Effect of tramadol on apoptosis and synaptogenesis in hippocampal neurons: The possible role of µ‐opioid receptor

Tramadol is a synthetic opioid with centrally acting analgesic activity that alleviates moderate to severe pain and treats withdrawal symptoms of the other opioids. Like other opioid drugs, tramadol abuse has adverse effects on central nervous system components. Chronic administration of tramadol induces maladaptive plasticity in brain structures responsible for cognitive function, such as the hippocampus. However, the mechanisms by which tramadol induces these alternations are not entirely understood. Here, we examine the effect of tramadol on apoptosis and synaptogenesis of hippocampal neuronal in vitro. First, the primary culture of hippocampal neurons from neonatal rats was established, and the purity of the neuronal cells was verified by immunofluorescent staining. To evaluate the effect of tramadol on neuronal cell viability MTT assay was carried out. The western blot analysis technique was performed for the assessment of apoptosis and synaptogenesis markers. Results show that chronic exposure to tramadol reduces cell viability of neuronal cells and naloxone reverses this effect. Also, the level of caspase‐3 significantly increased in tramadol‐exposed hippocampal neurons. Moreover, tramadol downregulates protein levels of synaptophysin and stathmin as synaptogenesis markers. Interestingly, the effects of tramadol were abrogated by naloxone treatment. These findings suggest that tramadol can induce neurotoxicity in hippocampal neuronal cells, and this effect was partly mediated through opioid receptors.

[1]  M. Abdollahifar,et al.  Chronic Exposure to Tramadol Induces Neurodegeneration in the Cerebellum of Adult Male Rats , 2021, Neurotoxicity Research.

[2]  J. Gewirtz,et al.  Repeated morphine exposure activates synaptogenesis and other neuroplasticity-related gene networks in the dorsomedial prefrontal cortex of male and female rats. , 2021, Drug and alcohol dependence.

[3]  OUP accepted manuscript , 2021, Toxicology Research.

[4]  P. Harris,et al.  Advocacy and Action to End the Opioid Epidemic by the AMA Opioid Task Force. , 2020, AMA journal of ethics.

[5]  M. Abdollahifar,et al.  Tramadol exposure upregulated apoptosis, inflammation and autophagy in PC12 cells and rat’s striatum: An in vitro- in vivo approach , 2020, Journal of Chemical Neuroanatomy.

[6]  Zeinab Gharaylou,et al.  β2-Adrenergic Receptor Stimulation Upregulates Cx43 Expression on Glioblastoma Multiforme and Olfactory Ensheathing Cells , 2020, Journal of Molecular Neuroscience.

[7]  Ali Jahanian,et al.  Tramadol: a Potential Neurotoxic Agent Affecting Prefrontal Cortices in Adult Male Rats and PC-12 Cell Line , 2020, Neurotoxicity Research.

[8]  A. Rahimi-Movaghar,et al.  Tramadol use and public health consequences in Iran: a systematic review and meta-analysis. , 2020, Addiction.

[9]  O. Hussein,et al.  Tramadol administration induced hippocampal cells apoptosis, astrogliosis, and microgliosis in juvenile and adult male mice, histological and immunohistochemical study , 2020, Ultrastructural pathology.

[10]  S. Vatansever,et al.  The effects of tramadol on cancer stem cells and metabolic changes in colon carcinoma cells lines. , 2019, Gene.

[11]  E. Strain,et al.  A Systematic Review of Laboratory Evidence for the Abuse Potential of Tramadol in Humans , 2019, Front. Psychiatry.

[12]  A. Rahimi-Movaghar,et al.  μ-Opioid receptor in the CA1 involves in tramadol and morphine cross state-dependent memory , 2019, Neuroscience Letters.

[13]  S. Bajaj,et al.  An overview of tramadol and its usage in pain management and future perspective. , 2019, Biomedicine & pharmacotherapy = Biomedecine & pharmacotherapie.

[14]  Laura Salm-Reifferscheidt Tramadol: Africa's opioid crisis , 2018, The Lancet.

[15]  M. Hosseini,et al.  The effects of tramadol administration on hippocampal cell apoptosis, learning and memory in adult rats and neuroprotective effects of crocin , 2018, Metabolic Brain Disease.

[16]  M. Grilli,et al.  Opiate Analgesics as Negative Modulators of Adult Hippocampal Neurogenesis: Potential Implications in Clinical Practice , 2017, Front. Pharmacol..

[17]  A. Cho,et al.  Trends in Tramadol: Pharmacology, Metabolism, and Misuse. , 2017, Anesthesia and analgesia.

[18]  D. Averill-Bates,et al.  Activation of apoptosis signalling pathways by reactive oxygen species. , 2016, Biochimica et biophysica acta.

[19]  J. Laplanche,et al.  Mechanisms of tramadol-related neurotoxicity in the rat: Does diazepam/tramadol combination play a worsening role in overdose? , 2016, Toxicology and applied pharmacology.

[20]  E. Awadalla,et al.  Molecular and histological changes in cerebral cortex and lung tissues under the effect of tramadol treatment. , 2016, Biomedicine & pharmacotherapy = Biomedecine & pharmacotherapie.

[21]  M. Sauer,et al.  Neurofilament depletion improves microtubule dynamics via modulation of Stat3/stathmin signaling , 2016, Acta Neuropathologica.

[22]  M. Rabbani,et al.  Acute and chronic tramadol administration impair spatial memory in rat , 2016, Research in pharmaceutical sciences.

[23]  Y. Uezono,et al.  What is the main mechanism of tramadol? , 2015, Naunyn-Schmiedeberg's Archives of Pharmacology.

[24]  A. Sobel,et al.  Neuronal stathmins: A family of phosphoproteins cooperating for neuronal development, plasticity and regeneration , 2015, Progress in Neurobiology.

[25]  A. Helaly,et al.  Effect of chronic usage of tramadol on motor cerebral cortex and testicular tissues of adult male albino rats and the effect of its withdrawal: histological, immunohistochemical and biochemical study. , 2014, International journal of clinical and experimental pathology.

[26]  Paul D. Morton,et al.  Neuropathic pain-induced depressive-like behavior and hippocampal neurogenesis and plasticity are dependent on TNFR1 signaling , 2014, Brain, Behavior, and Immunity.

[27]  N. Zhang,et al.  HSP60 is involved in the neuroprotective effects of naloxone. , 2014, Molecular medicine reports.

[28]  L. Yan,et al.  Effects of thienorphine on synaptic structure and synaptophysin expression in the rat nucleus accumbens , 2014, Neuroscience.

[29]  E. Fernández-Espejo,et al.  Effects of acute and repeated cocaine on markers for neural plasticity within the mesolimbic system in rats , 2014, Psychopharmacology.

[30]  S. Walsh,et al.  Efficacy of extended-release tramadol for treatment of prescription opioid withdrawal: a two-phase randomized controlled trial. , 2013, Drug and alcohol dependence.

[31]  Shu-kun Fu,et al.  Neuronal apoptosis in morphine addiction and its molecular mechanism. , 2013, International journal of clinical and experimental medicine.

[32]  Jelena Radulovic,et al.  Abnormalities in Hippocampal Functioning with Persistent Pain , 2012, The Journal of Neuroscience.

[33]  R. Malenka,et al.  Drug-Evoked Synaptic Plasticity in Addiction: From Molecular Changes to Circuit Remodeling , 2011, Neuron.

[34]  Zhang Yang EFFECT OF TRAMADOL WITH DIFFERENT DOSES ON THE LEARNING MEMORY OF MICE , 2011 .

[35]  T. Cunha-Oliveira,et al.  Neurotoxicity of heroin-cocaine combinations in rat cortical neurons. , 2010, Toxicology.

[36]  F. Schaeffel,et al.  DETECTION OF BEHAVIORAL ALTERATIONS AND LEARNING DEFICITS IN MICE LACKING SYNAPTOPHYSIN , 2022 .

[37]  Zhi-Ying Feng,et al.  Effect of tramadol on immune responses and nociceptive thresholds in a rat model of incisional pain , 2008, Journal of Zhejiang University SCIENCE B.

[38]  Deborah A. Yurgelun-Todd,et al.  Neuropsychological Consequences of Opiate Use , 2007, Neuropsychology Review.

[39]  Yingjian Liang,et al.  Interaction of the μ-Opioid Receptor with Synaptophysin Influences Receptor Trafficking and Signaling , 2007, Molecular Pharmacology.

[40]  Juan J. Canales D.Phil. Adult neurogenesis and the memories of drug addiction , 2007, European Archives of Psychiatry and Clinical Neuroscience.

[41]  I. Galynker,et al.  Neuropsychological functioning in opiate-dependent subjects receiving and following methadone maintenance treatment. , 2006, Drug and alcohol dependence.

[42]  R. Kivisaari,et al.  Cognitive function during early abstinence from opioid dependence: a comparison to age, gender, and verbal intelligence matched controls , 2006, BMC psychiatry.

[43]  E. Kandel,et al.  stathmin, a Gene Enriched in the Amygdala, Controls Both Learned and Innate Fear , 2005, Cell.

[44]  B. Roques,et al.  Cytoskeletal Genes Regulation by Chronic Morphine Treatment in Rat Striatum , 2004, Neuropsychopharmacology.

[45]  G. Geisslinger,et al.  Opioids As Modulators of Cell Death and Survival—Unraveling Mechanisms and Revealing New Indications , 2004, Pharmacological Reviews.

[46]  F. Benfenati,et al.  Synaptophysin: leading actor or walk-on role in synaptic vesicle exocytosis? , 2004, BioEssays : news and reviews in molecular, cellular and developmental biology.

[47]  Nurcan Doruk,et al.  OPIOID NEUROTOXICITY: COMPARISON OF MORPHINE AND TRAMADOL IN AN EXPERIMENTAL RAT MODEL , 2004, The International journal of neuroscience.

[48]  F. Şahin,et al.  Effect of the spinal drug tramadol on the fatty acid compositions of rabbit spinal cord and brain. , 2003, Biological and Pharmaceutical Bulletin.

[49]  J. Mao,et al.  Neuronal Apoptosis Associated with Morphine Tolerance: Evidence for an Opioid-Induced Neurotoxic Mechanism , 2002, The Journal of Neuroscience.

[50]  U. Schubart,et al.  Stathmin-deficient mice develop an age-dependent axonopathy of the central and peripheral nervous systems. , 2002, The American journal of pathology.

[51]  J. Guimón,et al.  Acute and chronic effects of morphine and naloxone on the phosphorylation of neurofilament-H proteins in the rat brain , 2001, Neuroscience Letters.

[52]  S. Hyman,et al.  Molecular Neuropharmacology: A Foundation for Clinical Neuroscience , 2001 .

[53]  Bin Liu,et al.  Naloxone protects rat dopaminergic neurons against inflammatory damage through inhibition of microglia activation and superoxide generation. , 2000, The Journal of pharmacology and experimental therapeutics.

[54]  P. Curmi,et al.  Stathmin: a tubulin-sequestering protein which forms a ternary T2S complex with two tubulin molecules. , 1997, Biochemistry.

[55]  B. Benson,et al.  Prospective multicenter evaluation of tramadol exposure. , 1997, Journal of toxicology. Clinical toxicology.

[56]  Peter R. Mouton,et al.  Comparative evaluation of synaptophysin-based methods for quantification of synapses , 1996, Journal of neurocytology.