Binding and transepithelial transport of immunoglobulins by intestinal M cells: demonstration using monoclonal IgA antibodies against enteric viral proteins
about
Secretory IgA's complex roles in immunity and mucosal homeostasis in the gutRole of the glycocalyx in regulating access of microparticles to apical plasma membranes of intestinal epithelial cells: implications for microbial attachment and oral vaccine targetingAntibodies enhance interaction of Vibrio cholerae with intestinal M-like cells.Interactions of viruses and microparticles with apical plasma membranes of M cells: implications for human immunodeficiency virus transmission.Monoclonal immunoglobulin A antibodies directed against cholera toxin prevent the toxin-induced chloride secretory response and block toxin binding to intestinal epithelial cells in vitroSystemic antibodies can inhibit mouse mammary tumor virus-driven superantigen response in mucosa-associated lymphoid tissues.Preferential binding of mouse mammary tumor virus to B lymphocytes.Intranasal antibody prophylaxis for protection against viral disease.Secretory immunoglobulin A: from mucosal protection to vaccine development.M cell-targeted ocular immunization: effect on immunoglobulins in tears, feces, and serum.Role of immunoglobulin A in protection against reovirus entry into Murine Peyer's patchesMucin-related epitopes distinguish M cells and enterocytes in rabbit appendix and Peyer's patches.Oral vaccination: where we are?Dectin-1 is essential for reverse transcytosis of glycosylated SIgA-antigen complexes by intestinal M cellsTranscytosis: crossing cellular barriers.Protective efficacy of major outer membrane protein-specific immunoglobulin A (IgA) and IgG monoclonal antibodies in a murine model of Chlamydia trachomatis genital tract infection.Intranasal monoclonal immunoglobulin A against respiratory syncytial virus protects against upper and lower respiratory tract infections in miceSalmonella-induced M-cell formation in germ-free mouse Peyer's patch tissueOral tolerance induced by transfer of food antigens via breast milk of allergic mothers prevents offspring from developing allergic symptoms in a mouse food allergy modelCirculating immunoglobulin G can play a critical role in clearance of intestinal reovirus infection.The neonatal Fc receptor is not required for mucosal infection by mouse mammary tumor virus.Histochemical and biochemical analysis of the size-dependent nanoimmunoresponse in mouse Peyer's patches using fluorescent organosilica particles.Immune responses that adapt the intestinal mucosa to commensal intestinal bacteria.Polarized transport of the polymeric immunoglobulin receptor in transfected rabbit mammary epithelial cellsNew age adjuvants and delivery systems for subunit vaccines.Particle uptake by Peyer's patches: a pathway for drug and vaccine delivery.Monoclonal immunoglobulin A antibody directed against serotype-specific epitope of Shigella flexneri lipopolysaccharide protects against murine experimental shigellosisImmune privilege in the gut: the establishment and maintenance of non-responsiveness to dietary antigens and commensal flora.Peyer's patches and M cells as potential sites of the inflammatory onset in Crohn's disease.Proteolytic processing of reovirus is required for adherence to intestinal M cellsSecretory immunoglobulin A antibodies against the sigma1 outer capsid protein of reovirus type 1 Lang prevent infection of mouse Peyer's patches.Monoclonal secretory immunoglobulin A protects mice against oral challenge with the invasive pathogen Salmonella typhimuriumSecretory IgA: arresting microbial pathogens at epithelial borders.Secretory immunoglobulin A: well beyond immune exclusion at mucosal surfaces.Intestinal dendritic cells: their role in bacterial recognition, lymphocyte homing, and intestinal inflammation.Microbes, intestinal inflammation and probiotics.Multi-faceted functions of secretory IgA at mucosal surfaces.Protein transport across the small intestine in food allergy.Eosinophils in mucosal immune responsesIgA antibody production by intrarectal immunization of mice using recombinant major capsid protein of hamster polyomavirus
P2860
Q24620817-3FC6A446-4979-4122-931E-6AD3963F4D9BQ24676979-27D5B742-6E37-4D14-9DA1-6AEA948CE3C8Q30478467-499E480F-CD1B-4D3F-8192-0A9A510B3383Q33547143-3BAA87C8-1318-4988-A7C6-3F246B1729EFQ33617401-CF9B7F15-AB57-4F5C-9BE4-85EDDB06693BQ33642634-C249D6EE-200D-47D9-AA10-15529CA56125Q33650764-C09B84A9-4F33-433A-BB1B-1556C9C8E0C5Q33683058-1126998E-0BC9-441F-9C85-6E0AA92F716BQ33805948-518951AC-553A-4336-8B17-CDAFBA1BD6B6Q33845253-A36A2605-37B6-43C9-9FF8-86BAD1447B2BQ33848974-A649A480-50D3-4CE4-AE14-8920BD6C72F3Q34000056-483A2594-C92F-487C-BF6C-874B92CBF4ADQ34660422-850E55C0-AD4C-4C77-A2FE-D71C86826A2DQ34998132-1AB3F7A7-B55B-479F-827D-7B4A9335D9BDQ35169907-0AA46066-E4B7-4EA0-A46C-591FB4558B97Q35454882-2A25424D-D071-4148-AC00-885AE7FBF3A6Q35823116-9A29FFF7-456B-4829-92CB-3088E18A6885Q35830570-20F31E4B-C59F-4111-98D7-5D4C299D0740Q35846385-9AF8A979-D0C3-4608-8755-D84D41E74F84Q35854941-F4D7E54D-1645-4E01-8354-7043B58099FFQ35871184-3984020E-9CA5-4C74-95D6-A49C26F95BEBQ35972669-654E160C-A695-41A4-A308-2B54107EE158Q36122642-B2FE0C6E-BB1D-4FE3-97F9-B8643D1F0769Q36223004-1E58CD85-2992-432A-B85D-9A302D89D1A1Q36265526-6F8FB0FA-834A-48CF-8BE6-05AE29159FD8Q36316646-D4B40372-20E4-41BB-8100-3520BCBA1FBFQ36365336-A5ED45FB-D851-450E-8587-B6F2D8BDC3FEQ36593729-2E753027-E031-4419-B216-2987DDED1D0DQ36631460-62C9B99F-1BBB-4BE0-A68E-1F0DD0EBF9E0Q36638339-E3B2B3B1-5946-4D5D-82FB-BD0132CC4F69Q36942577-4C9A0440-06D7-42D6-A97D-12784F676CE9Q36944529-8DF3182E-BD6F-4DAA-BDA1-6CCCB873806BQ37175693-7E08BD94-07A6-475A-839F-7BD508524CC7Q37514345-CD11B246-97DB-4F04-9139-FCFF422F44CDQ37707264-94E84D5E-3CD7-470C-9ADC-3875AADC382FQ37965684-2CDC40C1-47BD-4B97-BCFA-380560AEB7C4Q38123163-C9925F73-308A-4D81-85D4-27331FE63E24Q38176292-8EF9A5BD-7458-49C8-8AB9-F3475E44C5FEQ38390424-FBE3428C-056D-453B-A780-93C88EAAD9AEQ38408955-6F644B81-2931-47D9-B0B8-91665DA68F77
P2860
Binding and transepithelial transport of immunoglobulins by intestinal M cells: demonstration using monoclonal IgA antibodies against enteric viral proteins
description
1989 nî lūn-bûn
@nan
1989年の論文
@ja
1989年論文
@yue
1989年論文
@zh-hant
1989年論文
@zh-hk
1989年論文
@zh-mo
1989年論文
@zh-tw
1989年论文
@wuu
1989年论文
@zh
1989年论文
@zh-cn
name
Binding and transepithelial tr ...... against enteric viral proteins
@ast
Binding and transepithelial tr ...... against enteric viral proteins
@en
type
label
Binding and transepithelial tr ...... against enteric viral proteins
@ast
Binding and transepithelial tr ...... against enteric viral proteins
@en
prefLabel
Binding and transepithelial tr ...... against enteric viral proteins
@ast
Binding and transepithelial tr ...... against enteric viral proteins
@en
P2093
P2860
P356
P1476
Binding and transepithelial tr ...... against enteric viral proteins
@en
P2093
B N Fields
J P Kraehenbuhl
M R Neutra
P Lucia-Jandris
P Michetti
P2860
P304
P356
10.1083/JCB.108.5.1673
P407
P577
1989-05-01T00:00:00Z