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The treatment of immunomodulation in multiple sclerosis (MS) can alleviate the severity and relapses. However, it cannot improve the neurological disability of patients due to a lack of myelin protection and regeneration. Therefore, remyelinating therapies may be one of the feasible strategies that can prevent axonal degeneration and restore neurological disability. Natural product icariin (ICA) is a flavonol compound extracted from epimedium flavonoids, which has neuroprotective effects in several models of neurological diseases. Here, we attempt to explore whether ICA has the potential to treat demyelination and its possible mechanisms of action using lipopolysaccharide-treated BV2 microglia, primary microglia, bone marrow-derived macrophages, and cuprizone-induced demyelination model. The indicators of oxidative stress and inflammatory response were evaluated using commercial kits. The results showed that ICA significantly reduced the levels of oxidative intermediates nitric oxide, hydrogen peroxide, malondialdehyde, and inflammatory cytokines TNF-α, IL-1β, and increased the levels of antioxidants superoxide dismutase, catalase, glutathione peroxidase, and anti-inflammatory cytokines IL-10 and TGF-β in vitro cell experiments. In vivo demyelination model, ICA significantly alleviated the behavioral abnormalities and enhanced the integrated optical density/mm 2 of Black Gold II and myelin basic protein myelin staining, accompanied by the inhibition of oxidative stress/inflammatory response. Immunohistochemical staining showed that ICA significantly induced the expression of nuclear factor erythroid derived 2/heme oxygenase-1 (Nrf2/HO-1) and inhibited the expression of toll-like receptor 4/ nuclear factor kappa B (TLR4/NF-κB), which are two key signaling pathways in antioxidant and anti-inflammatory processes. Our results strongly suggest that ICA may be used as a potential agent to treat demyelination via regulating Nrf2/HO-1-mediated antioxidative stress and TLR4/NF-κB-mediated inflammatory responses.

Titel:	Icariin ameliorates the cuprizone-induced demyelination associated with antioxidation and anti-inflammation.
Autor/in / Beteiligte Person:	Song, LJ ; Han, QX ; Ding, ZB ; Liu, K ; Zhang, XX ; Guo, MF ; Ma, D ; Wang, Q ; Xiao, BG ; Ma, CG
Link:	Zum Volltext
Zeitschrift:	Inflammopharmacology, Jg. 32 (2024-02-01), Heft 1, S. 809-823
Veröffentlichung:	Basel ; Boston : Birkhäuser ; <i>Original Publication</i>: Dordrecht, The Netherlands ; Norwell, MA, USA : Kluwer Academic Publishers, c1991-, 2024
Medientyp:	academicJournal
ISSN:	1568-5608 (electronic)
DOI:	10.1007/s10787-023-01388-6
Schlagwort:	Humans Cuprizone pharmacology Toll-Like Receptor 4 NF-kappa B NF-E2-Related Factor 2 Anti-Inflammatory Agents pharmacology Cytokines Antioxidants pharmacology Demyelinating Diseases chemically induced Demyelinating Diseases drug therapy Flavonoids
Sonstiges:	Nachgewiesen in: MEDLINE Sprachen: English Publication Type: Journal Article Language: English [Inflammopharmacology] 2024 Feb; Vol. 32 (1), pp. 809-823. <i>Date of Electronic Publication: </i>2024 Jan 04. MeSH Terms: Antioxidants* / pharmacology ; Demyelinating Diseases* / chemically induced ; Demyelinating Diseases* / drug therapy ; Flavonoids* ; Humans ; Cuprizone / pharmacology ; Toll-Like Receptor 4 ; NF-kappa B ; NF-E2-Related Factor 2 ; Anti-Inflammatory Agents / pharmacology ; Cytokines References: An J, Yin JJ, He Y, Sui RX, Miao Q, Wang Q, Yu JZ, Yu JW, Shi FD, Ma CG, Xiao BG (2020) Temporal and spatial dynamics of astroglial reaction and immune response in cuprizone-induced demyelination. Neurotox Res 37(3):587–601. (PMID: 31721051) ; Annibali V, Mechelli R, Romano S, Buscarinu MC, Fornasiero A, Umeton R, Ricigliano VA, Orzi F, Coccia EM, Salvetti M, Ristori G (2015) IFN-β and multiple sclerosis: from etiology to therapy and back. Cytokine Growth Factor Rev 26(2):221–228. (PMID: 25466632) ; Carrera-Juliá S, Moreno ML, Barrios C, de la Rubia Ortí JE, Drehmer E (2020) Antioxidant alternatives in the treatment of amyotrophic lateral sclerosis: a comprehensive review. Front Physiol 11:63. (PMID: 321167737016185) ; Chesnokova V, Melmed S, Angeles CL, Angeles L (2014) Minireview: neuro-immuno-endocrine modulation of the hypothalamic-pituitary-adrenal (HPA) axis by gp130 signaling. Molecules 143:1571–1574. ; Cho JH, Jung JY, Lee BJ, Lee K, Park JW, Bu Y (2017) Epimedii Herba: a promising herbal medicine for neuroplasticity. Phytother Res 31(6):838–848. (PMID: 28382688) ; Cong H, Zhang M, Chang H, Du L, Zhang X, Yin L (2020) Icariin ameliorates the progression of experimental autoimmune encephalomyelitis by down-regulating the major inflammatory signal pathways in a mouse relapse-remission model of multiple sclerosis. Eur J Pharmacol 885:173523. (PMID: 32871176) ; Davis KE, Burnett K, Gigg J (2017) Water and T-maze protocols are equally efficient methods to assess spatial memory in 3xTg Alzheimer’s disease mice. Behav Brain Res 331:54–66. (PMID: 28511979) ; Domingues HS, Portugal CC, Socodato R, Relvas JB (2016) Oligodendrocyte, astrocyte, and microglia crosstalk in myelin development, damage, and repair. Front Cell Dev Biol 4:71. (PMID: 275516774923166) ; Du Q, Xia M, Ito Y (2002) Purification of icariin from the extract of Epimedium segittatum using highspeed counter-current chromatography. J Chromatogr A. 962(1–2):239–241. ; Fernández J, Silván B, Entrialgo CR, Villar CJ, Capasso R, Uranga JA, Lombó F, Abalo R (2021) Antiproliferative and palliative activity of flavonoids in colorectal cancer. Biomed Pharmacother 143:112241. (PMID: 34649363) ; Gingele S, Stangel M (2020) Emerging myelin repair agents in preclinical and early clinical development for the treatment of multiple sclerosis. Expert Opin Investig Drugs 29(6):583–594. (PMID: 32348161) ; Guo S, Wang H, Yin Y (2022) Microglia polarization from M1 to M2 in neurodegenerative diseases. Front Aging Neurosci 14:815347. (PMID: 352505438888930) ; Han SR, Kang YH, Jeon H, Lee S, Park SJ, Song DY, Min SS, Yoo SM, Lee MS, Lee SH (2020) Differential expression of miRNAs and behavioral change in the cuprizone-induced demyelination mouse model. Int J Mol Sci 21(2):646. (PMID: 319637617014274) ; Jin J, Wang H, Hua X, Chen D, Huang C, Chen Z (2019) An outline for the pharmacological effect of icariin in the nervous system. Eur J Pharmacol 842:20–32. (PMID: 30342950) ; Kalafatakis I, Karagogeos D (2021) Oligodendrocytes and microglia: key players in myelin development. Damage Repair Biomol 11(7):1058. ; Kanno T, Kurotaki T, Yamada N, Tomonari Y, Sato J, Tsuchitani M, Kobayashi Y (2019) Supplemental study on 2’, 3’-cyclic nucleotide 3’-phosphodiesterase (CNPase) activity in developing rat spinal cord lesions induced by hexachlorophene and cuprizone. J Vet Med Sci 81(9):1368–1372. (PMID: 314474586785608) ; Kuhlmann T, Moccia M, Coetzee T, Cohen JA, Correale J, Graves J, Marrie RA, Montalban X, Yong VW, Thompson AJ, Reich DS (2023) Multiple sclerosis progression: time for a new mechanism-driven framework. Lancet Neurol 22(1):78–88. (PMID: 36410373) ; Kwon HS, Koh SH (2020) Neuroinflammation in neurodegenerative disorders: the roles of microglia and astrocytes. Transl Neurodegener 9(1):42. (PMID: 332390647689983) ; Lan Z, Xie G, Wei M, Wang P, Chen L (2017) The protective effect of Epimedii Folium and Curculiginis Rhizoma on Alzheimer’s disease by the inhibitions of NF-κB/MAPK pathway and NLRP3 inflammasome. Oncotarget 8(27):43709–43720. (PMID: 285827705546435) ; Li C, Yang S, Ma H, Ruan M, Fang L, Cheng J (2021) Influence of icariin on inflammation, apoptosis, invasion, and tumor immunity in cervical cancer by reducing the TLR4/MyD88/NF-κB and Wnt/β-catenin pathways. Cancer Cell Int 21(1):206. (PMID: 338495288045342) ; Liu L, Locascio LM, Doré S (2019) Critical role of Nrf2 in experimental ischemic stroke. Front Pharmacol 10:153. (PMID: 308909346411824) ; Luthra R, Roy A (2022) Role of medicinal plants against neurodegenerative diseases. Curr Pharm Biotechnol 23(1):123–139. (PMID: 33573549) ; Masson MA, Nait-Oumesmar B (2023) Emerging concepts in oligodendrocyte and myelin formation, inputs from the zebrafish model. Glia 71(5):1147–1163. (PMID: 36645033) ; Mitra S, Das R, Emran TB, Labib RK, Noor ET, Islam F, Sharma R, Ahmad I, Nainu F, Chidambaram K, Alhumaydhi FA, Chandran D, Capasso R, Wilairatana P (2022) Diallyl disulfide: a bioactive garlic compound with anticancer potential. Front Pharmacol 13:943967. (PMID: 360718459441672) ; Mohajeri M, Sadeghizadeh M, Najafi F, Javan M (2015) Polymerized nano-curcumin attenuates neurological symptoms in EAE of multiple sclerosis through down regulation of inflammatory and oxidative processes and enhancing neuroprotection and myelin repair. Neuropharmacol 99:156–167. ; Mojaverrostami S, Bojnordi MN, Ghasemi-Kasman M, Ebrahimzadeh MA, Hamidabadi HG (2018) A review of herbal therapy in multiple sclerosis. Adv Pharm Bull 8(4):575–590. (PMID: 306073306311642) ; Ogata T (2019) Therapeutic strategies for oligodendrocyte-mediated remyelination. Adv Exp Med Biol 1190:265–279. (PMID: 31760650) ; Ohl K, Tenbrock K, Kipp M (2016) Oxidative stress in multiple sclerosis: central and peripheral mode of action. Exp Neurol 277:58–67. ; Padmavathi G, Ramkumar KM (2021) MicroRNA mediated regulation of the major redox homeostasis switch, Nrf2, and its impact on oxidative stress-induced ischemic/reperfusion injury. Arch Biochem Biophys 698:108725. (PMID: 33326800) ; Park HA, Ellis AC (2020) Dietary antioxidants and Parkinson’s Disease. Antioxidants (Basel) 9(7):570. (PMID: 32630250) ; Pfeiffer SE, Barbarese E, Bhat S (1981) Noncoordinate regulation of myelinogenic parameters in primary cultures of dissociated fetal rat brain. J Neurosci Res 6(3):369–380. (PMID: 6170762) ; Rudick RA, Rani MR, Xu Y, Lee JC, Na J, Shrock J, Josyula A, Fisher E, Ransohoff RM (2011) Excessive biologic response to IFNβ is associated with poor treatment response in patients with multiple sclerosis. PLoS ONE 6(5):e19262. (PMID: 216029343094352) ; Sams EC (2021) Oligodendrocytes in the aging brain. Neuronal Signal 5(3):NS20210008. (PMID: 342908878264650) ; Sen MK, Mahns DA, Coorssen JR, Shortland PJ (2019) Behavioural phenotypes in the cuprizone model of central nervous system demyelination. Neurosci Biobehav Rev 107:23–46. (PMID: 31442519) ; Sen MK, Almuslehi MSM, Coorssen JR, Mahns DA, Shortland PJ (2020) Behavioural and histological changes in cuprizone-fed mice. Brain Behav Immun 87:508–523. (PMID: 32014578) ; Shen R, Deng W, Li C, Zeng G (2015) A natural flavonoid glucoside icariin inhibits Th1 and Th17 cell differentiation and ameliorates experimental autoimmune encephalomyelitis. Int Immunopharmacol 24(2):224–231. (PMID: 25528476) ; Singh S, Metz I, Amor S, van der Valk P, Stadelmann C, Brück W (2013) Microglial nodules in early white matter are associated with degenerating axons. Acta Neuropathol 125(4):595–608. (PMID: 233548343611040) ; Sivandzade F, Prasad S, Bhalerao A, Cucullo L (2019) NRF2 and NF-қB interplay in cerebrovascular and neurodegenerative disorders: Molecular mechanisms and possible therapeutic approaches. Redox Biol 21:101059. (PMID: 30576920) ; Stangel M, Kuhlmann T, Matthews PM, Kilpatrick TJ (2017) Achievements and obstacles of remyelinating therapies in multiple sclerosis. Nat Rev Neurol 13(12):742–754. (PMID: 29146953) ; Stark JC, Wallace E, Lim R, Leaw B (2018) Characterization and isolation of mouse primary microglia by density gradient centrifugation. J vis Exp 132:57065. ; Steelman AJ, Thompson JP, Li J (2012) Demyelination and remyelination in anatomically distinct regions of the corpus callosum following cuprizone intoxication. Neurosci Res 72(1):32–42. (PMID: 22015947) ; Sze SC, Tong Y, Ng TB, Cheng CL, Cheung HP (2010) Herba Epimedii: anti-oxidative properties and its medical implications. Molecules 15(11):7861-7870. (PMID: 210602946259234) ; Tamashiro TT, Dalgard CL, Byrnes KR (2012) Primary microglia isolation from mixed glial cell cultures of neonatal rat brain tissue. J Vis Exp 66:e3814. ; Tan J, Li W, Teng Z, Wang G, Li Y, Zhang Y. Kaohsiung J (2022) Senkyunolide H inhibits activation of microglia and attenuates lipopolysaccharide-mediated neuroinflammation and oxidative stress in BV2 microglia cells via regulating ERK and NF-κB pathway. Med Sci. 38(4):378–384. ; Teleanu DM, Niculescu AG, Lungu II, Radu CI, Vladâcenco O, Roza E, Costăchescu B, Grumezescu AM, Teleanu RI (2022) An overview of oxidative stress, neuroinflammation, and neurodegenerative diseases. Int J Mol Sci 23(11):5938. (PMID: 356826159180653) ; Thapa A, Carroll NJ (2017) Dietary modulation of oxidative stress in Alzheimer’s Disease. Int J Mol Sci 18(7):1583. (PMID: 287539845536070) ; Tian H, Ding N, Guo M, Wang S, Wang Z, Liu H, Yang J, Li Y, Ren J, Jiang J, Li Z (2019) Analysis of learning and memory ability in an Alzheimer’s disease mouse model using the Morris water maze. J Vis Exp. https://doi.org/10.3791/60055. (PMID: 10.3791/6005531736488) ; Tuoheti A, Gu X, Cheng X, Zhang H (2021) Silencing Nrf2 attenuates chronic suppurative otitis media by inhibiting pro-inflammatory cytokine secretion through up-regulating TLR4. Innate Immun 27(1):70–80. (PMID: 32579053) ; Wang Y, Shang C, Zhang Y, Xin L, Jiao L, Xiang M, Shen Z, Chen C, Ding F, Lu Y, Cui X (2023) Regulatory mechanism of icariin in cardiovascular and neurological diseases. Biomed Pharmacother 158:114156. (PMID: 36584431) ; Waslo C, Bourdette D, Gray N, Wright K, Spain R (2019) Lipoic acid and other antioxidants as therapies for multiple sclerosis. Curr Treat Options Neurol 21(6):26. (PMID: 31056714) ; Wei Z, Deng X, Hong M, Su Q, Liu A, Huang Y, Yu Q, Peng Z (2015) Icariin has synergistic effects with methylprednisolone to ameliorate EAE via modulating HPA function, promoting anti-inflammatory and anti-apoptotic effects. Int J Clin Exp Med 8(11):20188–20197. (PMID: 268849314723776) ; Wei Z, Wang M, Hong M, Diao S, Liu A, Huang Y, Yu Q, Peng Z (2016) Icariin exerts estrogen-like activity in ameliorating EAE via mediating estrogen receptorβ, modulating HPA function and glucocorticoid receptor expression. Am J Transl Res 8(4):1910–1918. (PMID: 271863154859920) ; Yankelevitch-Yahav R, Franko M, Huly A, Doron R (2015) The forced swim test as a model of depressive-like behavior. J vis Exp 97:52587. ; Zhang B, Wang G, He J, Yang Q, Li D, Li J, Zhang F (2019) Icariin attenuates neuroinflammation and exerts dopamine neuroprotection via a Nrf2-dependent manner. J Neuroinflammation 16(1):92. (PMID: 310104226477740) ; Zhen W, Liu A, Lu J, Zhang W, Tattersall D, Wang J (2017) An alternative cuprizone-induced demyelination and remyelination mouse model. ASN Neuro 9(4):1759091417725174. (PMID: 288407555574485) ; Zheng XX, Li YC, Yang KL, He ZX, Wang ZL, Wang X, Jing HL, Cao YJ (2021) Icariin reduces Glu-induced excitatory neurotoxicity via antioxidative and antiapoptotic pathways in SH-SY5Y cells. Phytother Res 35(6):3377–3389. (PMID: 33891785) ; Zirngibl M, Assinck P, Sizov A, Caprariello AV, Plemel JR (2022) Oligodendrocyte death and myelin loss in the cuprizone model: an updated overview of the intrinsic and extrinsic causes of cuprizone demyelination. Mol Neurodegener 17(1):34. (PMID: 355260049077942) Grant Information: 82004028 Innovative Research Group Project of the National Natural Science Foundation of China Contributed Indexing: Keywords: CPZ demyelination; Icariin; Microglia; Nrf2/NF-κB signaling pathways; Oxidative stress/inflammation Substance Nomenclature: 0 (Antioxidants) ; VNM47R2QSQ (icariin) ; 5N16U7E0AO (Cuprizone) ; 0 (Toll-Like Receptor 4) ; 0 (NF-kappa B) ; 0 (NF-E2-Related Factor 2) ; 0 (Anti-Inflammatory Agents) ; 0 (Cytokines) ; 0 (Flavonoids) Entry Date(s): Date Created: 20240104 Date Completed: 20240304 Latest Revision: 20240304 Update Code: 20240304

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Icariin ameliorates the cuprizone-induced demyelination associated with antioxidation and anti-inflammation.