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  1. 1.   Bacterial lipoproteins in sepsis
  2. Kandahalli Venkataranga Nayaka,Abhilasha; Marathe, Gopal Kedihithlu
  3. IMMUNOBIOLOGY. 2021, Sep; 226(5):
  1. 2.   The Recognition of and Reactions to Nucleic Acid Nanoparticles by Human Immune Cells
  2. Bila, Dominika; Radwan, Yasmine; Dobrovolskaia,Marina; Panigaj, Martin; Afonin, Kirill A.
  3. MOLECULES. 2021, Jul 12; 26(14):
  1. 3.   Mosaic And Germline Gain-Of-Function Variants In TLR8 Leading To Immunodeficiency With Lymphoproliferation And Bone Marrow Failure
  2. Aluri, Jahnavi; Bach, Alicia; Kaviany, Saara; Paracatu, Luana Chiquetto; Kitcharoensakkul, Maleewan; Walkiewicz, Magdalena; Putnam, Christopher; Shinawi, Marwan; Saucier, Nermina; Rizzi, Elise; Harmon, Michael; Keppel, Molly; Ritter, Michelle; Similuk, Morgan; Kulm,Elaine; Joyce, Michael; De Jesus, Adriana; Goldbach-Mansky, Raphaela; Lee, Yi-Shan; Cella, Marina; Kendall, Peggy; Dinauer, Mary; Bednarski, Jeffrey; Bemrich-Stolz, Christy; Canna, Scott; Abraham, Shirley; Demczko, Matthew; Powell, Jonathan; Jones, Stacie; Scurlock, Amy; De Ravin, Suk See; Bleesing, Jack; Connelly, James; Rao, V. Koneti; Schuettpelz, Laura; Cooper, Megan
  3. Journal of Clinical Immunology. 2021, Apr; 41(Supplement 1): S7-S8.
  1. 4.   BCAP Regulates Dendritic Cell Maturation Through the Dual-Regulation of NF-kappa B and PI3K/AKT Signaling During Infection
  2. Miao, Yuhui; Jiang, Ming; Qi, Lu; Yang,De; Xiao, Weihua; Fang, Fang
  3. FRONTIERS IN IMMUNOLOGY. 2020, Feb 18; 11
  1. 5.   PD-1 blockade and TLR7 activation lack therapeutic benefit in chronic SIV-infected macaques on antiretroviral therapy
  2. Bekerman, Elena; Hesselgesser, Joseph; Carr, Brian; Nagel, Mark; Hung, Magdeleine; Wang, Adele; Stapleton, Lance; von Gegerfelt, Agneta; Elyard, Hanne Andersen; Lifson,Jeffrey; Geleziunas, Romas
  3. Antimicrobial agents and chemotherapy. 2019, NOV; 63(11): pii: AAC.01163-19.
  1. 6.   Interleukin 22 disrupts pancreatic function in newborn mice expressing IL-23
  2. Chen, Lili; Strohmeier, Valentina; He, Zhengxiang; Deshpande, Madhura; Catalan-Dibene, Jovani; Durum,Scott; Moran, Thomas M; Kraus, Thomas; Xiong, Huabao; Faith, Jeremiah J; Sodhi, Chhinder P; Hackam, David J; Lira, Sergio A; Furtado, Glaucia C
  3. Nature communications. 2019, Oct 04; 10(1): 4517.
  1. 7.   Toll-Like Receptor-Mediated Recognition of Nucleic Acid Nanoparticles (NANPs) in Human Primary Blood Cells
  2. Hong, Enping; Halman, Justin R; Shah, Ankit; Cedrone,Edward; Truong, Nguyen; Afonin, Kirill A; Dobrovolskaia,Marina
  3. Molecules (Basel, Switzerland). 2019, Mar 2; 24(6): pii: E1094.
  1. 8.   A lipid A-based TLR4 mimetic effectively adjuvants a Yersinia pestis rF-V1 subunit vaccine in a murine challenge model
  2. Gregg, Kelsey A.; Harberts, Erin; Gardner, Francesca M.; Pelletier, Mark R.; Cayatte, Corinne; Yu, Li; McCarthy, Michael P.; Marshall, Jason; Ernst, Robert K.
  3. Vaccine. 2018, Jun 27; 36(28): 4023-4031.
  1. 9.   Rationally Designed TLR4 Ligands for Vaccine Adjuvant Discovery
  2. Gregg, Kelsey A.; Harberts, Erin; Gardner, Francesca M.; Pelletier, Mark R.; Cayatte, Corinne; Yu, Li; McCarthy, Michael P.; Marshall, Jason; Ernst, Robert K.
  3. MBIO. 2017, May-Jun; 8(3):
  1. 10.   Genomic HIV RNA Induces Innate Immune Responses through RIG-I-Dependent Sensing of Secondary-Structured RNA
  2. Berg, R. K.; Melchjorsen, J.; Rintahaka, J.; Diget, E.; Soby, S.; Horan, K. A.; Gorelick, R. J.; Matikainen, S.; Larsen, C. S.; Ostergaard, L.; Paludan, S. R.; Mogensen, T. H.
  3. Plos One. 2012, Jan; 7(1):
  1. 11.   High-mobility group nucleosome-binding protein 1 acts as an alarmin and is critical for lipopolysaccharide-induced immune responses
  2. Yang, D.; Postnikov, Y. V.; Li, Y.; Tewary, P.; de la Rosa, G.; Wei, F.; Klinman, D.; Gioannini, T.; Weiss, J. P.; Furusawa, T.; Bustin, M.; Oppenheim, J. J.
  3. Journal of Experimental Medicine. 2012, Jan; 209(1): 157-171.
  1. 12.   Painful Pathways Induced by TLR Stimulation of Dorsal Root Ganglion Neurons
  2. Qi, J.; Buzas, K.; Fan, H. T.; Cohen, J. I.; Wang, K. N.; Mont, E.; Klinman, D.; Oppenheim, J. J.; Howard, O. M. Z.
  3. Journal of Immunology. 2011, Jun; 186(11): 6417-6426.
  1. 13.   High-Mobility Group Box-1 Mediates Toll-Like Receptor 4-Dependent Angiogenesis
  2. Lin, Q.; Yang, X. P.; Fang, D.; Ren, X. R.; Zhou, H. Y.; Fang, J. Z.; Liu, X. L.; Zhou, S. Y.; Wen, F.; Yao, X. H.; Wang, J. M.; Su, S. B.
  3. Arteriosclerosis Thrombosis and Vascular Biology. 2011, May; 31(5): 1024-U174.
  1. 14.   TLR-based immune adjuvants
  2. Steinhagen, F.; Kinjo, T.; Bode, C.; Klinman, D. M.
  3. Vaccine. 2011, Apr; 29(17): 3341-3355.
  1. 15.   CpG DNA as a vaccine adjuvant
  2. Bode, C.; Zhao, G.; Steinhagen, F.; Kinjo, T.; Klinman, D. M.
  3. Expert Review of Vaccines. 2011, Apr; 10(4): 499-511.
  1. 16.   Dendritic Cells from Humans with Hypomorphic Mutations in IKBKG/NEMO Have Impaired Mitogen-Activated Protein Kinase Activity
  2. Ma, C. A.; Wang, H. Y.; Temmerman, S.; Zhao, Y. G.; Wu, L. M.; Hornung, R. L.; Wara, D.; Jain, A.
  3. Human Mutation. 2011, Mar; 32(3): 318-324.
  1. 17.   TLR-mediated signaling pathways circumvent the requirement for DAP12 in mast cells for the induction of inflammatory mediator release
  2. Smrz, D.; Iwaki, S.; McVicar, D. W.; Metcalfe, D. D.; Gilfillan, A. M.
  3. European Journal of Immunology. 2010, Dec; 40(12): 3557-3569.
  1. 18.   Granulysin activates antigen-presenting cells through TLR4 and acts as an immune alarmin
  2. Tewary, P.; Yang, D.; de la Rosa, G.; Li, Y. N.; Finn, M. W.; Krensky, A. M.; Clayberger, C.; Oppenheim, J. J.
  3. Blood. 2010, Nov 4; 116(18): 3465-3474.
  1. 19.   Type I interferon: friend or foe?
  2. Trinchieri, G.
  3. Journal of Experimental Medicine. 2010, Sep; 207(10): 2053-2063.
  1. 20.   TLR3 and Rig-Like Receptor on Myeloid Dendritic Cells and Rig-Like Receptor on Human NK Cells Are Both Mandatory for Production of IFN-gamma in Response to Double-Stranded RNA
  2. Perrot, I.; Deauvieau, F.; Massacrier, C.; Hughes, N.; Garrone, P.; Durand, I.; Demaria, O.; Viaud, N.; Gauthier, L.; Blery, M.; Bonnefoy-Berard, N.; Morel, Y.; Tschopp, J.; Alexopoulou, L.; Trinchieri, G.; Paturel, C.; Caux, C.
  3. Journal of Immunology. 2010, Aug; 185(4): 2080-2088.
  1. 21.   Exposure to HIV-1-encoded Toll-like receptor 8 ligands enhances monocyte response to microbial encoded Toll-like receptor 2/4 ligands
  2. Mureith, M. W.; Chang, J. J.; Lifson, J. D.; Ndung'u, T.; Altfeld, M.
  3. Aids. 2010, Jul; 24(12): 1841-1848.
  1. 22.   Short- and long-term changes in gene expression mediated by the activation of TLR9
  2. Klaschik, S.; Tross, D.; Shirota, H.; Klinman, D. M.
  3. Molecular Immunology. 2010, Mar; 47(6): 1317-1324.
  1. 23.   Synergy of TRIF-dependent TLR3 and MyD88-dependent TLR7 in up-regulating expression of mouse FPR2, a promiscuous G-protein-coupled receptor, in microglial cells
  2. Chen, K. Q.; Huang, J.; Liu, Y.; Gong, W. H.; Cui, Y. H.; Wang, J. M.
  3. Journal of Neuroimmunology. 2009 213(1-2): 69-77.
  1. 24.   Functional plasticity of macrophages: in situ reprogramming of tumor-associated macrophages
  2. Stout, R. D.; Watkins, S. K.; Suttles, J.
  3. Journal of Leukocyte Biology. 2009 86(5): 1105-1109.
  1. 25.   Global changes in gene expression and synergistic interactions induced by TLR9 and TLR3
  2. Tross, D.; Petrenko, L.; Klaschik, S.; Zhu, Q.; Klinman, D. M.
  3. Molecular Immunology. 2009 46(13): 2557-2564.
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