Neuronal hyperactivity at the spinal cord and periaqueductal grey during painful diabetic neuropathy: Effects of gabapentin
Carla Morgado,
Patrícia Pereira Terra,
Isaura Tavares,
Carla Morgado
Institute of Histology and Embryology, Faculty of Medicine of Porto and IBMC, University of Porto, Portugal
Search for more papers by this authorPatrícia Pereira Terra
Institute of Histology and Embryology, Faculty of Medicine of Porto and IBMC, University of Porto, Portugal
Search for more papers by this authorCorresponding Author
Isaura Tavares
Institute of Histology and Embryology, Faculty of Medicine of Porto and IBMC, University of Porto, Portugal
Institute of Histology and Embryology, Faculty of Medicine of Porto, Alameda Professor Hernâni Monteiro, 4200-319 Porto, Portugal. Tel.: +351 22 551 36 54; fax: +351 22 551 36 55.[email protected]Search for more papers by this authorCarla Morgado,
Patrícia Pereira Terra,
Isaura Tavares,
Carla Morgado
Institute of Histology and Embryology, Faculty of Medicine of Porto and IBMC, University of Porto, Portugal
Search for more papers by this authorPatrícia Pereira Terra
Institute of Histology and Embryology, Faculty of Medicine of Porto and IBMC, University of Porto, Portugal
Search for more papers by this authorCorresponding Author
Isaura Tavares
Institute of Histology and Embryology, Faculty of Medicine of Porto and IBMC, University of Porto, Portugal
Institute of Histology and Embryology, Faculty of Medicine of Porto, Alameda Professor Hernâni Monteiro, 4200-319 Porto, Portugal. Tel.: +351 22 551 36 54; fax: +351 22 551 36 55.[email protected]Search for more papers by this authorAbstract
Painful diabetic neuropathy may be due to impairments in descending modulation of nociceptive transmission at the spinal cord. In the present study, streptozotocin diabetic rats (STZ rats) with neuropathic symptoms (mechanical hypersensitivity) were used to perform a time-course evaluation of neuronal activity at the spinal dorsal horn and at the periaqueductal grey matter (PAG), a major brainstem area of pain modulation. The expression of Fos protein, a marker of nociceptive activation, progressively increased at the spinal dorsal horn at 4 and 10 weeks. At the PAG, increases in Fos expression were detected until the 4th week, with a reversal to baseline values at 10 weeks in all areas except the ventrolateral PAG. Co-localisation of Fos with NeuN ascertained the neuronal nature of Fos-expressing cells at the spinal cord and PAG. Four weeks after diabetes induction, the effects of gabapentin (i.p. injection of 50 mg/kg, daily during 3 days) were assessed. Gabapentin decreased Fos expression at the spinal cord and PAG and reversed mechanical hypersensitivity. The present study shows that diabetic neuropathy is accompanied by a progressive increase of the spontaneous neuronal activity at the spinal cord. Changes in descending modulation of nociceptive transmission from the PAG are likely to occur during diabetic neuropathy, probably with exacerbation of facilitatory actions. The effects of gabapentin in reversing the behavioural signs of diabetic neuropathy and neuronal hyperactivity in the spinal cord and PAG reinforce the central causes of diabetic neuropathy and point to the central targets of the drug.
References
- M.M. Behbehani Functional characteristics of the midbrain periaqueductal gray. Prog Neurobiol 46 1995 575–605.
- J. Benbow, A.W. Chan, D. Bowsher, I.A. MacFarlane, G. Williams A prospective study of painful symptoms, small-fibre function and peripheral vascular disease in chronic painful diabetic neuropathy. Diabetic Med 11 1994 17–21.
- H. Bester, S. Beggs, C.J. Woolf Changes in tactile stimuli-induced behavior and c-fos expression in the superficial dorsal horn and in parabrachial nuclei after sciatic nerve crush. J Comp Neurol 428 2000 45–61.
- W. Bullit, C.L. Lee, A. Light, H. Willcockson The effect of stimulus duration on noxious-stimulus induced c-fos expression in the rodent spinal cord. Brain Res 580 1992 172–179.
- K.J. Burchiel, L.C. Russell, R.P. Lee, A.A. Sima Spontaneous activity of primary afferent neurons in diabetic BB/Wistar rats. A possible mechanism of chronic diabetic neuropathic pain. Diabetes 34 1985 1210–1213.
- S.E. Burgess, L.R. Gardell, M.H. Ossipov, T.P. Malan Jr, T.W. Vanderah, J. Lai et al. Time-dependent descending facilitation from the rostral ventromedial medulla maintains, but does not initiate, neuropathic pain. J Neurosci 22 2002 5129–5136.
- N.A. Calcutt, J.D. Freshwater, A.P. Mizisin Prevention of sensory disorders in diabetic Sprague–Dawley rats by aldose reductase inhibition or treatment with ciliary neurotrophic factor. Diabetologia 47 2004 718–724.
- N.A. Calcutt Modeling diabetic sensory neuropathy in rats. Methods Mol Med 99 2004 55–65.
- H. Cao, Y.Q. Zhang Spinal glial activation contributes to pathological pain states. Neurosci Biobehav Rev 32 2008 972–983.
- G. Catheline, S. Le Guen, P. Honoré, J.M. Besson Are there long-term changes in the basal or evoked Fos expression in the dorsal horn of the spinal cord of the mononeuropathic rat?. Pain 80 1999 347–357.
- R.M. Cesenã, N.A. Calcutt Gabapentin prevents hyperalgesia during the formalin test in diabetic rats. Neurosci Lett 262 1999 101–104.
- S.R. Chen, H.L. Pan Hypersensitivity of spinothalamic tract neurons associated with diabetic neuropathic pain in rats. J Neurophysiol 87 2002 2726–2733.
- B.A. Chizh, T. Priestley, M. Rowbotham, K. Schaffler Predicting therapeutic efficacy – experimental pain in human subjects. Brain Res Rev 60 2009 243–254.
- R.E. Coggeshall Fos, nociception and the dorsal horn. Prog Neurobiol 77 2005 299–352.
-
K.G. Commons,
S.A. Aicher,
L.-M. Kow,
D.W. Pfaff
Presynaptic and postsynaptic relations of μ-opioid receptors to γ-aminobutyric acid-immunoreactive and medullary-projecting periaqueductal gray neurons.
J Comp Neurol
419 2000 532–542.
10.1002/(SICI)1096-9861(20000417)419:4<532::AID-CNE8>3.0.CO;2-6 CAS PubMed Web of Science® Google Scholar
-
C. Courteix,
A. Eschalier,
J. Lavarenne
Streptozotocin-induced diabetic rats: behavioural evidence for a model of chronic pain.
Pain
53 1993 81–88.
10.1016/0304-3959(93)90059-X Google Scholar
- Y. Dai, K. Iwata, E. Kondo, T. Morimoto, K. Noguchi A selective increase in Fos expression in spinal dorsal horn neurons following graded thermal stimulation in rats with experimental mononeuropathy. Pain 90 2001 287–296.
- S.E. Eaton, N.D. Harris, S.M. Rajbhandari, P. Greenwood, I.D. Wilkinson, J.D. Ward et al. Spinal-cord involvement in diabetic peripheral neuropathy. Lancet 358 2001 35–36.
- A. Fox, C. Eastwood, C. Gentry, D. Manning, L. Urban Critical evaluation of the streptozotocin model of diabetic neuropathy in the rat. Pain 81 1999 307–316.
-
P. Freychet
Insulin receptors and insulin actions in the nervous system.
Diabetes Metab Res Rev
16 2000 390–392.
10.1002/1520-7560(200011/12)16:6<390::AID-DMRR161>3.0.CO;2-T CAS PubMed Web of Science® Google Scholar
- S. Gouty, J. Regalia, F. Cai, C.J. Helke A-Lipoic acid treatment prevents the diabetes-induced attenuation of the afferent limb of the baroreceptor reflex rats. Auton Neurosci 108 2003 32–44.
- J.A. Harris Using c-fos as a neural marker of pain. Brain Res Bull 45 1998 1–8.
- K. Hayashida, S. DeGoes, R. Curry, J.C. Eisenach Gabapentin activates spinal noradrenergic activity in rats and humans and reduces hypersensitivity after surgery. Anaesthesiol 106 2007 557–562.
- K. Hayashida, H. Obata, K. Nakajima, J.C. Eisenach Gabapentin acts within the Locus Coeruleus to alleviate neuropathic pain. Anaesthesiol 109 2008 1077–1084.
- T. Herdegen, J.D. Leah Inducible and constitutive transcription factors in the mammalian nervous system: control of gene expression by Jun, Fos and Krox, and CREB/ATF proteins. Brain Res Rev 28 1998 370–490.
- S.P. Hunt, A. Pini, G. Evan Induction of c-fos-like protein in spinal cord neurons following sensory stimulation. Nature 328 1987 632–634.
- K. Inoue, M. Tsuda Microglia and neuropathic pain. Glia 57 2009 1469–1479.
- M.H. Jang, H.K. Chang, M.C. Shin, T.H. Lee, Y.P. Kim, E.H. Kim et al. Effect of ginseng radix on c-fos expression in the hippocampus of streptozotocin-induced diabetic rats. J Pharmacol Sci 91 2003 149–152.
- S. Jergova, D. Cizkova Long-term changes of c-fos expression in the rat spinal cord following chronic constriction injury. Eur J Pain 9 2005 345–354.
- K.C. Kajander, A.M. Madsen, M.J. Iadarola, G. Draisci, S. Wakisaka Fos-like immunoreactivity increases in the lumbar spinal cord following a chronic constriction injury to the sciatic nerve of rat. Neurosci Lett 206 1996 9–12.
- J. Kamei, T. Aoki, Y. Kasuya Periaqueductal gray matter stimulation-produced analgesia in diabetic rats. Neurosci Lett 142 (1) 1992 13–16 [August 3].
-
K.A. Keay,
R. Bandler
Periaqueductal gray. G. Paxinos
The rat nervous system 3rd ed. 2004 Elsevier Academic Press: Oxford p. 243–257.
10.1016/B978-012547638-6/50011-0 Google Scholar
- K. Kosai, S. Tateyama, T. Ikeda, T. Uno, T. Nishimori, M. Takasaki MK-801 reduces nonnoxious stimulus-evoked Fos-like immunoreactivity in the spinal cord of rats with chronic constriction nerve injury. Brain Res 910 2001 12–18.
- D. Last, D.C. Alsop, A.M. Abduljalil, R.P. Marquis, C. de Bazelaire, K. Hu et al. Global and regional effects of type 2 diabetes on brain tissue volumes and cerebral vasoreactivity. Diabetes Care 30 2007 1193–1199.
- T.A. Lovick Pro-nociceptive action of cholecystokinin in the periaqueductal grey: a role in neuropathic and anxiety-induced hyperalgesic states. Neurosci Biobehav Rev 32 2008 852–882.
- Q.P. Ma, C.J. Woolf Basal and touch-evoked fos-like immunoreactivity during experimental inflammation in the rat. Pain 67 1996 307–316.
- M. Malcangio, D.R. Tomlinson A pharmacologic analysis of mechanical hyperalgesia in streptozotocin/diabetic rats. Pain 76 1998 151–157.
- A.H. Mokdad, E.S. Ford, B.A. Bowman, D.E. Nelson, M.M. Engelgau, F. Vinicor et al. Diabetes trends in the US: 1990–1998. Diabetes Care 23 2000 1278–1283.
- K.A. Moore, H. Baba, C.J. Woolf Gabapentin – actions on adult superficial dorsal horn neurons. Neuropharmacol 43 2002 1077–1081.
- C. Morgado, I. Tavares C-fos expression at the spinal dorsal horn of streptozotocin-induced diabetic rats. Diabetes Metab Res Rev 23 2007 644–652.
- C. Morgado, F. Pinto-Ribeiro, I. Tavares Diabetes affects the expression of GABA and potassium chloride cotransporter in the spinal cord: a study in streptozotocin diabetic rats. Neurosci Lett 438 (1) 2008 102–106 [June 13].
- S.A. Owolabi, C.Y. Saab Fractalkine and minocycline alter neuronal activity in the spinal cord dorsal horn. FEBS Lett 580 2006 4306–4310.
- M.K. Patel, M.I. Gonzalez, S. Bramwell, R.D. Pinnock, K. Lee Gabapentin inhibits excitatory synaptic transmission in the hyperalgesic spinal cord. Brit J Pharmacol 130 2000 1731–1734.
- P.E. Paulson, J.W. Wiley, T.J. Morrow Concurrent activation of the somatosensory forebrain and deactivation of periaqueductal gray associated with diabetes-induced neuropathic pain. Exp Neurol 208 2007 305–313.
- G. Paxinos, C. Watson The rat brain in stereotaxic coordinates 5th ed. 2005 Elsevier Academic Press: Oxford.
- A. Pertovaara, H. Wei, J. Kalmari, M. Ruotsalainen Pain behavior and response properties of spinal dorsal horn neurons following experimental diabetic neuropathy in the rat: modulation by nitecapone, a COMT inhibitor with antioxidant properties. Exp Neurol 167 2001 425–434.
- M. Pinto, D. Lima, I. Tavares Correlation of noxious evoked c-fos expression in areas of the somatosensory system during chronic pain: involvement of spino-medullary and intra-medullary connections. Neurosci Lett 409 2006 100–105.
- M. Pinto, D. Lima, I. Tavares Neuronal activation at the spinal cord and medullary pain control centers after joint stimulation: a c-fos study in acute and chronic articular inflammation. Neuroscience 147 2007 1076–1089.
- R.W. Presley, D. Menetrey, J.D. Levine, A.I. Basbaum Systemic morphine suppresses noxious stimulus-evoked Fos protein-like immunoreactivity in the rat spinal cord. J Neurosci 10 1990 323–335.
- C.J. Reissig, R.A. Rabin, J.C. Winter, C.A. Duglos D- LSD- induced c-fos expression occurs in a population of oligodendrocytes in rat prefrontal cortex. Eur J Pharmacol 583 2008 40–47.
- Y. Revsin, F. Saravia, P. Roig, A. Lima, E.R. de Kloet, F. Homo-Delarche et al. Neuronal and astroglial alterations in the hippocampus of a mouse model for type 1 diabetes. Brain Res 1038 2005 22–31.
- A. Tokunaga, E. Kondo, T. Fukuoka, K. Miki, Y. Dai, H. Tsujino et al. Excitability of spinal cord and gracile nucleus neurons in rats with chronically injured sciatic nerve examined by c-fos expression. Brain Res 847 1999 321–331.
- Y. Tsai, E.C. So, H.H. Chen, L.K. Wang, C.H. Chien Effect of intrathecal octreotide on thermal hyperalgesia and evoked spinal c-fos expression in rats with sciatic constriction injury. Pain 99 2002 407–413.
- R. Terayama, Y. Guan, R. Dubner, K. Ren Activity-induced plasticity in brain stem pain modulatory circuitry after inflammation. Neuroreport 11 2000 1915–1919.
- M. Tsuda, H. Ueno, A. Kataoka, H. Tozaki-Saitoh, K. Inoue Activation of dorsal horn microglia contributes to diabetes-induced tactile allodynia via extracellular signal-regulated protein kinase signaling. Glia 56 (4) 2008 378–386.
- H. Vanegas, H.G. Schaible Descending control of persistent pain: inhibitory or facilitatory?. Brain Res Rev 46 2004 295–309.
- C.W. Vaughan, S.L. Ingram, M.A. Connor, M.J. Christie How opioids inhibit GABA-mediated neurotransmission. Nature 390 1997 611–614.
- A. Vinik Clinical review: use of antiepilectic drugs in the treatment of chronic painful diabetic neuropathy. J Clin Endocrinol Metab 90 2005 4936–4945.
- S. Williams, G. Evan, S.P. Hunt C-fos induction in the spinal cord after peripheral nerve lesion. Eur J Neurosci 3 1991 887–894.
- R. Wodarski, A.K. Clark, J. Grist, F. Marchand, M. Malcangio Gabapentin reverses migroglial activation in the spinal cord of streptozotocin-induced diabetic rats. Eur J Pain 13 2009 807–811.
- X.J. Zhang, Z. Li, E.K.Y. Chung, K.Q. Zhang, H.X. Xu, Z. Sung et al. Activation of extracellular signal regulatory protein kinase is associated with colorectal distension-induced spinal and supraspinal neuronal responses and neonatal maternal separation-induced visceral hyperlagesia in rats. J Mol Neurosci 37 2009 274–287.
- H. Zheng, Y.-F. Li, M. Weiss, W.G. Mayhan, K.P. Patel Neuronal expression of fos protein in the forebrain of diabetic rats. Brain Res 956 2002 268–275.
- M. Zimmermann Ethical guidelines for investigations of experimental pain in conscious animals. Pain 16 1983 109–110.
Citing Literature
