Science 29 January 1988: Vol. 239. no. 4839, pp. 497 - 500 DOI: 10.1126/science.2448876

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Articles

Cellular trafficking of lipoteichoic acid and Toll-like receptor 2 in relation to signaling; role of CD14 and CD36.

N. J. Nilsen, S. Deininger, U. Nonstad, F. Skjeldal, H. Husebye, D. Rodionov, S. von Aulock, T. Hartung, E. Lien, O. Bakke, et al. (2008)
J. Leukoc. Biol. 84, 280-291
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LILRA2 Activation Inhibits Dendritic Cell Differentiation and Antigen Presentation to T Cells.

D. J. Lee, P. A. Sieling, M. T. Ochoa, S. R. Krutzik, B. Guo, M. Hernandez, T. H. Rea, G. Cheng, M. Colonna, and R. L. Modlin (2007)
J. Immunol. 179, 8128-8136
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Role of CD14 in Responses to Clinical Isolates of Escherichia coli: Effects of K1 Capsule Expression.

S. Metkar, S. Awasthi, E. Denamur, K. S. Kim, S. C. Gangloff, S. Teichberg, A. Haziot, J. Silver, and S. M. Goyert (2007)
Infect. Immun. 75, 5415-5424
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Metabolic Endotoxemia Initiates Obesity and Insulin Resistance.

P. D. Cani, J. Amar, M. A. Iglesias, M. Poggi, C. Knauf, D. Bastelica, A. M. Neyrinck, F. Fava, K. M. Tuohy, C. Chabo, et al. (2007)
Diabetes 56, 1761-1772
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Role of CD14 Promoter Polymorphisms in Helicobacter pylori Infection-Related Gastric Carcinoma.

D. Zhao, T. Sun, X. Zhang, Y. Guo, D. Yu, M. Yang, W. Tan, G. Wang, and D. Lin (2007)
Clin. Cancer Res. 13, 2362-2368
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Endotoxin Exposure, CD14, and Allergic Disease: An Interaction between Genes and the Environment.

A. Simpson, S. L. John, F. Jury, R. Niven, A. Woodcock, W. E. R. Ollier, and A. Custovic (2006)
Am. J. Respir. Crit. Care Med. 174, 386-392
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Polymorphisms in the CD14 Gene Associated with Pulmonary Function in Farmers.

T. D. LeVan, S. Von Essen, D. J. Romberger, G. P. Lambert, F. D. Martinez, M. M. Vasquez, and J. A. Merchant (2005)
Am. J. Respir. Crit. Care Med. 171, 773-779
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The Inherent Complexities of Gene-Environment Interactions.

E. L. Grigorenko (2005)
J. Gerontol. B. Psychol. Sci. Soc. Sci. 60, 53-64
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Persistence of apoptotic cells without autoimmune disease or inflammation in CD14-/- mice.

A. Devitt, K. G. Parker, C. A. Ogden, C. Oldreive, M. F. Clay, L. A. Melville, C. O. Bellamy, A. Lacy-Hulbert, S. C. Gangloff, S. M. Goyert, et al. (2004)
J. Cell Biol. 167, 1161-1170
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Lipopolysaccharide Binding Protein Binds to Triacylated and Diacylated Lipopeptides and Mediates Innate Immune Responses.

N. W. J. Schroder, H. Heine, C. Alexander, M. Manukyan, J. Eckert, L. Hamann, U. B. Gobel, and R. R. Schumann (2004)
J. Immunol. 173, 2683-2691
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Circulating Soluble CD14 Monocyte Receptor Is Associated with Increased Alanine Aminotransferase.

J. M. Fernandez-Real, A. Lopez-Bermejo, M. Broch, J. Vendrell, C. Richart, and W. Ricart (2004)
Clin. Chem. 50, 1456-1458
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Down-regulation of Hox A7 is required for cell adhesion and migration on fibronectin during early HL-60 monocytic differentiation.

P. Leroy, F. Berto, I. Bourget, and B. Rossi (2004)
J. Leukoc. Biol. 75, 680-688
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Role of Monocytes in Atherogenesis.

B. OSTERUD and E. BJORKLID (2003)
Physiol Rev 83, 1069-1112
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Promoter polymorphisms of the CD14 gene in Italian patients with coeliac disease.

M Boniotto, L Braida, A Ventura, S Percopo, A Amoroso, and S Crovella (2003)
J. Med. Genet. 40, e108-108
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Lipoteichoic Acid (LTA) of Streptococcus pneumoniae and Staphylococcus aureus Activates Immune Cells via Toll-like Receptor (TLR)-2, Lipopolysaccharide-binding Protein (LBP), and CD14, whereas TLR-4 and MD-2 Are Not Involved.

N. W. J. Schroder, S. Morath, C. Alexander, L. Hamann, T. Hartung, U. Zahringer, U. B. Gobel, J. R. Weber, and R. R. Schumann (2003)
J. Biol. Chem. 278, 15587-15594
 |  Abstract »  |  Full Text »  |  PDF »

CD14 Monocyte Receptor, Involved in the Inflammatory Cascade, and Insulin Sensitivity.

J. M. Fernandez-Real, M. Broch, C. Richart, J. Vendrell, A. Lopez-Bermejo, and W. Ricart (2003)
J. Clin. Endocrinol. Metab. 88, 1780-1784
 |  Abstract »  |  Full Text »  |  PDF »

Increased collagenase activity in macrophages from bronchial lavage as a diagnostic marker of non-small cell lung cancer.

Y Hakoda, Y Ito, A Nagate, K Minemura, K Utsumi, M Aoshima, and K Ohyashiki (2003)
Thorax 58, 122-126
 |  Abstract »  |  Full Text »  |  PDF »

Arginine-Rich Cationic Polypeptides Amplify Lipopolysaccharide-Induced Monocyte Activation.

H. Bosshart and M. Heinzelmann (2002)
Infect. Immun. 70, 6904-6910
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CD14-Deficient Mice Are Protected Against Lipopolysaccharide-Induced Cardiac Inflammation and Left Ventricular Dysfunction.

P. Knuefermann, S. Nemoto, A. Misra, N. Nozaki, G. Defreitas, S. M. Goyert, B. A. Carabello, D. L. Mann, and J. G. Vallejo (2002)
Circulation 106, 2608-2615
 |  Abstract »  |  Full Text »  |  PDF »

Differential Induction of Endotoxin Tolerance by Lipopolysaccharides Derived from Porphyromonas gingivalis and Escherichia coli.

M. Martin, J. Katz, S. N. Vogel, and S. M. Michalek (2001)
J. Immunol. 167, 5278-5285
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Expression of the neuronal cyclin-dependent kinase 5 activator p35Nck5a in human monocytic cells is associated with differentiation.

F. Chen and G. P. Studzinski (2001)
Blood 97, 3763-3767
 |  Abstract »  |  Full Text »  |  PDF »

Critical Role of CD14 for Production of Proinflammatory Cytokines and Cytokine Inhibitors during Sepsis with Failure To Alter Morbidity or Mortality.

S. J. Ebong, S. M. Goyert, J. A. Nemzek, J. Kim, G. L. Bolgos, and D. G. Remick (2001)
Infect. Immun. 69, 2099-2106
 |  Abstract »  |  Full Text »  |  PDF »

Toll-Like Receptor 4 Mediates Intracellular Signaling Without TNF-{{alpha}} Release in Response to Cryptococcus neoformans Polysaccharide Capsule.

S. Shoham, C. Huang, J.-M. Chen, D. T. Golenbock, and S. M. Levitz (2001)
J. Immunol. 166, 4620-4626
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Association of a Promoter Polymorphism of the CD14 Gene and Atopy.

G. H. KOPPELMAN, N. E. REIJMERINK, O. COLIN STINE, T. D. HOWARD, P. A. WHITTAKER, D. A. MEYERS, D. S. POSTMA, and E. R. BLEECKER (2001)
Am. J. Respir. Crit. Care Med. 163, 965-969
 |  Abstract »  |  Full Text »

Real-Time PCR Assay with Fluorescent Hybridization Probes for Rapid Genotyping of the CD14 Promotor Polymorphism.

M. Heesen, D. Kunz, R. Rossaint, and B. Blomeke (2000)
Clin. Chem. 46, 1866-1867
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Induction of CD14 in Tubular Epithelial Cells During Kidney Disease.

J. MORRISSEY, G. GUO, R. MCCRACKEN, T. TOLLEY, and S. KLAHR (2000)
J. Am. Soc. Nephrol. 11, 1681-1690
 |  Abstract »  |  Full Text »

Transforming Growth Factor-beta Inhibits Lipopolysaccharide-Stimulated Expression of Inflammatory Cytokines in Mouse Macrophages through Downregulation of Activation Protein 1 and CD14 Receptor Expression.

K. Imai, A. Takeshita, and S. Hanazawa (2000)
Infect. Immun. 68, 2418-2423
 |  Abstract »  |  Full Text »  |  PDF »

Human Toll-Like Receptor 2 Mediates Monocyte Activation by Listeria monocytogenes, But Not by Group B Streptococci or Lipopolysaccharide.

T. H. Flo, O. Halaas, E. Lien, L. Ryan, G. Teti, D. T. Golenbock, A. Sundan, and T. Espevik (2000)
J. Immunol. 164, 2064-2069
 |  Abstract »  |  Full Text »  |  PDF »

CCAAT/Enhancer-binding Protein Activates the CD14 Promoter and Mediates Transforming Growth Factor beta Signaling in Monocyte Development.

Z. Pan, C. J. Hetherington, and D.-E. Zhang (1999)
J. Biol. Chem. 274, 23242-23248
 |  Abstract »  |  Full Text »  |  PDF »

Polymorphism of the Lipopolysaccharide Receptor (CD14) and Myocardial Infarction : New Evidence for a Role of Gram-Negative Bacterial Infection?.

J. P. Kane and R. J. Havel (1999)
Circulation 99, 3210-3212
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A Polymorphism* in the 5' Flanking Region of the CD14 Gene Is Associated with Circulating Soluble CD14 Levels and with Total Serum Immunoglobulin E.

M. Baldini, I. Carla Lohman, M. Halonen, R. P. Erickson, P. G. Holt, and F. D. Martinez (1999)
Am. J. Respir. Cell Mol. Biol. 20, 976-983
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CD14 Plays No Major Role in Shock Induced by Staphylococcus aureus but Down-Regulates TNF-{alpha} Production.

A. Haziot, N. Hijiya, K. Schultz, F. Zhang, S. C. Gangloff, and S. M. Goyert (1999)
J. Immunol. 162, 4801-4805
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A New Promoter Polymorphism in the Gene of Lipopolysaccharide Receptor CD14 Is Associated With Expired Myocardial Infarction in Patients With Low Atherosclerotic Risk Profile.

K. Unkelbach, A. Gardemann, M. Kostrzewa, M. Philipp, H. Tillmanns, and W. Haberbosch (1999)
Arterioscler Thromb Vasc Biol 19, 932-938
 |  Abstract »  |  Full Text »  |  PDF »

IL-18-deficient mice are resistant to endotoxin-induced liver injury but highly susceptible to endotoxin shock.

Y. Sakao, K. Takeda, H. Tsutsui, T. Kaisho, F. Nomura, H. Okamura, K. Nakanishi, and S. Akira (1999)
Int. Immunol. 11, 471-480
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Characterization of Human Endotoxin Lipopolysaccharide Receptor CD14 Expression in Transgenic Mice.

C. J. Hetherington, P. D. Kingsley, F. Crocicchio, P. Zhang, M. S. Rabin, J. Palis, and D.-E. Zhang (1999)
J. Immunol. 162, 503-509
 |  Abstract »  |  Full Text »  |  PDF »

CD14-dependent Endotoxin Internalization via a Macropinocytic Pathway.

C. Poussin, M. Foti, J.-L. Carpentier, and J. Pugin (1998)
J. Biol. Chem. 273, 20285-20291
 |  Abstract »  |  Full Text »  |  PDF »

Lipopolysaccharide and Its Analog Antagonists Display Differential Serum Factor Dependencies for Induction of Cytokine Genes in Murine Macrophages.

P.-Y. Perera, N. Qureshi, W. J. Christ, P. Stutz, and S. N. Vogel (1998)
Infect. Immun. 66, 2562-2569
 |  Abstract »  |  Full Text »  |  PDF »

Involvement of CD14 and Complement Receptors CR3 and CR4 in Nuclear Factor-{kappa}B Activation and TNF Production Induced by Lipopolysaccharide and Group B Streptococcal Cell Walls.

A. E. Medvedev, T. Flo, R. R. Ingalls, D. T. Golenbock, G. Teti, S. N. Vogel, and T. Espevik (1998)
J. Immunol. 160, 4535-4542
 |  Abstract »  |  Full Text »  |  PDF »

Detection and Isolation of Gene-Corrected Cells in Gaucher Disease Via a Fluorescence-Activated Cell Sorter Assay for Lysosomal Glucocerebrosidase Activity.

M. Lorincz, L. A. Herzenberg, Z. Diwu, J. A. Barranger, and W. G. Kerr (1997)
Blood 89, 3412-3420
 |  Abstract »  |  Full Text »  |  PDF »

Rhodobacter sphaeroides diphosphoryl lipid A inhibits interleukin-6 production in CD14-negative murine marrow stromal ST2 cells stimulated with lipopolysaccharide or paclitaxel (taxol).

T. Kirikae, F. Kirikae, K. Tominaga, N. Qureshi, S. YamaMoto, and M. Nakano (1997)
Innate Immunity 4, 115-122
 |  Abstract »  |  PDF »

Transcriptional Activation of the Human p21WAF1/CIP1 Gene by Retinoic Acid Receptor. CORRELATION WITH RETINOID INDUCTION OF U937 CELL DIFFERENTIATION.

M. Liu, A. Iavarone, and LeonardP. Freedman (1996)
J. Biol. Chem. 271, 31723-31728
 |  Abstract »  |  Full Text »  |  PDF »

Transcriptional activation of the Cdk inhibitor p21 by vitamin D3 leads to the induced differentiation of the myelomonocytic cell line U937..

M Liu, M H Lee, M Cohen, M Bommakanti, and L P Freedman (1996)
Genes & Dev. 10, 142-153
 |  Abstract »  |  PDF »

Review: Bacterial endotoxin and the human monoclonal antibody HA-IA: specificity, potential mechanisms of action, and limits to its effectiveness.

P.H. Lagrange, H.S. Blanchard, and A. Felten (1995)
Innate Immunity 2, 371-386
 |  Abstract »  |  PDF »

S-form LPS induces leukocyte adhesion to human vascular endothelial cells as potent as IL-1: lipid A precursor Ia antagonizes induction of adhesion by LPS.

U. Schonbeck, H.-D. Flad, E. Th. Rietschel, E. Brandt, and H. Loppnow (1994)
Innate Immunity 1, 4-13
 |  Abstract »  |  PDF »

CD14, a receptor for complexes of lipopolysaccharide (LPS) and LPS binding protein.

S. Wright, R. Ramos, P. Tobias, R. Ulevitch, and J. Mathison (1990)
Science 249, 1431-1433
 |  Abstract »  |  PDF »

Macrophage Colony-stimulating Factor, CSF-1, and Its Proto-oncogene-encoded Receptor.

C. J. Sherr, C.W. Rettenmier, and M.F. Roussel (1988)
Cold Spring Harb Symp Quant Biol 53, 521-530
 |  Abstract »  |  PDF »

Hepatocytes Contribute to Soluble CD14 Production, and CD14 Expression Is Differentially Regulated in Hepatocytes and Monocytes.

Z. Pan, L. Zhou, C. J. Hetherington, and D.-E. Zhang (2000)
J. Biol. Chem. 275, 36430-36435
 |  Abstract »  |  Full Text »  |  PDF »

Construction of Acetate Auxotrophs of Neisseria meningitidis to Study Host-Meningococcal Endotoxin Interactions.

P. C. Giardina, T. Gioannini, B. A. Buscher, A. Zaleski, D.-S. Zheng, L. Stoll, A. Teghanemt, M. A. Apicella, and J. Weiss (2001)
J. Biol. Chem. 276, 5883-5891
 |  Abstract »  |  Full Text »  |  PDF »

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