سامانه مدیریت نشریات علمی دانشگاه علوم پزشکی مشهد

Amerian, Nastaran, Talebi, Athar, Safari, Manouchehr, Sameni, Hamid Reza, Ghanbari, Ali, Hayat, Parisa, Mohammadi, Moslem, Ardekanian, Maryam, Zarbakhsh, Sam. (1401). Effect of sesamol on damaged peripheral nerves: Evaluation of functional, histological, molecular, and oxidative stress parameters. , 12(6), 602-613. doi: 10.22038/ajp.2022.20663
Nastaran Amerian; Athar Talebi; Manouchehr Safari; Hamid Reza Sameni; Ali Ghanbari; Parisa Hayat; Moslem Mohammadi; Maryam Ardekanian; Sam Zarbakhsh. "Effect of sesamol on damaged peripheral nerves: Evaluation of functional, histological, molecular, and oxidative stress parameters". , 12, 6, 1401, 602-613. doi: 10.22038/ajp.2022.20663
Amerian, Nastaran, Talebi, Athar, Safari, Manouchehr, Sameni, Hamid Reza, Ghanbari, Ali, Hayat, Parisa, Mohammadi, Moslem, Ardekanian, Maryam, Zarbakhsh, Sam. (1401). 'Effect of sesamol on damaged peripheral nerves: Evaluation of functional, histological, molecular, and oxidative stress parameters', , 12(6), pp. 602-613. doi: 10.22038/ajp.2022.20663
Amerian, Nastaran, Talebi, Athar, Safari, Manouchehr, Sameni, Hamid Reza, Ghanbari, Ali, Hayat, Parisa, Mohammadi, Moslem, Ardekanian, Maryam, Zarbakhsh, Sam. Effect of sesamol on damaged peripheral nerves: Evaluation of functional, histological, molecular, and oxidative stress parameters. , 1401; 12(6): 602-613. doi: 10.22038/ajp.2022.20663

Effect of sesamol on damaged peripheral nerves: Evaluation of functional, histological, molecular, and oxidative stress parameters

Avicenna Journal of Phytomedicine
دوره 12، شماره 6، بهمن و اسفند 2022، صفحه 602-613    اصل مقاله (748.59 K)
نوع مقاله: Original Research Article
شناسه دیجیتال (DOI): 10.22038/ajp.2022.20663
نویسندگان
Nastaran Amerian1؛ Athar Talebi1؛ Manouchehr Safari1؛ Hamid Reza Sameni1؛ Ali Ghanbari2؛ Parisa Hayat3؛ Moslem Mohammadi4؛ Maryam Ardekanian5؛ Sam Zarbakhsh* 1
1Nervous System Stem Cells Research Center, Semnan University of Medical Sciences, Semnan, Iran
2Research Center of Physiology, Semnan University of Medical Sciences, Semnan, Iran
3Cellular and Molecular Research Center, Iran University of Medical Sciences, Tehran, Iran
4Department of Physiology, Molecular and Cell Biology Research Center, Faculty of Medicine, Mazandaran University of Medical Sciences, Sari, Iran
5Department of Biotechnology, Faculty of Medicine, Semnan University of Medical Sciences, Semnan, Iran
چکیده
Objective: Peripheral nerve injury is a clinical problem that may cause sensory and motor inabilities. Sesamol is an antioxidant that can help in repairing damaged central nervous system (CNS) and other organs. The present study aimed to investigate whether the antioxidant effects of sesamol could improve the function, structure, and myelination in rats’ damaged peripheral nervous system (PNS).
Materials and Methods: In this study, 28 adult male Wistar rats were randomly divided into four groups. In the sham group, the sciatic nerve was exposed and restored to its place without inducing crush injury. The control received DMSO (solvent) and the two experimental groups received 50 or 100 mg/kg sesamol intraperitoneally for 28 days after sciatic nerve crush injury, respectively. Next, sciatic function index (SFI), superoxide dismutase (SOD) activity, malondialdehyde (MDA) level, expression of nerve growth factor (NGF) and myelin protein zero (MPZ) proteins in the sciatic nerve, and histological indices of the sciatic nerve and gastrocnemius muscle were evaluated.
Results: The results showed that sesamol reduced oxidative stress parameters, increased expression of NGF and MPZ proteins, and improved function and regeneration of the damaged sciatic nerve. Furthermore, a significant regeneration was observed in the gastrocnemius muscle after treatment with sesamol. Although administration of both doses of sesamol was useful, the 100 mg/kg dose was more effective than the 50 mg/kg one.
Conclusion: The results suggest that sesamol may be effective in improving damaged peripheral nerves in rats by reducing oxidative stress and increasing the expression of NGF and MPZ proteins.
کلیدواژه‌ها
Nerve growth factor؛ MPZ protein؛ Oxidative stress؛ Peripheral nerve injuries؛ Regeneration؛ Sesamol
مراجع
Abdolmaleki A, Zahri S, Bayrami A. 2020.
Rosuvastatin enhanced functional recovery
after sciatic nerve injury in the rat. Eur J
Pharmacol, 882: 173260.
Bosebabu B, Cheruku SP, Chamallamudi MR,
Nampoothiri M, Shenoy RR, Nandakumar
K, Parihar VK, Kumar N. 2020. An
appraisal of current pharmacological
perspectives of sesamol: A review. Mini
Rev Med Chem, 20: 988-1000.
Bradford MM. 1976. A rapid and sensitive
method for the quantitation of microgram
quantities of protein utilizing the principle
of protein-dye binding. Anal Biochem, 72:
248-254.
Chan JR, Watkins TA, Cosgaya JM, Zhang C,
Chen L, Reichardt LF, Shooter EM, Barres
BA. 2004. NGF controls axonal receptivity
to myelination by Schwann cells or
oligodendrocytes. Neuron, 43: 183-191.
Da Silva JT, Santos FM, Giardini AC, Martins
Dde O, De Oliveira ME, Ciena AP,
Gutierrez VP, Watanabe IS, Britto LR,
Chacur M. 2015. Neural mobilization
promotes nerve regeneration by nerve
growth factor and myelin protein zero
increased after sciatic nerve injury. Growth
Factors, 33: 8-13.
Farshid AA, Tamaddonfard E. 2015.
Histopathological and behavioral
evaluations of the effects of crocin, safranal
and insulin on diabetic peripheral
neuropathy in rats. Avicenna J Phytomed,
5: 469-478.
Gao XJ, Xie GN, Liu L, Fu ZJ, Zhang ZW,
Teng LZ. 2017. Sesamol attenuates
oxidative stress, apoptosis and
inflammation in focal cerebral
ischemia/reperfusion injury. Exp Ther
Med, 14: 841-847.
Geetha T, Rohit B, Pal KI. 2009. Sesamol: an
efficient antioxidant with potential
therapeutic benefits. Med Chem, 5: 367-
371.
Guven M, Golge UH, Aslan E, Sehitoglu MH,
Aras AB, Akman T, Cosar M. 2016. The
effect of aloe vera on ischemia--
Reperfusion injury of sciatic nerve in rats.
Biomed Pharmacother, 79: 201-207.
Hajimoradi M, Fazilati M, Gharib-Naseri MK,
Sarkaki A. 2015. Gallic acid and exercise
training improve motor function, nerve
conduction velocity but not pain sense
reflex after experimental sciatic nerve crush
in male rats. Avicenna J Phytomed, 5: 288-
297.
Hao GM, Liu YG, Wu Y, Xing W, Guo SZ,
Wang Y, Wang ZL, Li C, Lv TT, Wang HL,
Shi TJ, Wang W, Han J. 2017. The
protective effect of the active components
of ERPC on diabetic peripheral neuropathy
in rats. J Ethnopharmacol, 202: 162-171.
Hassanzadeh P, Hassanzadeh A. 2013.
Implication of NGF and endocannabinoid
signaling in the mechanism of action of
sesamol: a multi-target natural compound
with therapeutic potential.
Psychopharmacology (Berl), 229: 571-578.
Hong BY, Kim JS, Lee KB, Lim SH. 2015. The
effect of sesamol on rats with ischemic
stroke. J Phys Ther Sci, 27: 1771-1773.
Hsiang SW, Lee HC, Tsai FJ, Tsai CC, Yao
CH, Chen YS. 2011. Puerarin accelerates
peripheral nerve regeneration. Am J Chin
Med, 39: 1207-1217.
Hsu CC, Huang HC, Wu PT, Tai TW, Jou IM.
2016. Sesame oil improves functional
recovery by attenuating nerve oxidative
stress in a mouse model of acute peripheral
nerve injury: role of Nrf-2. J Nutr Biochem,
38: 102-106.
Kakkar V, Mishra AK, Chuttani K, Chopra K,
Kaur IP. 2011. Delivery of sesamol-loaded
solid lipid nanoparticles to the brain for
menopause-related emotional and
cognitive central nervous system
derangements. Rejuvenation Res, 14: 597-
604.
Kurt Oktay KN, Akpinar P, Unlu Ozkan F,
Aktas I, Ersoy Canillioglu Y, Erkanli
Senturk G. 2021. The effect of alpha lipoic
acid on the recovery of sciatic nerve injury
in rats: A prospective randomized
controlled trial. Am J Phys Med Rehabil,
100: 780-789.
La G, Zhou M, Lim JY, Oh S, Xing H, Liu N,
Yang Y, Liu X, Zhong L. 2019. Proteomics
and transcriptomics analysis reveals clues
into the mechanism of the beneficial effect
of electrical stimulation on rat denervated
gastrocnemius muscle. Cell Physiol
Biochem, 52: 769-786.
Li R, Li D, Wu C, Ye L, Wu Y, Yuan Y, Yang
S, Xie L, Mao Y, Jiang T, Li Y, Wang J,
Zhang H, Li X, Xiao J. 2020. Nerve growth
factor activates autophagy in Schwann cells
to enhance myelin debris clearance and to
expedite nerve regeneration. Theranostics,
Amerian et al.
AJP, Vol. 12, No. 6, Nov-Dec 2022 612
10: 1649-1677.
Liu Z, Chen Y, Qiao Q, Sun Y, Liu Q, Ren B,
Liu X. 2017. Sesamol supplementation
prevents systemic inflammation-induced
memory impairment and amyloidogenesis
via inhibition of nuclear factor kappaB.
Mol Nutr Food Res, 61: 27860258.
Lv W, Deng B, Duan W, Li Y, Liu Y, Li Z, Xia
W, Li C. 2018. Schwann cell plasticity is
regulated by a weakened intrinsic
antioxidant defense system in acute
peripheral nerve injury. Neuroscience, 382:
1-13.
Moattari M, Moattari F, Kouchesfahani HM,
Kaka G, Sadraie SH, Naghdi M, Mansouri
K. 2018. Curcumin and biodegradable
membrane promote nerve regeneration and
functional recovery after sciatic nerve
transection in adult rats. Ann Plast Surg, 81:
335-339.
Nayak PG, Paul P, Bansal P, Kutty NG, Pai KS.
2013. Sesamol prevents doxorubicininduced oxidative damage and toxicity on
H9c2 cardiomyoblasts. J Pharm Pharmacol,
65: 1083-1093.
Pan B, Jing L, Cao M, Hu Y, Gao X, Bu X, Li
Z, Feng H, Guo K. 2021. Melatonin
promotes Schwann cell proliferation and
migration via the shh signalling pathway
after peripheral nerve injury. Eur J
Neurosci, 53: 720-731.
Paskal AM, Paskal W, Pietruski P,
Kusmierczyk Z, Jankowska-Steifer E,
Andrychowski J, Wlodarski PK. 2020.
Neuroregenerative effects of polyethylene
glycol and FK-506 in a rat model of sciatic
nerve injury. J Plast Reconstr Aesthet Surg,
73: 222-230.
Ren B, Yuan T, Diao Z, Zhang C, Liu Z, Liu X.
2018. Protective effects of sesamol on
systemic oxidative stress-induced cognitive
impairments via regulation of Nrf2/Keap1
pathway. Food Funct, 9: 5912-5924.
Ren B, Yuan T, Zhang X, Wang L, Pan J, Liu
Y, Zhao B, Zhao W, Liu Z, Liu X. 2020.
Protective effects of sesamol on systemic
inflammation and cognitive impairment in
aging mice. J Agric Food Chem, 68: 3099-
3111.
Renno WM, Benov L, Khan KM. 2017.
Possible role of antioxidative capacity of (-
)-epigallocatechin-3-gallate treatment in
morphological and neurobehavioral
recovery after sciatic nerve crush injury. J
Neurosurg Spine, 27: 593-613.
Sameni HR, Javadinia SS, Safari M, Tabrizi
Amjad MH, Khanmohammadi N, Parsaie
H, Zarbakhsh S. 2018. Effect of quercetin
on the number of blastomeres, zona
pellucida thickness, and hatching rate of
mouse embryos exposed to actinomycin D:
An experimental study. Int J Reprod
Biomed (Yazd), 16: 101-108.
Shakhbazau A, Kawasoe J, Hoyng SA, Kumar
R, Van Minnen J, Verhaagen J, Midha R.
2012. Early regenerative effects of NGFtransduced Schwann cells in peripheral
nerve repair. Mol Cell Neurosci, 50: 103-
112.
Shy ME. 2006. Peripheral neuropathies caused
by mutations in the myelin protein zero. J
Neurol Sci, 242: 55-66.
Sonia Angeline M, Sarkar A, Anand K,
Ambasta RK, Kumar P. 2013. Sesamol and
naringenin reverse the effect of rotenoneinduced PD rat model. Neuroscience, 254:
379-394.
Tiong YL, Ng KY, Koh RY, Ponnudurai G,
Chye SM. 2019. Melatonin prevents
oxidative stress-induced mitochondrial
dysfunction and apoptosis in high glucosetreated schwann cells via upregulation of
Bcl2, NF-kappaB, mTOR, Wnt signalling
pathways. Antioxidants (Basel), 8: 198.
Turedi S, Yulug E, Alver A, Bodur A, Ince I.
2018. A morphological and biochemical
evaluation of the effects of quercetin on
experimental sciatic nerve damage in rats.
Exp Ther Med, 15: 3215-3224.
Vangilder RL, Huber JD. 2014. Sesamol: a
treatment for Diabetes-associated bloodbrain barrier dysfunction. Postdoc J, 2: 13-
22.
Vennila L, Pugalendi KV. 2010. Protective
effect of sesamol against myocardial
infarction caused by isoproterenol in Wistar
rats. Redox Rep, 15: 36-42.
Wang W, Huang CY, Tsai FJ, Tsai CC, Yao
CH, Chen YS. 2011. Growth-promoting
effects of quercetin on peripheral nerves in
rats. Int J Artif Organs, 34: 1095-1105.
Zarbakhsh S. 2021. Effect of antioxidants on
preimplantation embryo development in
vitro: a review. Zygote, 29: 179-193.
Zarbakhsh S, Goudarzi N, Shirmohammadi M,
Safari M. 2016. Histological study of bone
marrow and umbilical cord stromal cell
transplantation in regenerating rat
peripheral nerve. Cell J, 17: 668-677.
Zarbakhsh S, Moradi F, Joghataei MT,
Effect of sesamol on damaged peripheral nerve
AJP, Vol. 12, No. 6, Nov-Dec 2022 613
Bahktiari M, Mansouri K, Abedinzadeh M.
2013. Evaluation of the functional recovery
in sciatic nerve injury following the cotransplantation of schwann and bone
marrow stromal stem cells in rat. Basic Clin
Neurosci, 4: 291-298.
Zarbakhsh S, Safari R, Sameni HR, Yousefi B,
Safari M, Khanmohammadi N, Hayat P.
2019. Effects of co-administration of bone
marrow stromal cells and L-carnitine on the
recovery of damaged ovaries by performing
chemotherapy model in rat. Int J Fertil
Steril, 13: 196-202.
Zhang J, Ren J, Liu Y, Huang D, Lu L. 2020.
Resveratrol regulates the recovery of rat
sciatic nerve crush injury by promoting the
autophagy of Schwann cells. Life Sci, 256:
117959.
Zhang P, Wang Y, Wang H, Cao J. 2021.
Sesamol alleviates chronic intermittent
hypoxia-induced cognitive deficits via
inhibiting oxidative stress and
inflammation in rats. Neuroreport, 32: 105-
111.
Zhao Z, Li X, Li Q. 2017. Curcumin accelerates
the repair of sciatic nerve injury in rats
through reducing Schwann cells apoptosis
and promoting myelinization. Biomed
Pharmacother, 92: 1103-1110.
Zhou G, Chang W, Zhou X, Chen Y, Dai F,
Anwar A, Yu X. 2020. Nanofibrous nerve
conduits with nerve growth factors and
bone marrow stromal cells pre-cultured in
bioreactors for peripheral nerve
regeneration. ACS Appl Mater Interfaces,
12: 16168-16177.
Zhu X, Li K, Guo X, Wang J, Xiang Y. 2016.
Schwann cell proliferation and
differentiation that is induced by ferulic
acid through MEK1/ERK1/2 signalling
promotes peripheral nerve remyelination
following crush injury in rats. Exp Ther
Med, 12: 1915-1921.

آمار
تعداد مشاهده مقاله: 24,791
تعداد دریافت فایل اصل مقاله: 10,039