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01-12-2018 | ORIGINAL ARTICLE

Monoacylglycerol Lipase Inhibitor is Safe when Combined with Delayed r-tPA Administration in Treatment of Stroke

Authors: Mohammad-Reza Rahmani, Ali Shamsizadeh, Elham Hakimizadeh, Mohammad Allahtavakoli

Published in: Inflammation | Issue 6/2018

Abstract

Administration of tissue plasminogen activator (tPA) during first 3–4.5 h after ischemic stroke is the main therapeutic strategy; however, its using after that, leads to reperfusion injury and neurotoxic effects. Additionally, inflammation has a critical role in secondary injury after late reperfusion therapy. Thus, this project was designed to explore the effects of JZL-184 (JZL), an agonist of type 1 cannabinoid receptor (CB1), on the side effects of recombinant tPA (r-tPA), which is administrated after 5 h of stroke onset in the mice middle cerebral artery occlusion (MCAO) model. After established the model of MCAO mouse, they were put to six groups, including intact, control, vehicle, JZL (4 mg/kg), r-tPA (9 mg/kg), and JZL plus r-tPA. Thereafter, brain levels of IL-10, TNF-α, and matrix metalloproteinase − 9 (MMP9), brain edema and infarction, and behavioral functions have been determined in the groups. JZL alone or in combination with r-tPA, but not r-tPA, reduced brain edema, infarct volume, brain levels of TNF-α, MMP9, and also improved behavioral tests. JZL and JZL plus r-tPA also increased brain levels of IL-10. According to the results, JZL can improve the effects of r-tPA to overcome stroke SSE, when used after 5 h of stroke onset. Based on the fact that there is limitation regarding using r-tPA after 3 h of stroke onset, using a combination of r-tPA/JZL can be considered for a future therapeutic strategy.

Muir, K.W., P. Tyrrell, N. Sattar, and E. Warburton. 2007. Inflammation and ischaemic stroke. Current Opinion in Neurology 20: 334–342.CrossRef

Heuschmann, P.U., P.L. Kolominsky-Rabas, J. Roether, B. Misselwitz, K. Lowitzsch, J. Heidrich, P. Hermanek, C. Leffmann, M. Sitzer, M. Biegler, H.J. Buecker-Nott, K. Berger, and German Stroke Registers Study Group. 2004. Predictors of in-hospital mortality in patients with acute ischemic stroke treated with thrombolytic therapy. JAMA 292: 1831–1838.CrossRef

Lakhan, S.E., A. Kirchgessner, and M. Hofer. 2009. Inflammatory mechanisms in ischemic stroke: therapeutic approaches. Journal of Translational Medicine 7: 97.CrossRef

Vila, N., J. Castillo, A. Davalos, A. Esteve, A.M. Planas, and A. Chamorro. 2003. Levels of anti-inflammatory cytokines and neurological worsening in acute ischemic stroke. Stroke 34: 671–675.CrossRef

Allahtavakoli, M., R. Moloudi, M.K. Arababadi, A. Shamsizadeh, and K. Javanmardi. 2009. Delayed post ischemic treatment with Rosiglitazone attenuates infarct volume, neurological deficits and neutrophilia after embolic stroke in rat. Brain Research 1271: 121–127.CrossRef

Hacke, W., G. Albers, Y. Al-Rawi, et al. 2005. The Desmoteplase in Acute Ischemic Stroke Trial (DIAS) a phase II MRI-based 9-hour window acute stroke thrombolysis trial with intravenous desmoteplase. Stroke 36: 66–73.CrossRef

Allahtavakoli, M., F. Amin, A. Esmaeeli-Nadimi, A. Shamsizadeh, M. Kazemi-Arababadi, and D. Kennedy. 2015. Ascorbic Acid Reduces the Adverse Effects of Delayed Administration of Tissue Plasminogen Activator in a Rat Stroke Model. Basic & Clinical Pharmacology & Toxicology 117: 335–339.CrossRef

Dirnagl, U., C. Iadecola, and M.A. Moskowitz. 1999. Pathobiology of ischaemic stroke: an integrated view. Trends in Neurosciences 22: 391–397.CrossRef

Bederson, J.B., L.H. Pitts, M. Tsuji, M.C. Nishimura, R.L. Davis, and H. Bartkowski. 1986. Rat middle cerebral artery occlusion: evaluation of the model and development of a neurologic examination. Stroke 17: 472–476.CrossRef

10.

Jin, R., G. Yang, and G. Li. 2010. Inflammatory mechanisms in ischemic stroke: role of inflammatory cells. Journal of Leukocyte Biology 87: 779–789.CrossRef

11.

Mulvihill, M.M., and D.K. Nomura. 2013. Therapeutic potential of monoacylglycerol lipase inhibitors. Life Sciences 92: 492–497.CrossRef

12.

Nomura, D.K., B.E. Morrison, J.L. Blankman, J.Z. Long, S.G. Kinsey, M.C.G. Marcondes, A.M. Ward, Y.K. Hahn, A.H. Lichtman, B. Conti, and B.F. Cravatt. 2011. Endocannabinoid hydrolysis generates brain prostaglandins that promote neuroinflammation. Science (New York, N.Y.) 334: 809–813.CrossRef

13.

Long, J.Z., W. Li, L. Booker, J.J. Burston, S.G. Kinsey, J.E. Schlosburg, F.J. Pavón, A.M. Serrano, D.E. Selley, L.H. Parsons, A.H. Lichtman, and B.F. Cravatt. 2009. Selective blockade of 2-arachidonoylglycerol hydrolysis produces cannabinoid behavioral effects. Nature Chemical Biology 5: 37–44.CrossRef

14.

Rahmani, M.R., A. Shamsizadeh, A. Moghadam-Ahmadi, A. Kaeidi, and M. Allahtavakoli. 2018. Monoacylglycerol lipase inhibitor, JZL-184, confers neuroprotection in the mice middle cerebral artery occlusion model of stroke. Life Sciences 198: 143–148.CrossRef

15.

Berger, C., A. Stauder, F. Xia, C. Sommer, and S. Schwab. 2008. Neuroprotection and glutamate attenuation by acetylsalicylic acid in temporary but not in permanent cerebral ischemia. Experimental Neurology 210: 543–548.CrossRef

16.

Fernandez-Suarez, D., M. Celorrio, J.I. Riezu-Boj, et al. 2014. Monoacylglycerol lipase inhibitor JZL184 is neuroprotective and alters glial cell phenotype in the chronic MPTP mouse model. Neurobiology of Aging 35: 2603–2616.CrossRef

17.

Zhang, F., and C. Iadecola. 1992. Stimulation of the fastigial nucleus enhances EEG recovery and reduces tissue damage after focal cerebral ischemia. Journal of Cerebral Blood Flow and Metabolism 12: 962–970.CrossRef

18.

Tamura, A., D. Graham, J. McCulloch, and G. Teasdale. 1981. Focal cerebral ischaemia in the rat: 1. Description of technique and early neuropathological consequences following middle cerebral artery occlusion. Journal of Cerebral Blood Flow and Metabolism 1: 53–60.CrossRef

19.

Ashwal, S., D.J. Cole, T.N. Osborne, and W.J. Pearce. 1993. Low dose L-NAME reduces infarct volume in the rat MCAO/reperfusion model. Journal of Neurosurgical Anesthesiology 5: 241–249.CrossRef

20.

O'Donnell, M.E., Y.J. Chen, T.I. Lam, K.C. Taylor, J.H. Walton, and S.E. Anderson. 2013. Intravenous HOE-642 reduces brain edema and Na uptake in the rat permanent middle cerebral artery occlusion model of stroke: evidence for participation of the blood-brain barrier Na/H exchanger. Journal of Cerebral Blood Flow and Metabolism 33: 225–234.CrossRef

21.

Whishaw, I.Q. 2004. The Behavior of the Laboratory Rat: A Handbook with Tests: A Handbook with Tests. Oxford University Press.

22.

Lee, S.J., M.K. Wu, and P.R. Wesselink. 2004. The efficacy of ultrasonic irrigation to remove artificially placed dentine debris from different-sized simulated plastic root canals. International Endodontic Journal 37: 607–612.CrossRef

23.

Rahmani, M.R., A. Shamsizadeh, A. Moghadam-Ahmadi, G. Bazmandegan, and M. Allahtavakoli. 2018. JZL184, as a monoacylglycerol lipase inhibitor, down-regulates inflammation in a cannabinoid pathway dependent manner. Biomedicine & Pharmacotherapy 103: 1720–1726.CrossRef

24.

Gallily, R., A. Breuer, and R. Mechoulam. 2000. 2-Arachidonylglycerol, an endogenous cannabinoid, inhibits tumor necrosis factor-alpha production in murine macrophages, and in mice. European Journal of Pharmacology 406: R5–R7.CrossRef

25.

Lewen, A., P. Matz, and P.H. Chan. 2000. Free radical pathways in CNS injury. Journal of Neurotrauma 17: 871–890.CrossRef

26.

Cravatt, B.F., K. Demarest, M.P. Patricelli, M.H. Bracey, D.K. Giang, B.R. Martin, and A.H. Lichtman. 2001. Supersensitivity to anandamide and enhanced endogenous cannabinoid signaling in mice lacking fatty acid amide hydrolase. Proceedings of the National Academy of Sciences of the United States of America 98: 9371–9376.CrossRef

27.

Wu, F., J. Wu, A.D. Nicholson, R. Echeverry, W.B. Haile, M. Catano, J. An, A.K. Lee, D. Duong, E.B. Dammer, N.T. Seyfried, F.C. Tong, J.R. Votaw, R.L. Medcalf, and M. Yepes. 2012. Tissue-type plasminogen activator regulates the neuronal uptake of glucose in the ischemic brain. The Journal of Neuroscience 32: 9848–9858.CrossRef

28.

Haile, W.B., J. Wu, R. Echeverry, F. Wu, J. An, and M. Yepes. 2012. Tissue-type plasminogen activator has a neuroprotective effect in the ischemic brain mediated by neuronal TNF-alpha. Journal of Cerebral Blood Flow and Metabolism 32: 57–69.CrossRef

29.

Wu, F., R. Echeverry, J. Wu, J. An, W.B. Haile, D.S. Cooper, M. Catano, and M. Yepes. 2013. Tissue-type plasminogen activator protects neurons from excitotoxin-induced cell death via activation of the ERK1/2-CREB-ATF3 signaling pathway. Molecular and Cellular Neurosciences 52: 9–19.CrossRef

30.

Pihlaja, R., J. Takkinen, O. Eskola, J. Vasara, F.R. López-Picón, M. Haaparanta-Solin, and J.O. Rinne. 2015. Monoacylglycerol lipase inhibitor JZL184 reduces neuroinflammatory response in APdE9 mice and in adult mouse glial cells. Journal of Neuroinflammation 12: 81.CrossRef

31.

Aymerich, M.S., E. Rojo-Bustamante, C. Molina, M. Celorrio, J.A. Sánchez-Arias, and R. Franco. 2016. Neuroprotective effect of JZL184 in MPP+−treated SH-SY5Y cells through CB2 receptors. Molecular Neurobiology 53: 2312–2319.CrossRef

32.

Lysenko, L.V., J. Kim, C. Henry, A. Tyrtyshnaia, R.A. Kohnz, F. Madamba, G.M. Simon, N.E. Kleschevnikova, D.K. Nomura, R.A.B. Ezekowitz, and A.M. Kleschevnikov. 2014. Monoacylglycerol lipase inhibitor JZL184 improves behavior and neural properties in Ts65Dn mice, a model of down syndrome. PLoS One 9: e114521.CrossRef

33.

Grotenhermen, F. 2005. Cannabinoids. Current Drug Targets. CNS and Neurological Disorders 4: 507–530.CrossRef

34.

Pazos, M.R., E. Nunez, C. Benito, R.M. Tolon, and J. Romero. 2005. Functional neuroanatomy of the endocannabinoid system. Pharmacology, Biochemistry, and Behavior 81: 239–247.CrossRef

35.

Kinsey, S.G., L.E. Wise, D. Ramesh, R. Abdullah, D.E. Selley, B.F. Cravatt, and A.H. Lichtman. 2013. Repeated low-dose administration of the monoacylglycerol lipase inhibitor JZL184 retains cannabinoid receptor type 1-mediated antinociceptive and gastroprotective effects. The Journal of Pharmacology and Experimental Therapeutics 345: 492–501.CrossRef

36.

Dorado, L., M. Millan, N.P. de la Ossa, et al. 2010. Influence of antiplatelet pre-treatment on the risk of intracranial haemorrhage in acute ischaemic stroke after intravenous thrombolysis. European Journal of Neurology 17: 301–306.CrossRef

37.

Hermann, A., I. Dzialowski, R. Koch, and G. Gahn. 2009. Combined anti-platelet therapy with aspirin and clopidogrel: risk factor for thrombolysis-related intracerebral hemorrhage in acute ischemic stroke? Journal of the Neurological Sciences 284: 155–157.CrossRef

38.

Aldandashi, S., R. Noor, C.X. Wang, G. Uddin, and A. Shuaib. 2007. Combination treatment with dipyridamole, aspirin, and tPA in an embolic model of stroke in rats. Experimental Neurology 205: 563–568.CrossRef

Title: Monoacylglycerol Lipase Inhibitor is Safe when Combined with Delayed r-tPA Administration in Treatment of Stroke
Authors: Mohammad-Reza Rahmani
Ali Shamsizadeh
Elham Hakimizadeh
Mohammad Allahtavakoli
Publication date: 01-12-2018
Publisher: Springer US
Published in: Inflammation / Issue 6/2018
Print ISSN: 0360-3997
Electronic ISSN: 1573-2576
DOI: https://doi.org/10.1007/s10753-018-0848-x

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