NF-κB信号通路在硬骨鱼免疫中的作用研究进展

doi:10.16378/j.cnki.1003-1111.20153

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[1] SINGH H, SEN R, BALTIMORE D, et al. A nuclear factor that binds to a conserved sequence motif in transcriptional control elements of immunoglobulin genes[J].Nature,1986,319(6049):154-158.
[2] BONIZZI G, KARIN M. The two NF-kappa B activation pathways and their role in innate and adaptive immunity[J].Trends in Immunology,2004,25(6):280-288.
[3] SIEBENLIST U, FRANZOSO G, BROWN K. Structure, regulation and function of NF-kappa B[J].Annual Review of Cell Biology,1994,10:405-455.
[4] BEG A A, RUBEN S M, SCHEINMAN R I, et al. I kappa B interacts with the nuclear localization sequences of the subunits of NF-kappa B:a mechanism for cytoplasmic retention[J].Genes & Development,1992,6(10):1899-1913.
[5] GHOSH S, HAYDEN M S. New regulators of NF-κB in inflammation[J].Nature Reviews Immunology,2008,8(11):837-848.
[6] GHOSH S, MAY M J, KOPP E B. NF-kappa B and Rel proteins:evolutionarily conserved mediators of immune responses[J].Annual Review of Immunology,1998,16:225-260.
[7] GOVIND S. Control of development and immunity by rel transcription factors in Drosophila[J].Oncogene,1999,18(49):6875-6887.
[8] CORREA R G, TERGAONKAR V, NG J K, et al. Characterization of NF-kappa B/I kappa B proteins in zebrafish and their involvement in notochord development[J].Molecular and Cellular Biology,2004,24(12):5257-5268.
[9] BALDWIN A S. The NF-kappa B and I kappa B proteins:new discoveries and insights[J].Annual Review of Immunology,1996,14:649-683.
[10] DIDONATO J A, HAYAKAWA M, ROTHWARF D M, et al. A cytokine-responsive IκB kinase that activates the transcription factor NF-κB[J].Nature,1997,388(6642):548-554.
[11] CHEN J Q, CHEN Z J. Regulation of NF-κB by ubiquitination[J].Current Opinion in Immunology,2013,25(1):4-12.
[12] PEREIRA C, RODRIGUES I S, PEREIRA L M G, et al. Role of AIP56 disulphide bond and its reduction by cytosolic redox systems for efficient intoxication[J].Cellular Microbiology,2020,22(1):e13109.
[13] XIE X K, XU Z K, XU K, et al. DUSP19 mediates spinal cord injury-induced apoptosis and inflammation in mouse primary microglia cells via the NF-κB signaling pathway[J]. Neurological Research,2020,42(1):31-38.
[14] LUO S W, WANG W N, SUN Z M, et al. Molecular cloning, characterization and expression analysis of (B-cell lymphoma-2 associated X protein) Bax in the orange-spotted grouper (Epinephelus coioides) after the Vibrio alginolyticus challenge[J]. Developmental & Comparative Immunology,2016,60:66-79.
[15] QIU W H, HU J Q, MAGNUSON J T, et al. Evidence linking exposure of fish primary macrophages to antibiotics activates the NF-kB pathway[J].Environment International,2020,138:105624.
[16] PIRES B, SILVA R, FERREIRA G, et al. NF-kappa B:two sides of the same coin[J].Genes,2018,9(1):24.
[17] HAN X Q, GAO F Y, LU M X, et al. Identification and characterisation of tumour necrosis factor receptor (TNFR) associated factor 3 from Nile tilapia, Oreochromis niloticus[J].Journal of Fish Biology,2020,96(1):185-193.
[18] JANJUHA S, SINGH S P, TSAKMAKI A, et al. Age-related islet inflammation marks the proliferative decline of pancreatic beta-cells in zebrafish[J].eLife,2018,7:e32965.
[19] YANG J, GONG Y F, CAI J Z, et al. Chlorpyrifos induces redox imbalance-dependent inflammation in common carp lymphocyte through dysfunction of T-cell receptor γ[J].Journal of Fish Diseases,2020,43(4):423-430.
[20] 赵雪延.鮸鱼IRF9基因及其在免疫信号通路中的作用研究[D].舟山:浙江海洋大学,2018:38-41.
[21] ZHAO X Y, YAN X L, HUO R X, et al. IRF₃ enhances NF-κB activation by targeting IκBα for degradation in teleost fish[J].Developmental & Comparative Immunology,2020,106:103632.
[22] CHEN B, LI C, YAO J, et al. Zebrafish NIK mediates IFN induction by regulating activation of IRF₃ and NF-κB[J].Journal of Immunology,2020,204(7):1881-1891.
[23] 王海舟.草鱼NF-κB信号通路激活及其调控的分子机制[D].南昌:南昌大学,2017:48-54.
[24] YAN X L, CUI J X, LIU X Z, et al. microRNA-144 regulates the NF-κB signaling in miiuy croaker via targeting IL1β[J].Developmental & Comparative Immunology,2019,96:47-50.
[25] COGSWELL P C, KASHATUS D F, KEIFER J A, et al. NF-κb and iκbα are found in the mitochondria:evidence for regulation of mitochondrial gene expression by NF-κb[J].Journal of Biological Chemistry,2003,278(5):2963-2968.
[26] GUPTA S C, SUNDARAM C, REUTER S, et al. Inhibiting NF-κB activation by small molecules as a therapeutic strategy[J].Biochimica et Biophysica Acta,2010,1799(10/11/12):775-787.
[27] 黄青丽.草鱼p53介导的NF-κB与PKR的转录调控分析[D].南昌:南昌大学,2018:34.
[28] 杨冰贞,张民,王克坚.NF-κB信号通路在鱼类先天性免疫中的作用[J].生物技术通报,2014(1):46-52.
[29] SU Y N, WU P, FENG L, et al. The improved growth performance and enhanced immune function by DL-methionyl-DL-methionine are associated with NF-κB and TOR signalling in intestine of juvenile grass carp (Ctenopharyngodon idella)[J].Fish & Shellfish Immunology,2018,74:101-118.
[30] PAN F Y, WU P, FENG L, et al. Methionine hydroxy analogue improves intestinal immunological and physical barrier function in young grass carp (Ctenopharyngodon idella)[J].Fish & Shellfish Immunology,2017,64:122-136.
[31] QIU W H, ZHAN H Y, TIAN Y Q, et al. The in vivo action of chronic bisphenol F showing potential immune disturbance in juvenile common carp (Cyprinus carpio)[J].Chemosphere,2018,205:506-513.
[32] KONG H J, NAM B H, KIM Y O, et al. Characterization of the flounder IL-6 promoter and its regulation by the p65 NF-κB subunit[J].Fish & Shellfish Immunology,2010,28(5/6):961-964.
[33] PAN J H, FENG L, JIANG W D, et al. Vitamin E deficiency depressed fish growth, disease resistance, and the immunity and structural integrity of immune organs in grass carp (Ctenopharyngodon idella):referring to NF-κB, TOR and Nrf2 signaling[J].Fish & Shellfish Immunology,2017,60:219-236.
[34] PAN J H, FENG L, JIANG W D, et al. Vitamin E deficiency depressed gill immune response and physical barrier referring to NF-κB, TOR, Nrf2 and MLCK signalling in grass carp (Ctenopharyngodon idella) under infection of Flavobacterium columnare[J]. Aquaculture,2018,484:13-27.
[35] FENG L, LI S Q, JIANG W D, et al. Deficiency of dietary niacin impaired intestinal mucosal immune function via regulating intestinal NF-κB, Nrf2 and MLCK signaling pathways in young grass carp (Ctenopharyngodon idella)[J].Fish & Shellfish Immunology,2016,49:177-193.
[36] FENG L, LI W, LIU Y, et al. Dietary phenylalanine-improved intestinal barrier health in young grass carp (Ctenopharyngodon idella) is associated with increased immune status and regulated gene expression of cytokines, tight junction proteins, antioxidant enzymes and related signalling molecules[J]. Fish & Shellfish Immunology,2015,45(2):495-509.
[37] LI M Y, GUO W Q, GUO G L, et al. Effect of sub-chronic exposure to selenium and Allium mongolicum Regel flavonoids on Channa argus: bioaccumulation, oxidative stress, immune responses and immune-related signaling molecules[J]. Fish & Shellfish Immunology,2019,91:122-129.
[38] LIU Y, CHEN Z C, DAI J H, et al. The protective role of glutamine on enteropathy induced by high dose of soybean meal in turbot, Scophthalmus maximus L[J].Aquaculture,2018,497:510-519.
[39] GUO J S, WU P H, CAO J L, et al. The PFOS disturbed immunomodulatory functions via nuclear factor-κB signaling in liver of zebrafish (Danio rerio)[J].Fish & Shellfish Immunology,2019,91:87-98.
[40] 郭赛男.生命周期环境剂量镉暴露对斑马鱼免疫反应的影响研究[D].舟山:浙江海洋大学,2018:33-34.
[41] MARTÍNEZ-NAVARRO F J, MARTÍNEZ-MORCILLO F J, DE OLIVEIRA S, et al. Hydrogen peroxide in neutrophil inflammation:lesson from the zebrafish[J].Developmental & Comparative Immunology,2020,105:103583.
[42] CAO L P, DING W D, JIA R, et al. Anti-inflammatory and hepatoprotective effects of glycyrrhetinic acid on CCl₄-induced damage in precision-cut liver slices from Jian carp (Cyprinus carpio var.Jian) through inhibition of the nf-kΒ pathway[J].Fish & Shellfish Immunology,2017,64:234-242.
[43] 甘海燕,杨竹青,王自蕊,等.城市生活污水对斑马鱼肝脏组织结构和NF-κB基因表达的影响[J].江西农业大学学报,2013, 35(1):179-183.
[44] DUAN X D, JIANG W D, WU P, et al. Soybean β-conglycinin caused intestinal inflammation and oxidative damage in association with NF-κB, TOR and Nrf2 in juvenile grass carp (Ctenopharyngodon idella):varying among different intestinal segments[J].Fish & Shellfish Immunology,2019,95:105-116.
[45] LI L, SONG M, PENG B, et al. Identification and innate immunity mechanism of protective immunogens from extracellular proteins of Edwardsiella tarda[J]. Fish & Shellfish Immunology,2020,97:41-45.
[46] ZHANG Y, TAKAGI N, YUAN B, et al. The protection of indolealkylamines from LPS-induced inflammation in zebrafish[J].Journal of Ethnopharmacology,2019,243:112122.
[47] ZHENG H O, GUO Q, DUAN X Z, et al. L-arginine inhibited apoptosis of fish leukocytes via regulation of NF-κB-mediated inflammation, NO synthesis, and anti-oxidant capacity[J].Biochimie,2019,158:62-72.
[48] JIANG J, YIN L, LI J Y, et al. Glutamate attenuates lipopolysaccharide-induced oxidative damage and mRNA expression changes of tight junction and defensin proteins, inflammatory and apoptosis response signaling molecules in the intestine of fish[J]. Fish & Shellfish Immunology,2017,70:473-484.
[49] SHANAKA K A S N, THARUKA M D N, SELLATHTHURAI S, et al. Characterization and expression analysis of rockfish (Sebastes schlegelii) myeloid differentiation factor-88 (SsMyD88) and evaluation of its ability to induce inflammatory cytokines through NF-κB[J]. Fish & Shellfish Immunology,2020,99:59-72.
[50] 孙家贤,郭富华,黄容,等.草鱼NF-κB2和IκBα基因的组织分布及对GCRV病毒感染的应答分析[J].南昌大学学报(理科版),2016,40(6):592-599.
[51] JANG J H, LEE H M, KIM H, et al. Molecular cloning and functional analysis of deubiquitinase CYLD in rainbow trout, Oncorhynchus mykiss[J]. Fish & Shellfish Immunology,2020,101:135-142.
[52] JEONG J, CHA H, HAN M H, et al. Spermidine protects against oxidative stress in inflammation models using macrophages and zebrafish[J]. Biomolecules & Therapeutics,2018,26(2):146-156.
[53] MONMAI C, GO S H, SHIN I S, et al. Anti-inflammatory effect of Asterias amurensis fatty acids through NF-κB and MAPK pathways against LPS-stimulated RAW_264.₇ cells[J].Journal of Microbiology and Biotechnology,2018,28(10):1635-1644.
[54] LI P, YE J Z, ZENG S D, et al. Florfenicol alleviated lipopolysaccharide (LPS)-induced inflammatory responses in Ctenopharyngodon idella through inhibiting toll/NF-κB signaling pathways[J].Fish & Shellfish Immunology,2019,94:479-484.
[55] YI C C, LIU C H, CHUANG K P, et al. A potential probiotic Chromobacterium aquaticum with bacteriocin-like activity enhances the expression of indicator genes associated with nutrient metabolism, growth performance and innate immunity against pathogen infections in zebrafish (Danio rerio)[J]. Fish & Shellfish Immunology,2019,93:124-134.
[56] RASTGAR S, MOVAHEDINIA A, SALAMAT N, et al. Interruption of immune responses in primary macrophages exposed to nonylphenol provides insights into the role of ER and NF-κB in immunotoxicity of Persian sturgeon[J]. Fish & Shellfish Immunology,2019,86:125-134.
[57] SUN J, BIAN C C, JI S H, et al. Greater potency of adipocytes compared with preadipocytes under lipopolysaccharide exposure in grass carp Ctenopharyngodon idella[J].Fish & Shellfish Immunology,2019,91:343-349.
[58] IVANOVA I G, PERKINS N D. Hypoxia induces rapid, STAT3 and ROS dependent, mitochondrial translocation of RelA(p65) and IκBα[J]. Bioscience Reports,2019,39(9):BSR20192101.
[59] BENTIRES-ALJ M, DEJARDIN E, VIATOUR P, et al. Inhibition of the NF-kappa B transcription factor increases Bax expression in cancer cell lines[J].Oncogene,2001,20(22):2805-2813.
[60] LI L, HUANG T, TIAN C, et al. The defensive effect of phellodendrine against AAPH-induced oxidative stress through regulating the AKT/NF-κB pathway in zebrafish embryos[J]. Life Sciences,2016,157:97-106.
[61] CHO S H, HEO S J, YANG H W, et al. Protective effect of 3-bromo-4,5-dihydroxybenzaldehyde from Polysiphonia morrowii Harvey against hydrogen peroxide-induced oxidative stress in vitro and in vivo[J].Journal of Microbiology and Biotechnology,2019,29(8):1193-1203.
[62] JAAFARU M S, NORDIN N, ROSLI R, et al. Neuroprotective effects of glucomoringin-isothiocyanate against H₂O₂-induced cytotoxicity in neuroblastoma (SH-SY₅Y) cells[J].Neuro Toxicology,2019,75:89-104.
[63] JIA R, CAO L P, DU J L, et al. Effects of carbon tetrachloride on oxidative stress, inflammatory response and hepatocyte apoptosis in common carp (Cyprinus carpio)[J]. Aquatic Toxicology,2014,152:11-19.
[64] ZHANG Y, CHEN P, LIANG X F, et al. Metabolic disorder induces fatty liver in Japanese seabass, Lateolabrax japonicas fed a full plant protein diet and regulated by cAMP-JNK/NF-κB-caspase signal pathway[J]. Fish & Shellfish Immunology,2019,90:223-234.
[65] SILVA D S, PEREIRA L M G, MOREIRA A R, et al. The apoptogenic toxin AIP56 is a metalloprotease A-B toxin that cleaves NF-κb P65[J].PLoS Pathogens,2013,9(2):e1003128.
[66] KUMAR S, SINGH S V. Inhibition of NF-κB signaling pathway by astaxanthin supplementation for prevention of heat stress-induced inflammatory changes and apoptosis in Karan Fries heifers[J]. Tropical Animal Health and Production,2019,51(5):1125-1134.
[67] 吕聪,孙麟,冯皓宇,等.减少氧糖剥夺/复氧后脊髓星形胶质细胞凋亡:抑制高迁移率族蛋白B1/核转录因子κB通路的作用[J].中国组织工程研究,2019,23(33):5353-5359.
[68] 周伟,庾国桢,刘亚敏,等.黄芩苷通过IκBα/NF-κB通路调节Aβ_25-35诱导的HT22细胞凋亡[J].中成药,2019,41(11):2765-2769.
[69] KANSAL S, BHATNAGAR A, AGNIHOTRI N. Fish oil suppresses cell growth and metastatic potential by regulating PTEN and NF-κB signaling in colorectal cancer[J].PLoS One,2014,9(1):e84627.