参考文献/References:
[1] DONG R,ZHANG B,TAN B Q,LIN N M.Long non-coding RNAs as the regula-tors and targets of macrophage M2 polarization[J].Life Sci,2021,266:118895.
[2] FUNES S C,RIOS M,ESCOBAR-VERA J,KALERGIS A M.Implications of macro-phage polarization in autoimmunity[J].Immunology,2018,154(2):186-195.
[3] XU W,ZHAO X W,DAHA M R,KOOTEN C V.Reversible differentiation of pro- and anti-inflammatory macrophages[J].Mol Immunol,2013,53(3):179-186.
[4] ARABPOUR M,SAGHAZADEH A,REZAEI N.Anti-inflammatory and M2 macrophage polarization-promoting effect of mesenchymalstem- cell-derived exosomes[J].Int Immunopharmacol,2021,97:107823.
[5] WANG N,LIANG H W,ZEN K.Molecular mechanisms that influence the macrophage M1-M2 polarization balance[J].Front Immunol,2014,5:614.
[6] SHAPOURI-MOGHADDAM A,MOHAMMADIAN S,VAZINI H,TAGHADOSI M,ESMAEILI S A,MARDINANI F,et al.Macrophage plasticity,polarization,and function in health and disease[J].J Cell Physiol,2018,233(9):6425-6440.
[7] TSIROUKI T,DA STIRIDOU A,SYMEONIDIS C,TOUNAKAKAI O,BRAZITIKOU I,KALOGEROPOULOS C,et al.A focus on the epidemiology of uveitis[J].Ocul Immunol Inflamm,2018,26(1):2-16.
[8] MUHAMMAD F,TRIVETT A,WANG D,LEE D J.Tissue specific production of MicroRNA5 inhibits melanocortin 5 receptor dependent suppressor macrophages to promote experimental autoimmune uveitis[J].Eur J Immunol,2019,49(11):2074-2082.
[9] BARBOUR M,ALLAN D,XU H,PEI C,CHEN M,NIEDBALA W,et al.IL-33 attenuates the development of experimental autoimmune uveitis[J].Eur J Immunol,2015,44(11):3320-3329.
[10] 殷学伟,郭励劼,周梦贤,邱岩,毕宏生,郭大东.龙胆泻肝汤对实验性自身免疫性葡萄膜炎大鼠M1/M2巨噬细胞极化平衡的调控作用[J].眼科新进展,2021,41(5):408-412.
YIN X W,GUO L J,ZHOU M X,QIU Y,BI H S,GUO D D.Regulatory of Longdan Xiegan Decoction in polarization balance of M1/M2 macrophagesin rats with experimental autoimmune uveitis[J].Rec Adv Ophthalmol,2021,41(5):408-412.
[11] WONG W L,SU X,LI X,KLEIN R,CHENG C Y,WONG T Y,et al.Global prevalence of age-related macular degeneration and disease burden projection for 2020 and 2040:a systematic review and meta-analysis[J].Lancet Glob Health,2014,2(2):e106-e116.
[12] PEREZ V L,CASPI R R.Immune mechanisms in inflammatory and degenerative eye disease[J].Trends Immunol,2015,6(6):354-363.
[13] XU Y,CUI K X,LI J,TANG X Y,LIN J Q,LU X,et al.Melatonin attenuates choroidal neovascularization by regulating macrophage/microglia polarization via inhibition of RhoA/ROCK signaling pathway[J].J Pineal Res,2020,69(1):e12660.
[14] LAI K B,GONG Y J,ZHAO W B,LI L H,HUANG C X,XU F B,et al.Triptolide attenuates laser-induced choroidal neovascularization via M2 macrophage in a mouse model [J].Biomed Pharmacother,2020,129:110312.
[15] LIU X J,GUO A S,TU Y Y,LI W D,LI L,LIU W,et al.Fruquintinib inhibits VEGF/VEGFR2 axis of choroidal endothelial cells and M1-type macrophages to protect against mouse laser-induced choroidal neovascularization[J].Cell Death Dis,2020,11(11):1016.
[16] ZHANG P,LU B,ZHANG Q,XU F,ZHANG R,WANG C,et al.LncRNA NEAT1 Sponges MiRNA-148a-3p to suppress choroidal neovascularization and M2 macrophage polarization[J].Mol Immunol,2020,127:212-222.
[17] ZHAO S,LU L,LIU Q,CHEN J,YUAN Q,QIU S,et al.MiR-505 promotes M2 polarization in choroidal neovascularizati on model mice bytargeting transmembrane protein 229B[J].Scand J Immunol,2019,90(6):e12832.
[18] LI C,MIAO X,LI F,WANG S,LIU Q,WANG Y,et al.Oxidative stress-related mechanisms and antioxidant therapy in diabetic retinopathy[J].Oxid Med Cell Longev,2017,2017:9702820.
[19] ZHOU Y D,YOSHIDA S,PENG Y Q,KOBAYASHI Y,ZHANG L S,TANG L S.Diverse roles of macrophages in intraocular neovascular diseases:a review[J].Int J Ophthalmol,2017,10(12):1902.
[20] ZHOU Y,YOSHIDA S,NAKAO S,YOSHIMURA T,KOBAYASHI Y,NAKAMA T,et al.M2 macrophages enhance pathological neovascularization in the mouse model of oxygen-induced retinopathy[J].Invest Ophthalmol Vis Sci,2015,56(8):6990.
[21] GAO S,LI C,ZHU Y,WANG Y,SUI A,ZHONG Y,et al.PEDF mediates pathological neovascularization by regulating macrophage recruitment and polarization in the mouse model of oxygen-induced retinopathy[J].Sci Rep,2017,7:42846.
[22] ZHU Y J,ZHANG L,LU Q,GAO Y S,CAI Y J,SUI A L,et al.Identification of different macrophage subpopulations with distinct activities in a mouse model of oxygen-induced retinopathy[J].Int J Mol Med,2017,40(2):281-292.
[23] SUI A L,CHEN X P,DEMETRIADES A M,SHEN J K,CAI Y J,YAO Y Y,et al.Inhibiting NF-κB signaling activation reduces retinal neovascularization by promoting a polarization shift in macrophages[J].Invest Ophthalmol Vis Sci,2020,61(6):4.
[24] IDREES S,SRIDHAR J,KURIYAN A E.Proliferative vitreoretinopathy:a review[J].Int Ophthalmol Clin,2019,59(1):221-240.
[25] QIN D,JIANG Y,JIN X.Effect of macrophage migration inhibitory factor on inflammatory cytokines and fibrogenic gene expression in human RPE cells[J].Mol Med Rep,2019,20(1):830-836.
[26] ZHANG J,ZHOU Q,YUAN G,DONG M,SHI W.Notch signaling regulates M2 type macrophage polarization during the development of proliferative vitreoretinopathy[J].Cell Immunol,2015,298(1-2):77-82.
[27] ZHU S,CHEN Y,LAO J,WU C,ZHAN X,WU Y,et al.Signaling lymphocytic activation molecule family-7 alleviates corneal inflammation by promoting M2 polarization[J].J Infect Dis,2021,223(5):854-865.
[28] JIANG N,ZHANG L,ZHAO G Q,LIN J,WANG Q,LI C,et al.Indoleamine 2,3-dioxygenase regulates macrophage recruitment,polarization and phagocytosis in aspergillus fumigatus keratitis[J].Invest Ophthalmol Vis Sci,2020,61(8):28.
[29] DHANUSHKODI N R,SRIVASTAVA R,COULON P G A,PRAKASH S,ROY S,BAGNOL D,et al.Healing of ocular herpetic disease following treatment with an engineered FGF-1 is associated with increased corneal anti-inflammatory M2 macrophages[J].Front Immunol,2021,12:673763.
[30] ZHU G,ZHAO G,LIN J,LI C,WANG Q,XU Q,et al.FCN-A mediates the inflammatory response and the macrophage polarization in Aspergillus fumigatus keratitis of mice by activating the MAPK signaling pathway[J].Int Immunopharmacol,2020,83:106473.
[31] AMOUZEGAR A,CHAUHAN S K,DANA R.Alloimmunity and Tolerance in Corneal Transplantation[J].J Immunol,2016,196(10):3983-3991.
[32] DAI Y,CHENG X K,YU J F,CHEN X Q,XIAO Y C,TANG F,et al.Hemin promotes corneal allograft survival through the suppression of macrophage recruitment and activation[J].Invest Ophthalmol Vis Sci,2018,59(10):3952-3962.
[33] TIAN H,LIN S,WU J,MA M,YU J,ZENG Y,et al.Kaempferol alleviates corneal transplantation rejection by inhibiting NLRP3 inflammasome activation and macrophage M1 polarization via promoting autophagy[J].Exp Eye Res,2021,208:108627.
[34] YU J F,LI Y,LI Z,LI H,CHEN Y,CHEN X,et al.Subconjunctival injections of dimethyl fumarate inhibit lymphangiogenesis and allograft rejection in the rat cornea[J].Int Immunopharmacol,2021,96:107580.
[35] SRIVASTAVA A,MAKARENKOVA H P.Innate immunity and biological therapies for the treatment of sjgren’s syndrome[J].Int J Mol Sci,2020,21(23):9172.
[36] MENG Y F,PU Q,DAI S Y,MA Q,LI X,ZHU W.Nicotinamide mononucleotide alleviates hyperosmolarity-induced IL-17a secretion and macrophage activation in corneal epithelial cells/macrophage co-culture system[J].J Inflamm Res,2021,14:479-493.
[37] LU X,LI N,ZHAO L,GUO D,YI H,YANG L,et al.Human umbilical cord mesenchymal stem cells alleviate ongoing autoimmune dacryoadenitis in rabbits via polarizing macrophages into an anti-inflammatory phenotype[J].Exp Eye Res,2019,191:107905.
[38] BRONKHORST I H G,JAGER M J.Uveal melanoma:the inflammatory microenvironment[J].J Innate Immun,2012,4(5-6):454-462.
[39] BRONKHORST I H,LY L V,JORDANOVA E S,VROLIJK J,VERSLUIS M,LUYTEN P M L,et al.Detection of M2-macrophages in uveal melanoma and relation with survival[J].Invest Ophthalmol Vis Sci,2011,52(2):643-650.
[40] LIU S S,ZHANG J W,FANG S,ZHANG Q,ZHU G D,TIAN Y F,et al.Macrophage polarization contributes to the efficacy of an oncolytic HSV-1 targeting human uveal melanoma in a murine xenograft model[J].Exp Eye Res,2021,202:108285.
[41] BREMOND-GIGNAC D.Myopia in children[J].Med Sci,2020,36(8-9):763-768.
[42] 李东辉,龙琴,王静怡,陈晨.后部巩膜F4/80和CD206阳性巨噬细胞在小鼠形觉剥夺性近视发生发展中的变化[J].眼科新进展,2019,39(12):1116-1119.
LI D H,LONG Q,WANG J Y,CHEN C.Changes in F40/80 and CD206 positive macrophages in posterior sclera in the development of form-deprivation myopia of mice[J].Rec Adv Ophthalmol,2019,39(12):1116-1119.