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Year 2021, , 1 - 6, 29.03.2021
https://doi.org/10.17776/csj.775122

Abstract

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References

  • [1] Fisher R.S., Acevedo C., Arzimanoglou A., Bogacz A., Cross J. H., Elger C.E., Engel J., Forsgren L., French J.A., Glynn M., Hesdorffer D.C., Lee B.I., Mathern G.W., Moshé S.L., Perucca E., Scheffer I.E., Tomson T., Watanabe M., Wiebe S., ILAE official report: A Practical Clinical Definition of Epilepsy, Epilepsia, 55(4) (2014) 475-482.
  • [2] Chen Z., Brodie M.J., Liew D., Kwan P., Treatment Outcomes in Patients with Newly Diagnosed Epilepsy Treated with Established and New Antiepileptic Drugs: A 30-Year Longitudinal Cohort Study, JAMA Neurol., 75(3) (2018) 279-286.
  • [3] Li Z.H., Li L.L., Jin M.F., Chen X.Q., Sun Q., Ni H., Dysregulation of zinc/lipid metabolism‑associated genes in the rat hippocampus and cerebral cortex in early adulthood following recurrent neonatal seizures, Mol. Med. Rep., 16(4) (2017) 4701-4709.
  • [4] Vezzani A., French J., Bartfai T., Baram T.Z., The role of inflammation in epilepsy, Nat Rev Neurol., 7(1) (2011) 31-40.
  • [5] Li G., Bauer S., Nowak M., Norwood B., Tackenberg, B., Rosenow F., Knake S., Oertel W.H., Hamer H.M., Cytokines and Epilepsy. Seizure, 20(3) (2011) 249-256.
  • [6] Rawat C., Kukal S., Dahiya U.R., Kukreti R., Cyclooxygenase-2 (COX-2) inhibitors: future therapeutic strategies for epilepsy management, J Neuroinflammation, 16(1) (2019) 1-15.
  • [7] Sumbul O., Aygun H., The effect of vitamin D3 and paricalcitol on penicillin-induced epileptiform activity in rats., Epilepsy Res., 159 (2020) 106262.
  • [8] Marangoz A.H., Kocacan S.E., Him A., Kuruoglu E., Cokluk C., Marangoz C., Proconvulsant Effect of Papaverine on Penicillin-Induced Epileptiform Activity in Rats., Turk Neurosurg., 28(3) (2018) 479-482.
  • [9] Bo G.P., Mainardi P., Benassi E., Besio G., Faverio A., Scotto P.A., Loeb C., Parenteral penicillin model of epilepsy in the rat: a reappraisal, Methods Find Exp. Clin. Pharmacol., 8(8) (1986) 491-496.
  • [10] Paxinos G., Watson C., The Rat Brain in Stereotaxic Coordinates, 6th ed., Amsterdam: Elsevier Academic Press, (2007).
  • [11] Kruger N.J., The Bradford method for protein quantitation, Methods Mol. Biol., 32 (1994) 9-15.
  • [12] Webster K.M., Sun M., Crack P., O'Brien T.J., Shultz S.R., Semple B.D., Inflammation in epileptogenesis after traumatic brain injury, J. Neuroinflammation, 14(1) (2017) 10.
  • [13] Robel S., Buckingham S.C., Boni J.L., Campbell S.L., Danbolt N.C., Riedemann T., Sutor B., Sontheimer H., Reactive astrogliosis causes the development of spontaneous seizures, J Neurosci., 35(8) (2015) 3330-3345.
  • [14] Eyo U.B., Murugan M., Wu L.J., Microglia-neuron communication in epilepsy, Glia, 65 (2017) 5–18.
  • [15] Dinarello C.A., Biologic basis for interleukin-1 in disease, Blood, 87(6) (1996) 2095–2147.
  • [16] De Simoni M.G., Perego C., Ravizza T., Moneta D., Conti M., Marchesi F., De Luigi A., Garattini S., Vezzani A., Inflammatory cytokines and related genes are induced in the rat hippocampus by limbic status epilepticus, Eur. J. Neurosci., 12(7) (2000) 2623-2633.
  • [17] Wallenstein M.C., Attenuation of penicillin models of epilepsy by nonsteroidal anti-inflammatory drugs, Exp Neurol., 98(1) (1987) 152-160.
  • [18] Zhu X., Chen Y., Du Y., Wan Q., Xu Y., Wu J., Astragaloside IV attenuates penicillin-induced epilepsy via inhibiting activation of the MAPK signaling pathway, Mol. Med. Rep., 17(1) (2018) 643-647.
  • [19] Taşkıran AŞ., Taştemur Y., The comparison of inflammatory markers in pentylenetetrazole-induced acute epileptic seizure model and chronic epilepsy model in rats., Cumhuriyet Sci. J., 41(3) (2020) 635-641.
  • [20] Devinsky O., Vezzani A., O'Brien T.J., Jette N., Scheffer I.E., de Curtis M., Perucca P., Epilepsy, Nat. Rev. Dis. Primers, 4 (2018) 18024.
  • [21] Balosso S., Ravizza T., Perego C., Peschon J., Campbell I.L., De Simoni M.G., Vezzani A., Tumor necrosis factor-alpha inhibits seizures in mice via p75 receptors, Ann. Neurol., 57(6) (2005) 804-812.
  • [22] Shandra A.A., Godlevsky L.S., Vastyanov R.S., Oleinik A.A., Konovalenko V.L., Rapoport E.N., Korobka N.N., The role of TNF-alpha in amygdala kindled rats, Neurosci Res., 42(2) (2002) 147-153.

The effect of penicillin-induced epileptiform activity on proinflammatory cytokines levels in the rat brain

Year 2021, , 1 - 6, 29.03.2021
https://doi.org/10.17776/csj.775122

Abstract

Emerging evidence indicates a pathogenic role of protracted neuroinflammation in the various neurodegenerative diseases, including epilepsy. Neuroinflammation may contribute to neuronal hyperexcitability underlying seizure formation. The current research aims to examine the changes in the levels of proinflammatory cytokines such as interleukin-1β (IL-1β) and tumor necrosis factor-α (TNF-α) in the penicillin epilepsy model. In the present study, 12 male Wistar albino rats were randomly divided into two groups as sham and penicillin epilepsy model. Seizures were induced with the intracortical (i.c.) single microinjection 500 IU of penicillin-G into neocortex. Rats were decapitated after observing the cortical epileptic activity and brains were removed by craniotomy. Proinflammatory cytokines (TNF-α and IL-1β) were measured by using ELISA methods in the cortical and hippocampal brain regions. Penicillin significantly up-regulated the expression of IL‑1β and TNF-α in the rat cortex, but did not affect the hippocampal cytokines levels. This study is indicative of the neuroinflammatory potential of cortical penicillin administration. 

References

  • [1] Fisher R.S., Acevedo C., Arzimanoglou A., Bogacz A., Cross J. H., Elger C.E., Engel J., Forsgren L., French J.A., Glynn M., Hesdorffer D.C., Lee B.I., Mathern G.W., Moshé S.L., Perucca E., Scheffer I.E., Tomson T., Watanabe M., Wiebe S., ILAE official report: A Practical Clinical Definition of Epilepsy, Epilepsia, 55(4) (2014) 475-482.
  • [2] Chen Z., Brodie M.J., Liew D., Kwan P., Treatment Outcomes in Patients with Newly Diagnosed Epilepsy Treated with Established and New Antiepileptic Drugs: A 30-Year Longitudinal Cohort Study, JAMA Neurol., 75(3) (2018) 279-286.
  • [3] Li Z.H., Li L.L., Jin M.F., Chen X.Q., Sun Q., Ni H., Dysregulation of zinc/lipid metabolism‑associated genes in the rat hippocampus and cerebral cortex in early adulthood following recurrent neonatal seizures, Mol. Med. Rep., 16(4) (2017) 4701-4709.
  • [4] Vezzani A., French J., Bartfai T., Baram T.Z., The role of inflammation in epilepsy, Nat Rev Neurol., 7(1) (2011) 31-40.
  • [5] Li G., Bauer S., Nowak M., Norwood B., Tackenberg, B., Rosenow F., Knake S., Oertel W.H., Hamer H.M., Cytokines and Epilepsy. Seizure, 20(3) (2011) 249-256.
  • [6] Rawat C., Kukal S., Dahiya U.R., Kukreti R., Cyclooxygenase-2 (COX-2) inhibitors: future therapeutic strategies for epilepsy management, J Neuroinflammation, 16(1) (2019) 1-15.
  • [7] Sumbul O., Aygun H., The effect of vitamin D3 and paricalcitol on penicillin-induced epileptiform activity in rats., Epilepsy Res., 159 (2020) 106262.
  • [8] Marangoz A.H., Kocacan S.E., Him A., Kuruoglu E., Cokluk C., Marangoz C., Proconvulsant Effect of Papaverine on Penicillin-Induced Epileptiform Activity in Rats., Turk Neurosurg., 28(3) (2018) 479-482.
  • [9] Bo G.P., Mainardi P., Benassi E., Besio G., Faverio A., Scotto P.A., Loeb C., Parenteral penicillin model of epilepsy in the rat: a reappraisal, Methods Find Exp. Clin. Pharmacol., 8(8) (1986) 491-496.
  • [10] Paxinos G., Watson C., The Rat Brain in Stereotaxic Coordinates, 6th ed., Amsterdam: Elsevier Academic Press, (2007).
  • [11] Kruger N.J., The Bradford method for protein quantitation, Methods Mol. Biol., 32 (1994) 9-15.
  • [12] Webster K.M., Sun M., Crack P., O'Brien T.J., Shultz S.R., Semple B.D., Inflammation in epileptogenesis after traumatic brain injury, J. Neuroinflammation, 14(1) (2017) 10.
  • [13] Robel S., Buckingham S.C., Boni J.L., Campbell S.L., Danbolt N.C., Riedemann T., Sutor B., Sontheimer H., Reactive astrogliosis causes the development of spontaneous seizures, J Neurosci., 35(8) (2015) 3330-3345.
  • [14] Eyo U.B., Murugan M., Wu L.J., Microglia-neuron communication in epilepsy, Glia, 65 (2017) 5–18.
  • [15] Dinarello C.A., Biologic basis for interleukin-1 in disease, Blood, 87(6) (1996) 2095–2147.
  • [16] De Simoni M.G., Perego C., Ravizza T., Moneta D., Conti M., Marchesi F., De Luigi A., Garattini S., Vezzani A., Inflammatory cytokines and related genes are induced in the rat hippocampus by limbic status epilepticus, Eur. J. Neurosci., 12(7) (2000) 2623-2633.
  • [17] Wallenstein M.C., Attenuation of penicillin models of epilepsy by nonsteroidal anti-inflammatory drugs, Exp Neurol., 98(1) (1987) 152-160.
  • [18] Zhu X., Chen Y., Du Y., Wan Q., Xu Y., Wu J., Astragaloside IV attenuates penicillin-induced epilepsy via inhibiting activation of the MAPK signaling pathway, Mol. Med. Rep., 17(1) (2018) 643-647.
  • [19] Taşkıran AŞ., Taştemur Y., The comparison of inflammatory markers in pentylenetetrazole-induced acute epileptic seizure model and chronic epilepsy model in rats., Cumhuriyet Sci. J., 41(3) (2020) 635-641.
  • [20] Devinsky O., Vezzani A., O'Brien T.J., Jette N., Scheffer I.E., de Curtis M., Perucca P., Epilepsy, Nat. Rev. Dis. Primers, 4 (2018) 18024.
  • [21] Balosso S., Ravizza T., Perego C., Peschon J., Campbell I.L., De Simoni M.G., Vezzani A., Tumor necrosis factor-alpha inhibits seizures in mice via p75 receptors, Ann. Neurol., 57(6) (2005) 804-812.
  • [22] Shandra A.A., Godlevsky L.S., Vastyanov R.S., Oleinik A.A., Konovalenko V.L., Rapoport E.N., Korobka N.N., The role of TNF-alpha in amygdala kindled rats, Neurosci Res., 42(2) (2002) 147-153.
There are 22 citations in total.

Details

Primary Language English
Subjects Structural Biology
Journal Section Natural Sciences
Authors

Ahmet Kemal Filiz 0000-0001-9260-5549

Sebahattin Karabulut 0000-0002-3261-4125

Publication Date March 29, 2021
Submission Date July 28, 2020
Acceptance Date March 6, 2021
Published in Issue Year 2021

Cite

APA Filiz, A. K., & Karabulut, S. (2021). The effect of penicillin-induced epileptiform activity on proinflammatory cytokines levels in the rat brain. Cumhuriyet Science Journal, 42(1), 1-6. https://doi.org/10.17776/csj.775122