky

cytokines, IL-6, IL1-beta, primary sensory neurons, satellite cells, sciatic nerve ligation, TNF-alpha, TNFR

Změněno: 8. 2. 2010 17:16, prof. RNDr. Petr Dubový, CSc.

Anotace

ORIG CZ

V originále

Peripheral neuropathic pain is induced by an injury or disease of the peripheral nerves, and related with cellular and molecular changes in the peripheral nervous system, spinal cord and brain. The primary sensory neurons of the dorsal root ganglia (DRG) play a key role in neuropathic hypersensibility (1). Several lines of evidence suggest that pro- and anti-inflammatory cytokines are initiators of changes in the activity of DRG neurons (2). Peripheral neuropathic pain has been investigated using rat peripheral nerve injury models including unilateral sciatic and spinal nerve ligation. The experimental models were utilized for the study of immunofluorescence (IF) staining for IL1-beta, IL-6, TNF-alpha and TNFR1 in the rat DRG. Quantitative and qualitative IF changes in the DRG affected by unilateral nerve injury were compared with the contralateral ones removed from operated animals as well as naive rats. Ipsi- and contralateral DRG displayed increased IF for TNF-alpha and TNFR1 when compared with DRG of naive rats. The TNF-alpha IF was increased in both DRG neurons and their satellite glial cells, while enhanced IF for TNFR1 was observed only at the surface of satellite glial cells after various types of nerve injury. In addition, ipsilateral DRG exhibited an elevation of TNF-alpha immunoreactivity by invaded ED-1+ macrophages. The IL1-beta IF was increased in the DRG neurons following sciatic and spinal nerve constriction. A higher level of IF for IL-6 was observed in the DRG neurons and their satellite glial cells. The results suggest that changes in proinflammatory cytokines and their receptors belong to a highly complex response to nerve lesion inducing neuropathic pain. (1) Woolf C.J., Mannion R.J.: Lancet 353: 1959-1964, 1999. (2) Schafers M., Lee D.H., Brors D. et al.: J. Neurosci. 23:3028ĄV3038, 2003. The study was supported by grants 309/03/1199 and MSM0021622404.

Česky

Primární sensorické neurony spinálních ganglií hrají klíčovou roli v rozvoji neuropatické bolesti. Pro- a protizánětlivé cytokiny jsou iniciátory změn aktivity těchto neuronů.

Návaznosti

MSM0021622404, záměr

Název: Vnitřní organizace a neurobiologické mechanismy funkčních systémů CNS

Investor: Ministerstvo školství, mládeže a tělovýchovy ČR, Vnitřní organizace a neurobiologické mechanismy funkčních systémů CNS

Citovat

PEJCHALOVÁ, Kateřina, Petr DUBOVÝ, Radim JANČÁLEK, Ilona KLUSÁKOVÁ a Ivana SVÍŽENSKÁ. IMMUNOFLUORESCENCE STAINING FOR INFLAMMATION-RELATED MOLECULES IN THE DORSAL ROOT GANGLIA OF RAT EXPERIMENTAL MODELS OF PERIPHERAL NEUROPATHIC PAIN. In Fifth conference of the Czech neuroscience society. Czech Republic: Czech Neuroscience Society, 2005, s. 153.

@inproceedings{626344,
   author = {Pejchalová, Kateřina and Dubový, Petr and Jančálek, Radim and Klusáková, Ilona and Svíženská, Ivana},
   address = {Czech Republic},
   booktitle = {Fifth conference of the Czech neuroscience society},
   keywords = {primary sensory neurons; cytokines; sciatic nerve ligation; IL1-beta; IL-6; TNF-alpha; TNFR; satellite cells},
   language = {eng},
   location = {Czech Republic},
   pages = {153-153},
   publisher = {Czech Neuroscience Society},
   title = {IMMUNOFLUORESCENCE STAINING FOR INFLAMMATION-RELATED MOLECULES IN THE DORSAL ROOT GANGLIA OF RAT EXPERIMENTAL MODELS OF PERIPHERAL NEUROPATHIC PAIN},
   year = {2005}
}

TY  - JOUR
ID  - 626344
AU  - Pejchalová, Kateřina - Dubový, Petr - Jančálek, Radim - Klusáková, Ilona - Svíženská, Ivana
PY  - 2005
TI  - IMMUNOFLUORESCENCE STAINING FOR INFLAMMATION-RELATED MOLECULES IN THE DORSAL ROOT GANGLIA OF RAT EXPERIMENTAL MODELS OF PERIPHERAL NEUROPATHIC PAIN
PB  - Czech Neuroscience Society
CY  - Czech Republic
KW  - primary sensory neurons
KW  - cytokines
KW  - sciatic nerve ligation
KW  - IL1-beta
KW  - IL-6
KW  - TNF-alpha
KW  - TNFR
KW  - satellite cells
N2  - Peripheral neuropathic pain is induced by an injury or disease of the peripheral nerves, and related with cellular and molecular changes in the peripheral nervous system, spinal cord and brain. The primary sensory neurons of the dorsal root ganglia (DRG) play a key role in neuropathic hypersensibility (1). Several lines of evidence suggest that pro- and anti-inflammatory cytokines are initiators of changes in the activity of DRG neurons (2). Peripheral neuropathic pain has been investigated using rat peripheral nerve injury models including unilateral sciatic and spinal nerve ligation. The experimental models were utilized for the study of immunofluorescence (IF) staining for IL1-beta, IL-6, TNF-alpha and TNFR1 in the rat DRG. Quantitative and qualitative IF changes in the DRG affected by unilateral nerve injury were compared with the contralateral ones removed from operated animals as well as naive rats. Ipsi- and contralateral DRG displayed increased IF for TNF-alpha and TNFR1 when compared with DRG of naive rats. The TNF-alpha IF was increased in both DRG neurons and their satellite glial cells, while enhanced IF for TNFR1 was observed only at the surface of satellite glial cells after various types of nerve injury. In addition, ipsilateral DRG exhibited an elevation of TNF-alpha immunoreactivity by invaded ED-1+ macrophages. The IL1-beta IF was increased in the DRG neurons following sciatic and spinal nerve constriction. A higher level of IF for IL-6 was observed in the DRG neurons and their satellite glial cells. The results suggest that changes in proinflammatory cytokines and their receptors belong to a highly complex response to nerve lesion inducing neuropathic pain. (1) Woolf C.J., Mannion R.J.: Lancet 353: 1959-1964, 1999. (2) Schafers M., Lee D.H., Brors D. et al.: J. Neurosci. 23:3028ĄV3038, 2003. The study was supported by grants 309/03/1199 and MSM0021622404.
ER  -

PEJCHALOVÁ, Kateřina, Petr DUBOVÝ, Radim JANČÁLEK, Ilona KLUSÁKOVÁ a Ivana SVÍŽENSKÁ. IMMUNOFLUORESCENCE STAINING FOR INFLAMMATION-RELATED MOLECULES IN THE DORSAL ROOT GANGLIA OF RAT EXPERIMENTAL MODELS OF PERIPHERAL NEUROPATHIC PAIN. In \textit{Fifth conference of the Czech neuroscience society}. Czech Republic: Czech Neuroscience Society, 2005, s.~153.

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