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Search results for: Mouse Anti-Human CD21

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#26096149   2015/06/18 To Up

Reducing progression of experimental lupus nephritis via inhibition of the B7/CD28 signaling pathway.

The aim of the present study was to evaluate the effects of the B7/cluster of differentiation (CD)28 signaling pathway on experimental lupus nephritis and examine the molecular mechanism involved by inhibiting the B7/CD28 signaling pathway. A lupus nephritis model in C57BL/6 J mice was induced via intraperitoneal injection of pristane. A recombinant B7‑1 short hairpin RNA (shRNA) lentivirus vector was constructed by synthesis and splicing. A neutralizing mouse anti‑human B7‑1 antibody termed 4E5 was also prepared. The mouse model of lupus nephritis was treated with B7‑1 shRNA and 4E5 via injection through the tail vein. The silencing effects of B7‑1 shRNA lentiviral infection on target molecules were evaluated using immunofluorescence and flow cytometry. The levels of protein in the urine were detected using Albustix test paper each month over 10 months. The concentration of interleukin (IL)‑4 and interferon‑γ in the serum was determined using an ELISA. The immune complex (IC) deposits in the kidney were analyzed using direct immunofluorescence. The results demonstrated that the C57BL/6 J mouse lupus nephritis model was successfully constructed with immune cells activated in the spleen of the mice, increases in the concentration of anti‑nuclear antibody (ANA) and anti‑double stranded DNA antibodies as well as positive IC formation. Following B7‑1 shRNA lentivirus or 4E5 treatment, CD11b+B7‑1+, CD11c+B7‑1+ and CD21+B7‑1+ cells in the spleen of the mice were significantly reduced. The concentration of ANA and IL‑4 in the serum was also decreased. The concentration of urine protein was reduced and it was at its lowest level in the 4E5 early intervention group. It was also revealed that the immunofluorescence intensity of the IC deposits was weak in the 4E5 early intervention group. In conclusion, inhibiting the B7‑1/CD28 signaling pathway is able to alleviate experimental lupus nephritis and provides an experimental basis for the therapeutic use of blocking the B7‑1/CD28 signaling pathway in human lupus nephritis and other autoimmune disorders.
Li Huang, Yong Kong, Jing Wang, Jie Sun, Qin Shi, Yu-Hua Qiu

2082 related Products with: Reducing progression of experimental lupus nephritis via inhibition of the B7/CD28 signaling pathway.

1 mg2 Pieces/Box2 Pieces/Box2 Pieces/Box2 Pieces/Box2 Pieces/BoxInhibitors1.5 x 10^6 cells2 Pieces/Box 5 G2 Pieces/Box2 Pieces/Box

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#11698449   // To Up

Epitope mapping using the X-ray crystallographic structure of complement receptor type 2 (CR2)/CD21: identification of a highly inhibitory monoclonal antibody that directly recognizes the CR2-C3d interface.

Complement receptor type 2 (CR2)/CD21 is a B lymphocyte cell membrane C3d/iC3b receptor that plays a central role in the immune response. Human CR2 is also the receptor for the EBV viral membrane glycoprotein gp350/220. Both C3d and gp350/220 bind CR2 within the first two of 15-16 repetitive domains that have been designated short consensus/complement repeats. Many mAbs react with human CR2; however, only one currently available mAb is known to block both C3d/iC3b and gp350/220 binding. We have used a recombinant form of human CR2 containing the short consensus/complement repeat 1-2 ligand-binding fragment to immunize Cr2(-/-) mice. Following fusion, we identified and further characterized four new anti-CR2 mAbs that recognize this fragment. Three of these inhibited binding of CR2 to C3d and gp350/220 in different forms. We have determined the relative inhibitory ability of the four mAbs to block ligand binding, and we have used overlapping peptide-based approaches to identify linear epitopes recognized by the inhibitory mAbs. Placement of these epitopes on the recently solved crystal structure of the CR2-C3d complex reveals that each inhibitory mAb recognizes a site either within or adjacent to the CR2-C3d contact site. One new mAb, designated 171, blocks CR2 receptor-ligand interactions with the greatest efficiency and recognizes a portion of the C3d contact site on CR2. Thus, we have created an anti-human CR2 mAb that blocks the C3d ligand by direct contact with its interaction site, and we have provided confirmatory evidence that the C3d binding site seen in its crystal structure exists in solution.
J M Guthridge, K Young, M G Gipson, M R Sarrias, G Szakonyi, X S Chen, A Malaspina, E Donoghue, J A James, J D Lambris, S A Moir, S J Perkins, V M Holers

1697 related Products with: Epitope mapping using the X-ray crystallographic structure of complement receptor type 2 (CR2)/CD21: identification of a highly inhibitory monoclonal antibody that directly recognizes the CR2-C3d interface.

200ul100ug0.1 mg25ug100 ug 50 UG25 µg200ul200ul0.1 mg

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#8996252   // To Up

Follicular dendritic cells specifically express the long CR2/CD21 isoform.

This paper describes an antibody (mAb 7D6) that specifically recognizes human follicular dendritic cells (FDCs). By expression cloning, a cDNA clone encoding for the long human CR2/ CD21 isoform (CD21L) that contains an additional exon (10a) was isolated. We demonstrated that FDCs selectively express CD21L, while B cells selectively express the short CR2/CD21 lacking exon 10a (CD21S). By screening mouse Ltk- cells transfected with the CD21L cDNA, we further showed that the other two anti-human FDC mAbs DRC-1 and KiM4 also recognize CD21L. Thus, CD21L represents the first characterized human FDC-specific molecule, which may confer unique functions of FDCs in germinal center development.
Y J Liu, J Xu, O de Bouteiller, C L Parham, G Grouard, O Djossou, B de Saint-Vis, S Lebecque, J Banchereau, K W Moore

2453 related Products with: Follicular dendritic cells specifically express the long CR2/CD21 isoform.

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