Paracrine Neuroprotective Effects of Neural Stem Cells on Glutamate-Induced Cortical Neuronal Cell Excitotoxicity

Paracrine Neuroprotective Effects of Neural Stem Cells on Glutamate-Induced Cortical Neuronal Cell Excitotoxicity

Purpose: Glutamate is a major excitatory neurotransmitter in mammalian central nervous system. Excessive glutamate releasing overactivates its receptors and changes calcium homeostasis that in turn leads to a cascade of intracellular events causing neuronal degeneration. In current study, we used ne...

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Main Authors: Mohammad Hossein Geranmayeh, Ali Baghbanzadeh, Abbas Barin, Jamileh Salar-Amoli, Mohammad Mehdi Dehghan, Reza Rahbarghazi, Hassan Azari
Format: Article
Language:English
Published: Tabriz University of Medical Sciences 2015-11-01
Series:Advanced Pharmaceutical Bulletin
Subjects:
Glutamate
Neural stem cells
Neurons
Primary cell culture
Cell viability
Rat
Online Access:http://journals.tbzmed.ac.ir/APB/Manuscript/APB-5-515.pdf
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spelling doaj-b16c7f58a78e4f188b407b0a678990212020-11-24T21:29:10ZengTabriz University of Medical Sciences Advanced Pharmaceutical Bulletin2228-58812251-73082015-11-015451552110.15171/apb.2015.070APB_2651_20150107231843Paracrine Neuroprotective Effects of Neural Stem Cells on Glutamate-Induced Cortical Neuronal Cell ExcitotoxicityMohammad Hossein Geranmayeh0Ali Baghbanzadeh1Abbas Barin2Jamileh Salar-Amoli3Mohammad Mehdi Dehghan4Reza Rahbarghazi5Hassan Azari6Section of Physiology, Department of Basic Sciences, Faculty of Veterinary Medicine, University of Tehran, Tehran, Iran.Section of Physiology, Department of Basic Sciences, Faculty of Veterinary Medicine, University of Tehran, Tehran, Iran.Department of Microbiology, Faculty of Veterinary Medicine, University of Tehran, Tehran, Iran.Department of Basic Sciences, Faculty of Veterinary Medicine, University of Tehran, Tehran, Iran.Department of Surgery and Radiology, Faculty of Veterinary Medicine, University of Tehran, Tehran, Iran.Stem Cell Research Center, Tabriz University of Medical Sciences, Tabriz, Iran.Neural Stem Cell and Regenerative Neuroscience Laboratory, Department of Anatomical Sciences, Shiraz School of Medicine, Shiraz University of Medical Sciences, Shiraz, Iran.Purpose: Glutamate is a major excitatory neurotransmitter in mammalian central nervous system. Excessive glutamate releasing overactivates its receptors and changes calcium homeostasis that in turn leads to a cascade of intracellular events causing neuronal degeneration. In current study, we used neural stem cells conditioned medium (NSCs-CM) to investigate its neuroprotective effects on glutamate-treated primary cortical neurons. Methods: Embryonic rat primary cortical cultures were exposed to different concentrations of glutamate for 1 hour and then they incubated with NSCs-CM. Subsequently, the amount of cell survival in different glutamate excitotoxic groups were measured after 24 h of incubation by trypan blue exclusion assay and MTT assay. Hoechst and propidium iodide were used for determining apoptotic and necrotic cell death pathways proportion and then the effect of NSCs-CM was investigated on this proportion. Results: NSCs conditioned medium increased viability rate of the primary cortical neurons after glutamate-induced excitotoxicity. Also we found that NSCs-CM provides its neuroprotective effects mainly by decreasing apoptotic cell death rate rather than necrotic cell death rate. Conclusion: The current study shows that adult neural stem cells could exert paracrine neuroprotective effects on cortical neurons following a glutamate neurotoxic insult.http://journals.tbzmed.ac.ir/APB/Manuscript/APB-5-515.pdfGlutamateNeural stem cellsNeuronsPrimary cell cultureCell viabilityRat
collection DOAJ
language English
format Article
sources DOAJ
author Mohammad Hossein Geranmayeh
Ali Baghbanzadeh
Abbas Barin
Jamileh Salar-Amoli
Mohammad Mehdi Dehghan
Reza Rahbarghazi
Hassan Azari
spellingShingle Mohammad Hossein Geranmayeh
Ali Baghbanzadeh
Abbas Barin
Jamileh Salar-Amoli
Mohammad Mehdi Dehghan
Reza Rahbarghazi
Hassan Azari
Paracrine Neuroprotective Effects of Neural Stem Cells on Glutamate-Induced Cortical Neuronal Cell Excitotoxicity
Advanced Pharmaceutical Bulletin
Glutamate
Neural stem cells
Neurons
Primary cell culture
Cell viability
Rat
author_facet Mohammad Hossein Geranmayeh
Ali Baghbanzadeh
Abbas Barin
Jamileh Salar-Amoli
Mohammad Mehdi Dehghan
Reza Rahbarghazi
Hassan Azari
author_sort Mohammad Hossein Geranmayeh
title Paracrine Neuroprotective Effects of Neural Stem Cells on Glutamate-Induced Cortical Neuronal Cell Excitotoxicity
title_short Paracrine Neuroprotective Effects of Neural Stem Cells on Glutamate-Induced Cortical Neuronal Cell Excitotoxicity
title_full Paracrine Neuroprotective Effects of Neural Stem Cells on Glutamate-Induced Cortical Neuronal Cell Excitotoxicity
title_fullStr Paracrine Neuroprotective Effects of Neural Stem Cells on Glutamate-Induced Cortical Neuronal Cell Excitotoxicity
title_full_unstemmed Paracrine Neuroprotective Effects of Neural Stem Cells on Glutamate-Induced Cortical Neuronal Cell Excitotoxicity
title_sort paracrine neuroprotective effects of neural stem cells on glutamate-induced cortical neuronal cell excitotoxicity
publisher Tabriz University of Medical Sciences
series Advanced Pharmaceutical Bulletin
issn 2228-5881
2251-7308
publishDate 2015-11-01
description Purpose: Glutamate is a major excitatory neurotransmitter in mammalian central nervous system. Excessive glutamate releasing overactivates its receptors and changes calcium homeostasis that in turn leads to a cascade of intracellular events causing neuronal degeneration. In current study, we used neural stem cells conditioned medium (NSCs-CM) to investigate its neuroprotective effects on glutamate-treated primary cortical neurons. Methods: Embryonic rat primary cortical cultures were exposed to different concentrations of glutamate for 1 hour and then they incubated with NSCs-CM. Subsequently, the amount of cell survival in different glutamate excitotoxic groups were measured after 24 h of incubation by trypan blue exclusion assay and MTT assay. Hoechst and propidium iodide were used for determining apoptotic and necrotic cell death pathways proportion and then the effect of NSCs-CM was investigated on this proportion. Results: NSCs conditioned medium increased viability rate of the primary cortical neurons after glutamate-induced excitotoxicity. Also we found that NSCs-CM provides its neuroprotective effects mainly by decreasing apoptotic cell death rate rather than necrotic cell death rate. Conclusion: The current study shows that adult neural stem cells could exert paracrine neuroprotective effects on cortical neurons following a glutamate neurotoxic insult.
topic Glutamate
Neural stem cells
Neurons
Primary cell culture
Cell viability
Rat
url http://journals.tbzmed.ac.ir/APB/Manuscript/APB-5-515.pdf
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AT hassanazari paracrineneuroprotectiveeffectsofneuralstemcellsonglutamateinducedcorticalneuronalcellexcitotoxicity
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