Brazilian Journal of Anesthesiology
https://app.periodikos.com.br/journal/rba/article/doi/10.1016/j.bjane.2021.04.003
Brazilian Journal of Anesthesiology
Clinical Research

Remifentanil reduces glutamate toxicity in rat olfactory bulb neurons in culture

Remifentanil reduz a toxicidade do glutamato em neurônios do bulbo olfatório de rato em cultura

Muhammet Emin Naldan, Ali Taghizadehghalehjoughi

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Abstract

Background
Opioids are widely used as an analgesic drug in the surgical setting. Remifentanil is an ultra-short acting opioid with selective affinity to the mu (μ) receptor, and also exhibits GABA agonist effects. The aim of this study was study of the neurotoxic or neuroprotective effect of different doses of remifentanil in glutamate-induced toxicity in olfactory neuron cell culture.

Materials and methods
Olfactory neurons were obtained from newborn Sprague Dawley rat pups. Glutamate 10-5 mM was added to all culture dishes, except for the negative control group. Remifentanil was added at three different doses for 24 hours, after which evaluation was performed using 3-(4,5-dimethylthiazol-2-yl)-2,5-diphenyltetrazolium bromide (MTT), Total Antioxidant Capacity (TAC), Total Oxidant Status (TOS), and Annexin V.

Results
The highest and lowest viability values were obtained from the low and high remifentanil doses at approximately 91% and 75%, respectively. TAC and TOS were correlated with the MTT results. TAC, TOS and MTT most closely approximated to the sham group values in the remifentanil 0.02 mM group.

Conclusions
Our results suggest that remifentanil has the potential to reduce glutamate toxicity and to increase cell viability in cultured neuron from the rat olfactory bulb.

Keywords

Remifentanil,  Olfactory bulb neuron,  Glutamate,  Neurotoxicity

Resumo

Justificativa: Os opioides são amplamente usados como analgésicos em ambiente cirúrgico. O remifentanil é um opioide de ação ultracurta com afinidade seletiva para o receptor mu (μ) e também exibe efeitos agonistas GABA. O objetivo deste estudo foi estudar o efeito neurotóxico ou neuroprotetor de diferentes doses de remifentanil na toxicidade induzida por glutamato em cultura de células de neurônios olfatórios. Materiais e métodos: Os neurônios olfatórios foram obtidos de filhotes de ratos Sprague Dawley recém-nascidos. Glutamato 10-5 mM foi adicionado a todas as placas de cultura, exceto para o grupo de controle negativo. Remifentanil foi adicionado em três doses diferentes por 24 horas, após o que a avaliação foi realizada usando brometo de 3- (4,5-dimetiltiazol-2-il) -2,5-difeniltetrazólio (MTT), capacidade antioxidante total (TAC), status oxidante total (TOS) e anexina V. Resultados: Os valores de viabilidade mais altos e mais baixos foram obtidos com as doses baixa e alta de remifentanil em aproximadamente 91% e 75%, respectivamente. TAC e TOS foram correlacionados com os resultados do MTT. TAC, TOS e MTT mais próximos dos valores do grupo sham no grupo remifentanil 0,02 mM. Conclusões: Nossos resultados sugerem que o remifentanil tem o potencial de reduzir a toxicidade do glutamato e aumentar a viabilidade celular em cultura de neurônios do bulbo olfatório de rato.

Palavras-chave

Remifentanil; Neurônio do bulbo olfatório; Glutamato; Neurotoxicidade.

References

1 A. Carotenuto, T. Costabile, M. Moccia, et al. Olfactory function and cognition in relapsing-remitting and secondary-progressive multiple sclerosis Mult Scler Relat Dis, 27 (2019), pp. 1-6

2 S. Okazaki, T. Haramaki, H. Nishino A safe driving support method using olfactory stimuli Adv Intell Syst, 772 (2019), pp. 958-967

3 B. Anderson The use of remifentanil as the primary agent for analgesia in parturients Crit Care Nurs Clin, 29 (2017), p. 495

4 F. Tourrel, P.K. de Lendeu, L. Abily-Donval, et al. The antiapoptotic effect of remifentanil on the immature mouse brain: an ex vivo study Anesth Analg, 118 (2014), pp. 1041-1051

5 M. Zhao, D.T. Joo Enhancement of spinal N-methyl-D-aspartate receptor function by remifentanil action at delta-opioid receptors as a mechanism for acute opioid-induced hyperalgesia or tolerance Anesthesiology, 109 (2008), pp. 308-317

6 W. Sakai, Y. Yoshikawa, N. Hirata, M. Yamakage Effect of remifentanil during cardiopulmonary bypass on incidence of acute kidney injury after cardiac surgery J Anesth, 31 (2017), pp. 895-902

7 G. Gundogdu, A. Taghizadehghalehjoughi, O. Senol, B. Cicek, K.A. Nalci, A. Hacimuftuoglu Investigation of protective effect of parietin against glutamate excitotoxicity in primary cortical neuron culture Acta Physiol, 221 (2017), p. 228

8 C. Sevim, E. Dogan, A. Taghizadehghalehjoughi, et al. Tissue-protective effects of French maritime pine bark (Pycnogenol) on glutamate-induced cytotoxicity in adult human dermal fibroblasts Toxicol Lett, 280 (2017) S159-S

9 Y.N. Lian, Q. Lu, J.L. Chang, Y. Zhang The role of glutamate and its receptors in central nervous system in stress-induced hyperalgesia Int J Neurosci, 128 (2018), pp. 283-290

10 A. Lacreuse, C.M. Moore, M. LaClair, L. Payne, J.A. King Glutamine/glutamate (Glx) concentration in prefrontal cortex predicts reversal learning performance in the marmoset Behav Brain Res, 346 (2018), pp. 11-15

11 K. Gupta, G.E. Hardingham, S. Chandran NMDA receptor-dependent glutamate excitotoxicity in human embryonic stem cell-derived neurons Neurosci Lett, 543 (2013), pp. 95-100

12 J.L. Marcos, D. Galleguillos, T. Pelissier, et al. Role of the spinal TrkB-NMDA receptor link in the BDNF-induced long-lasting mechanical hyperalgesia in the rat: a behavioural study Eur J Pain, 21 (2017), pp. 1688-1696

13 A. Minovi, A. Aguado, D. Brunert, et al. Isolation, culture optimization and functional characterization of stem cell neurospheres from mouse neonatal olfactory bulb and epithelium Eur Arch Otorhinolaryngol, 274 (2017), pp. 3071-3085

14 H. Kamalak, A. Kamalak, A. Taghizadehghalehjoughi Cytotoxic effects of new-generation bulk-fill composites on human dental pulp stem cells Cell Mol Biol, 64 (2018), pp. 62-71

15 N.M. Emin, A. Taghizadehghalehjoughi Should we use remifentanil in every dose and every case? J Clin Analytical Med, 10 (2019), pp. 21-25

16 S.D.A. Abel, S.K. Baird Honey is cytotoxic towards prostate cancer cells but interacts with the MTT reagent: considerations for the choice of cell viability assay Food Chem, 241 (2018), pp. 70-78

17 G. Rowicka, H. Dylag, J. Ambroszkiewicz, A. Riahi, H. Weker, M. Chelchowska Total oxidant and antioxidant status in prepubertal children with obesity Oxid Med Cell Longev, 2017 (2017), Article 5621989

18 K.G. Makedou, E. Vagdatli, E. Patziarela, V. Konstantinidou, E. Poimenidou, E. Lymperaki Total antioxidant capacity, haematological and coagulation parameters after orthodox christian fast Open Access Maced J Med Sci, 6 (2018), pp. 284-286

19 M. Eray, M. Matto, M. Kaartinen, L. Andersson, J. Pelkonen Flow cytometric analysis of apoptotic subpopulations with a combination of annexin V-FITC, propidium iodide, and SYTO 17 Cytometry, 43 (2001), pp. 134-142

20 M.S. Angst, W. Koppert, I. Pahl, D.J. Clark, M. Schmelz Short-term infusion of the mu-opioid agonist remifentanil in humans causes hyperalgesia during withdrawal Pain, 106 (2003), pp. 49-57

21 E. Guntz, H. Dumont, C. Roussel, et al. Effects of remifentanil on N-methyl-D-aspartate receptor — an electrophysiologic study in rat spinal cord Anesthesiology, 102 (2005), pp. 1235-1241

22 L. Ye, L. Xiao, X. Bai, et al. Spinal mitochondrial-derived ROS contributes to remifentanil-induced postoperative hyperalgesia NMDA receptor in rats via modulating Neurosci Lett, 634 (2016), pp. 79-86

23 C.H. Kim, S.S. Jeong, J.Y. Yoon, J.U. Yoon, S.B. Yu, E.J. Kim Remifentanil reduced the effects of hydrogen peroxide-induced oxidative stress in human keratinocytes via autophagy Connect Tissue Res, 58 (2017), pp. 597-605

24 B. Pan, S.Q. Huang, S. Sun, T.T. Wang The neuroprotective effects of remifentanil on isoflurane-induced apoptosis in the neonatal rat brain Am J Transl Res, 9 (2017), pp. 4521-4533
 

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