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For: McCoy CE, O’Neill LA. The role of toll-like receptors in macrophages. Front Biosci. 2008;13:62-70. [PMID: 17981528 DOI: 10.2741/2660] [Cited by in Crossref: 47] [Cited by in F6Publishing: 44] [Article Influence: 3.6] [Reference Citation Analysis]
Number Citing Articles
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2 Pone EJ, Zan H, Zhang J, Al-Qahtani A, Xu Z, Casali P. Toll-like receptors and B-cell receptors synergize to induce immunoglobulin class-switch DNA recombination: relevance to microbial antibody responses. Crit Rev Immunol 2010;30:1-29. [PMID: 20370617 DOI: 10.1615/critrevimmunol.v30.i1.10] [Cited by in Crossref: 78] [Cited by in F6Publishing: 55] [Article Influence: 7.1] [Reference Citation Analysis]
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5 Khan KN, Kitajima M, Fujishita A, Nakashima M, Masuzaki H. Toll-like receptor system and endometriosis. J Obstet Gynaecol Res 2013;39:1281-92. [PMID: 23855795 DOI: 10.1111/jog.12117] [Cited by in Crossref: 24] [Cited by in F6Publishing: 24] [Article Influence: 3.0] [Reference Citation Analysis]
6 Skivka LM, Prylutska SV, Rudyk MP, Khranovska NM, Opeida IV, Hurmach VV, Prylutskyy YI, Sukhodub LF, Ritter U. C60 fullerene and its nanocomplexes with anticancer drugs modulate circulating phagocyte functions and dramatically increase ROS generation in transformed monocytes. Cancer Nanotechnol 2018;9:8. [PMID: 30416604 DOI: 10.1186/s12645-017-0034-0] [Cited by in Crossref: 14] [Cited by in F6Publishing: 6] [Article Influence: 4.7] [Reference Citation Analysis]
7 Hou X, Zhou R, Wei H, Sun R, Tian Z. NKG2D-retinoic acid early inducible-1 recognition between natural killer cells and Kupffer cells in a novel murine natural killer cell-dependent fulminant hepatitis. Hepatology 2009;49:940-9. [PMID: 19177594 DOI: 10.1002/hep.22725] [Cited by in Crossref: 72] [Cited by in F6Publishing: 73] [Article Influence: 6.0] [Reference Citation Analysis]
8 Montero Vega MT, de Andrés Martín A. The significance of toll-like receptors in human diseases. Allergol Immunopathol (Madr) 2009;37:252-63. [PMID: 19853360 DOI: 10.1016/j.aller.2009.04.004] [Cited by in Crossref: 22] [Cited by in F6Publishing: 21] [Article Influence: 1.8] [Reference Citation Analysis]
9 Jeon JH, Ahn KB, Kim SK, Im J, Yun CH, Han SH. Bacterial flagellin induces IL-6 expression in human basophils. Mol Immunol 2015;65:168-76. [PMID: 25660969 DOI: 10.1016/j.molimm.2015.01.022] [Cited by in Crossref: 21] [Cited by in F6Publishing: 16] [Article Influence: 3.5] [Reference Citation Analysis]
10 Alegre ML, Leemans J, Le Moine A, Florquin S, De Wilde V, Chong A, Goldman M. The multiple facets of toll-like receptors in transplantation biology. Transplantation 2008;86:1-9. [PMID: 18622268 DOI: 10.1097/TP.0b013e31817c11e6] [Cited by in Crossref: 54] [Cited by in F6Publishing: 28] [Article Influence: 4.2] [Reference Citation Analysis]
11 Zhang L, Pavicic PG Jr, Datta S, Song Q, Xu X, Wei W, Su F, Rayman PA, Zhao C, Hamilton T. Unfolded Protein Response Differentially Regulates TLR4-Induced Cytokine Expression in Distinct Macrophage Populations. Front Immunol 2019;10:1390. [PMID: 31293572 DOI: 10.3389/fimmu.2019.01390] [Cited by in Crossref: 3] [Cited by in F6Publishing: 1] [Article Influence: 1.5] [Reference Citation Analysis]
12 Castelli M, Panerai A, Sacerdote P, Franchi S. Measurement of Macrophage Toll-Like Receptor 4 Expression After Morphine Treatment. In: Spampinato SM, editor. Opioid Receptors. New York: Springer; 2015. pp. 263-71. [DOI: 10.1007/978-1-4939-1708-2_22] [Cited by in Crossref: 2] [Cited by in F6Publishing: 2] [Article Influence: 0.3] [Reference Citation Analysis]
13 Fang X, Zaman MH, Guo X, Ding H, Xie C, Zhang X, Deng GM. Role of Hepatic Deposited Immunoglobulin G in the Pathogenesis of Liver Damage in Systemic Lupus Erythematosus. Front Immunol 2018;9:1457. [PMID: 29988500 DOI: 10.3389/fimmu.2018.01457] [Cited by in Crossref: 9] [Cited by in F6Publishing: 8] [Article Influence: 3.0] [Reference Citation Analysis]
14 Franchi S, Moretti S, Castelli M, Lattuada D, Scavullo C, Panerai AE, Sacerdote P. Mu opioid receptor activation modulates Toll like receptor 4 in murine macrophages. Brain, Behavior, and Immunity 2012;26:480-8. [DOI: 10.1016/j.bbi.2011.12.010] [Cited by in Crossref: 47] [Cited by in F6Publishing: 40] [Article Influence: 5.2] [Reference Citation Analysis]
15 Nadin-Davis SA, Fehlner-Gardiner C. Lyssaviruses: current trends. Adv Virus Res 2008;71:207-50. [PMID: 18585530 DOI: 10.1016/S0065-3527(08)00005-5] [Cited by in Crossref: 16] [Cited by in F6Publishing: 2] [Article Influence: 1.2] [Reference Citation Analysis]
16 Valladares RD, Nich C, Zwingenberger S, Li C, Swank KR, Gibon E, Rao AJ, Yao Z, Goodman SB. Toll-like receptors-2 and 4 are overexpressed in an experimental model of particle-induced osteolysis. J Biomed Mater Res A 2014;102:3004-11. [PMID: 24115330 DOI: 10.1002/jbm.a.34972] [Cited by in Crossref: 26] [Cited by in F6Publishing: 20] [Article Influence: 3.3] [Reference Citation Analysis]
17 Chadban SJ, Wu H, Hughes J. Macrophages and kidney transplantation. Semin Nephrol 2010;30:278-89. [PMID: 20620672 DOI: 10.1016/j.semnephrol.2010.03.009] [Cited by in Crossref: 28] [Cited by in F6Publishing: 23] [Article Influence: 2.5] [Reference Citation Analysis]
18 Tomer S, Chawla YK, Duseja A, Arora SK. Dominating expression of negative regulatory factors downmodulates major histocompatibility complex Class-II expression on dendritic cells in chronic hepatitis C infection. World J Gastroenterol 2016;22:5173-82. [PMID: 27298560 DOI: 10.3748/wjg.v22.i22.5173] [Cited by in CrossRef: 3] [Cited by in F6Publishing: 3] [Article Influence: 0.8] [Reference Citation Analysis]
19 Howell J, Angus P, Gow P, Visvanathan K. Toll-like receptors in hepatitis C infection: Implications for pathogenesis and treatment: Toll-like receptors in hepatitis C. J Gastroenterol Hepatol 2013;28:766-76. [DOI: 10.1111/jgh.12170] [Cited by in Crossref: 27] [Cited by in F6Publishing: 23] [Article Influence: 3.4] [Reference Citation Analysis]
20 Ryan A, Lynch M, Smith SM, Amu S, Nel HJ, McCoy CE, Dowling JK, Draper E, O'Reilly V, McCarthy C, O'Brien J, Ní Eidhin D, O'Connell MJ, Keogh B, Morton CO, Rogers TR, Fallon PG, O'Neill LA, Kelleher D, Loscher CE. A role for TLR4 in Clostridium difficile infection and the recognition of surface layer proteins. PLoS Pathog 2011;7:e1002076. [PMID: 21738466 DOI: 10.1371/journal.ppat.1002076] [Cited by in Crossref: 109] [Cited by in F6Publishing: 109] [Article Influence: 10.9] [Reference Citation Analysis]
21 Gehrau RC, Mas VR, Dumur CI, Suh JL, Sharma AK, Cathro HP, Maluf DG. Donor Hepatic Steatosis Induce Exacerbated Ischemia-Reperfusion Injury Through Activation of Innate Immune Response Molecular Pathways. Transplantation. 2015;99:2523-2533. [PMID: 26285018 DOI: 10.1097/tp.0000000000000857] [Cited by in Crossref: 31] [Cited by in F6Publishing: 18] [Article Influence: 6.2] [Reference Citation Analysis]
22 Mittal R, Gonzalez-Gomez I, Panigrahy A, Goth K, Bonnet R, Prasadarao NV. IL-10 administration reduces PGE-2 levels and promotes CR3-mediated clearance of Escherichia coli K1 by phagocytes in meningitis. J Exp Med 2010;207:1307-19. [PMID: 20498022 DOI: 10.1084/jem.20092265] [Cited by in Crossref: 40] [Cited by in F6Publishing: 35] [Article Influence: 3.6] [Reference Citation Analysis]
23 Potter KA, Buck AC, Self WK, Callanan ME, Sunil S, Capadona JR. The effect of resveratrol on neurodegeneration and blood brain barrier stability surrounding intracortical microelectrodes. Biomaterials 2013;34:7001-15. [PMID: 23791503 DOI: 10.1016/j.biomaterials.2013.05.035] [Cited by in Crossref: 84] [Cited by in F6Publishing: 73] [Article Influence: 10.5] [Reference Citation Analysis]
24 Tapping RI. Innate immune sensing and activation of cell surface Toll-like receptors. Seminars in Immunology 2009;21:175-84. [DOI: 10.1016/j.smim.2009.05.003] [Cited by in Crossref: 41] [Cited by in F6Publishing: 39] [Article Influence: 3.4] [Reference Citation Analysis]
25 Parvatiyar K, Zhang Z, Teles RM, Ouyang S, Jiang Y, Iyer SS, Zaver SA, Schenk M, Zeng S, Zhong W, Liu ZJ, Modlin RL, Liu YJ, Cheng G. The helicase DDX41 recognizes the bacterial secondary messengers cyclic di-GMP and cyclic di-AMP to activate a type I interferon immune response. Nat Immunol 2012;13:1155-61. [PMID: 23142775 DOI: 10.1038/ni.2460] [Cited by in Crossref: 265] [Cited by in F6Publishing: 238] [Article Influence: 29.4] [Reference Citation Analysis]
26 McGuire VA, Rosner D, Ananieva O, Ross EA, Elcombe SE, Naqvi S, van den Bosch MMW, Monk CE, Ruiz-Zorrilla Diez T, Clark AR, Arthur JSC. Beta Interferon Production Is Regulated by p38 Mitogen-Activated Protein Kinase in Macrophages via both MSK1/2- and Tristetraprolin-Dependent Pathways. Mol Cell Biol 2017;37:e00454-16. [PMID: 27795299 DOI: 10.1128/MCB.00454-16] [Cited by in Crossref: 8] [Cited by in F6Publishing: 7] [Article Influence: 1.6] [Reference Citation Analysis]
27 Khan KN, Fujishita A, Hiraki K, Kitajima M, Nakashima M, Fushiki S, Kitawaki J. Bacterial contamination hypothesis: a new concept in endometriosis. Reprod Med Biol 2018;17:125-33. [PMID: 29692669 DOI: 10.1002/rmb2.12083] [Cited by in Crossref: 42] [Cited by in F6Publishing: 32] [Article Influence: 14.0] [Reference Citation Analysis]
28 Sierra A, Abiega O, Shahraz A, Neumann H. Janus-faced microglia: beneficial and detrimental consequences of microglial phagocytosis. Front Cell Neurosci 2013;7:6. [PMID: 23386811 DOI: 10.3389/fncel.2013.00006] [Cited by in Crossref: 308] [Cited by in F6Publishing: 279] [Article Influence: 38.5] [Reference Citation Analysis]
29 Vogl C, Flatt T, Fuhrmann B, Hofmann E, Wallner B, Stiefvater R, Kovarik P, Strobl B, Müller M. Transcriptome analysis reveals a major impact of JAK protein tyrosine kinase 2 (Tyk2) on the expression of interferon-responsive and metabolic genes. BMC Genomics 2010;11:199. [PMID: 20338026 DOI: 10.1186/1471-2164-11-199] [Cited by in Crossref: 15] [Cited by in F6Publishing: 13] [Article Influence: 1.4] [Reference Citation Analysis]
30 Sillo A, Bloomfield G, Balest A, Balbo A, Pergolizzi B, Peracino B, Skelton J, Ivens A, Bozzaro S. Genome-wide transcriptional changes induced by phagocytosis or growth on bacteria in Dictyostelium. BMC Genomics 2008;9:291. [PMID: 18559084 DOI: 10.1186/1471-2164-9-291] [Cited by in Crossref: 46] [Cited by in F6Publishing: 45] [Article Influence: 3.5] [Reference Citation Analysis]
31 Chang Z. Recent development of the mononuclear phagocyte system: in memory of Metchnikoff and Ehrlich on the 100th Anniversary of the 1908 Nobel Prize in Physiology or Medicine. Biology of the Cell 2009;101:709-21. [DOI: 10.1042/bc20080227] [Cited by in Crossref: 34] [Cited by in F6Publishing: 12] [Article Influence: 3.8] [Reference Citation Analysis]
32 Seo DW, Yi YJ, Lee MS, Yun BS, Lee SM. Differential Modulation of Lipopolysaccharide-Induced Inflammatory Cytokine Production by and Antioxidant Activity of Fomentariol in RAW264.7 Cells. Mycobiology 2015;43:450-7. [PMID: 26839505 DOI: 10.5941/MYCO.2015.43.4.450] [Cited by in Crossref: 5] [Cited by in F6Publishing: 2] [Article Influence: 0.8] [Reference Citation Analysis]
33 Jain S, Chodisetti SB, Agrewala JN. CD40 signaling synergizes with TLR-2 in the BCR independent activation of resting B cells. PLoS One 2011;6:e20651. [PMID: 21674065 DOI: 10.1371/journal.pone.0020651] [Cited by in Crossref: 31] [Cited by in F6Publishing: 29] [Article Influence: 3.1] [Reference Citation Analysis]
34 Dinan TG. Inflammatory markers in depression. Current Opinion in Psychiatry 2009;22:32-6. [DOI: 10.1097/yco.0b013e328315a561] [Cited by in Crossref: 133] [Cited by in F6Publishing: 48] [Article Influence: 11.1] [Reference Citation Analysis]
35 Dias-Melicio LA, Fernandes RK, Rodrigues DR, Golim MA, Soares AM. Interleukin-18 increases TLR4 and mannose receptor expression and modulates cytokine production in human monocytes. Mediators Inflamm 2015;2015:236839. [PMID: 25873755 DOI: 10.1155/2015/236839] [Cited by in Crossref: 11] [Cited by in F6Publishing: 11] [Article Influence: 1.8] [Reference Citation Analysis]
36 Jitprasertwong P, Jaedicke KM, Nile CJ, Preshaw PM, Taylor JJ. Leptin enhances the secretion of interleukin (IL)-18, but not IL-1β, from human monocytes via activation of caspase-1. Cytokine 2014;65:222-30. [PMID: 24275551 DOI: 10.1016/j.cyto.2013.10.008] [Cited by in Crossref: 34] [Cited by in F6Publishing: 30] [Article Influence: 4.3] [Reference Citation Analysis]
37 Jiang X, Tian W, Sung YK, Qian J, Nicolls MR. Macrophages in solid organ transplantation. Vasc Cell 2014;6:5. [PMID: 24612731 DOI: 10.1186/2045-824X-6-5] [Cited by in Crossref: 21] [Cited by in F6Publishing: 10] [Article Influence: 3.0] [Reference Citation Analysis]
38 Schlaepfer E, Rochat MA, Duo L, Speck RF. Triggering TLR2, -3, -4, -5, and -8 reinforces the restrictive nature of M1- and M2-polarized macrophages to HIV. J Virol 2014;88:9769-81. [PMID: 24942590 DOI: 10.1128/JVI.01053-14] [Cited by in Crossref: 30] [Cited by in F6Publishing: 24] [Article Influence: 4.3] [Reference Citation Analysis]
39 Oˈneill LAJ. Editorial: Synergism between NOD-like receptors and Toll-like receptors in human B lymphocytes. Journal of Leukocyte Biology 2011;89:173-5. [DOI: 10.1189/jlb.0910521] [Cited by in Crossref: 4] [Cited by in F6Publishing: 4] [Article Influence: 0.4] [Reference Citation Analysis]
40 Abdelazeem KNM, Kalo MZ, Beer-Hammer S, Lang F. The gut microbiota metabolite urolithin A inhibits NF-κB activation in LPS stimulated BMDMs. Sci Rep 2021;11:7117. [PMID: 33782464 DOI: 10.1038/s41598-021-86514-6] [Cited by in Crossref: 2] [Cited by in F6Publishing: 1] [Article Influence: 2.0] [Reference Citation Analysis]
41 Li J, Wang X, Zhang F, Yin H. Toll-like receptors as therapeutic targets for autoimmune connective tissue diseases. Pharmacol Ther. 2013;138:441-451. [PMID: 23531543 DOI: 10.1016/j.pharmthera.2013.03.003] [Cited by in Crossref: 75] [Cited by in F6Publishing: 70] [Article Influence: 9.4] [Reference Citation Analysis]
42 Kasraie S, Werfel T. Role of macrophages in the pathogenesis of atopic dermatitis. Mediators Inflamm 2013;2013:942375. [PMID: 23533313 DOI: 10.1155/2013/942375] [Cited by in Crossref: 53] [Cited by in F6Publishing: 47] [Article Influence: 6.6] [Reference Citation Analysis]
43 Ollington B, Colley HE, Murdoch C. Immunoresponsive Tissue-Engineered Oral Mucosal Equivalents Containing Macrophages. Tissue Eng Part C Methods 2021;27:462-71. [PMID: 34210153 DOI: 10.1089/ten.TEC.2021.0124] [Reference Citation Analysis]
44 Seo D, Cho Y, Gu S, Kim D, Park J, Yi Y, Lee S. A hot water extract of Aralia cordata activates bone marrow-derived macrophages via a myeloid differentiation protein 88-dependent pathway and protects mice from bacterial infection: Aralia cordata activates macrophages. Microbiol Immunol 2016;60:343-55. [DOI: 10.1111/1348-0421.12376] [Cited by in Crossref: 3] [Cited by in F6Publishing: 2] [Article Influence: 0.6] [Reference Citation Analysis]