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Items: 1 to 20 of 146

1.
2.

Cooperation of specific ICAM-3 grabbing nonintegrin-related 1 (SIGNR1) and complement receptor type 3 (CR3) in the uptake of oligomannose-coated liposomes by macrophages.

Takagi H, Numazaki M, Kajiwara T, Abe Y, Ishii M, Kato C, Kojima N.

Glycobiology. 2009 Mar;19(3):258-66. doi: 10.1093/glycob/cwn128. Epub 2008 Nov 24.

3.

SIGNR1-mediated phagocytosis, but not SIGNR1-mediated endocytosis or cell adhesion, suppresses LPS-induced secretion of IL-6 from murine macrophages.

Kawauchi Y, Takagi H, Hanafusa K, Kono M, Yamatani M, Kojima N.

Cytokine. 2015 Jan;71(1):45-53. doi: 10.1016/j.cyto.2014.08.002. Epub 2014 Sep 16.

PMID:
25226443
4.

Targeting with oligomannose-coated liposomes promotes maturation and splenic trafficking of dendritic cells in the peritoneal cavity.

Ishii M, Kato C, Hakamata A, Kojima N.

Int Immunopharmacol. 2011 Feb;11(2):164-71. doi: 10.1016/j.intimp.2010.11.011. Epub 2010 Nov 27.

PMID:
21112331
5.

The role of SIGNR1 and the beta-glucan receptor (dectin-1) in the nonopsonic recognition of yeast by specific macrophages.

Taylor PR, Brown GD, Herre J, Williams DL, Willment JA, Gordon S.

J Immunol. 2004 Jan 15;172(2):1157-62.

6.

SIGNR1 ligation on murine peritoneal macrophages induces IL-12 production through NFkappaB activation.

Kato C, Kojima N.

Glycoconj J. 2010 Jul;27(5):525-31. doi: 10.1007/s10719-010-9298-x. Epub 2010 Jun 30.

PMID:
20589530
7.

Development of peritoneal macrophage along a dendritic cell lineage in response to uptake of oligomannose-coated liposomes.

Kojima N, Kato C, Igarashi M, Ishii M.

Cell Immunol. 2011;271(2):335-41. doi: 10.1016/j.cellimm.2011.07.013. Epub 2011 Aug 10.

PMID:
21875704
8.

Comparison of the carbohydrate preference of SIGNR1 as a phagocytic receptor with the preference as an adhesion molecule.

Kawauchi Y, Kuroda Y, Kojima N.

Int Immunopharmacol. 2014 Mar;19(1):27-36. doi: 10.1016/j.intimp.2013.12.030. Epub 2014 Jan 13.

PMID:
24434373
9.

Preferences for uptake of carbohydrate-coated liposomes by C-type lectin receptors as antigen-uptake receptors.

Kawauchi Y, Kuroda Y, Kojima N.

Glycoconj J. 2012 Oct;29(7):481-90. doi: 10.1007/s10719-012-9406-1. Epub 2012 Jun 26.

PMID:
22733147
10.

Toll-like receptor 2 and DC-SIGNR1 differentially regulate suppressors of cytokine signaling 1 in dendritic cells during Mycobacterium tuberculosis infection.

Srivastava V, Manchanda M, Gupta S, Singla R, Behera D, Das G, Natarajan K.

J Biol Chem. 2009 Sep 18;284(38):25532-41. doi: 10.1074/jbc.M109.006221. Epub 2009 Jul 17.

11.

The C-type lectin SIGNR1 binds Schistosoma mansoni antigens in vitro, but SIGNR1-deficient mice have normal responses during schistosome infection.

Saunders SP, Walsh CM, Barlow JL, Mangan NE, Taylor PR, McKenzie AN, Smith P, Fallon PG.

Infect Immun. 2009 Jan;77(1):399-404. doi: 10.1128/IAI.00762-08. Epub 2008 Nov 3.

12.

Involvement of suppressor of cytokine signalling-1-mediated degradation of MyD88-adaptor-like protein in the suppression of Toll-like receptor 2-mediated signalling by the murine C-type lectin SIGNR1-mediated signalling.

Ohtani M, Iyori M, Saeki A, Tanizume N, Into T, Hasebe A, Totsuka Y, Shibata K.

Cell Microbiol. 2012 Jan;14(1):40-57. doi: 10.1111/j.1462-5822.2011.01695.x. Epub 2011 Nov 3.

PMID:
21899704
13.

Mannose-functionalized "pathogen-like" polyanhydride nanoparticles target C-type lectin receptors on dendritic cells.

Carrillo-Conde B, Song EH, Chavez-Santoscoy A, Phanse Y, Ramer-Tait AE, Pohl NL, Wannemuehler MJ, Bellaire BH, Narasimhan B.

Mol Pharm. 2011 Oct 3;8(5):1877-86. doi: 10.1021/mp200213r. Epub 2011 Sep 13.

PMID:
21882825
14.

Human lung dendritic cells have an immature phenotype with efficient mannose receptors.

Cochand L, Isler P, Songeon F, Nicod LP.

Am J Respir Cell Mol Biol. 1999 Nov;21(5):547-54.

PMID:
10536111
15.

Identification of the mycobacterial carbohydrate structure that binds the C-type lectins DC-SIGN, L-SIGN and SIGNR1.

Koppel EA, Ludwig IS, Hernandez MS, Lowary TL, Gadikota RR, Tuzikov AB, Vandenbroucke-Grauls CM, van Kooyk Y, Appelmelk BJ, Geijtenbeek TB.

Immunobiology. 2004;209(1-2):117-27.

PMID:
15481146
17.

Contribution of complement component C3 and complement receptor type 3 to carbohydrate-dependent uptake of oligomannose-coated liposomes by peritoneal macrophages.

Abe Y, Kuroda Y, Kuboki N, Matsushita M, Yokoyama N, Kojima N.

J Biochem. 2008 Nov;144(5):563-70. doi: 10.1093/jb/mvn101. Epub 2008 Aug 11.

PMID:
18694897
18.

Difference in fine specificity to polysaccharides of Candida albicans mannoprotein between mouse SIGNR1 and human DC-SIGN.

Takahara K, Arita T, Tokieda S, Shibata N, Okawa Y, Tateno H, Hirabayashi J, Inaba K.

Infect Immun. 2012 May;80(5):1699-706. doi: 10.1128/IAI.06308-11. Epub 2012 Feb 13.

19.

Distribution and lateral mobility of DC-SIGN on immature dendritic cells--implications for pathogen uptake.

Neumann AK, Thompson NL, Jacobson K.

J Cell Sci. 2008 Mar 1;121(Pt 5):634-43. doi: 10.1242/jcs.022418. Epub 2008 Feb 12.

20.

Efficient capture of Candida albicans and zymosan by SIGNR1 augments TLR2-dependent TNF-α production.

Takahara K, Tokieda S, Nagaoka K, Inaba K.

Int Immunol. 2012 Feb;24(2):89-96. doi: 10.1093/intimm/dxr103. Epub 2011 Dec 29.

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