Recent advances in understanding the mechanisms of TCDD immunotoxicity.
about
The comparative immunotoxicity of five selected compounds following developmental or adult exposureCurrent status of the epidemiologic evidence linking polychlorinated biphenyls and non-hodgkin lymphoma, and the role of immune dysregulationA critical comparison of murine pathology and epidemiological data of TCDD, PCB126, and PeCDFAssociation between Blood Dioxin Level and Chronic Kidney Disease in an Endemic Area of ExposureActivation of aryl hydrocarbon receptor (AhR) leads to reciprocal epigenetic regulation of FoxP3 and IL-17 expression and amelioration of experimental colitisStochastic modeling of B lymphocyte terminal differentiation and its suppression by dioxin.Evidence for ligand-mediated selective modulation of aryl hydrocarbon receptor activity.Primary peripheral T cells become susceptible to 2,3,7,8-tetrachlorodibenzo-p-dioxin-mediated apoptosis in vitro upon activation and in the presence of dendritic cellsA cohort study of developmental polychlorinated biphenyl (PCB) exposure in relation to post-vaccination antibody response at 6-months of ageUse of natural AhR ligands as potential therapeutic modalities against inflammatory disorders.Small molecules as friends and foes of the immune system.2,3,7,8-tetrachlorodibenzo-p-dioxin-mediated suppression of toll-like receptor stimulated B-lymphocyte activation and initiation of plasmacytic differentiationControlling viral immuno-inflammatory lesions by modulating aryl hydrocarbon receptor signalingSerum concentrations of antibodies against vaccine toxoids in children exposed perinatally to immunotoxicants.Prenatal exposure to TCDD triggers significant modulation of microRNA expression profile in the thymus that affects consequent gene expressionConsequences of AhR activation in steady-state dendritic cells.The long winding road toward understanding the molecular mechanisms for B-cell suppression by 2,3,7,8-tetrachlorodibenzo-p-dioxinGene expression alterations in immune system pathways in the thymus after exposure to immunosuppressive chemicals.Changes in DNA methylation and gene expression during 2,3,7,8-tetrachlorodibenzo-p-dioxin-induced suppression of the lipopolysaccharide-stimulated IgM response in splenocytes2,3,7,8-tetrachlorodibenzo-p-dioxin slows the progression of experimental cutaneous Leishmaniasis in susceptible BALB/c and SCID miceSignal transduction pathways and transcriptional regulation in Th17 cell differentiationReview: Mechanisms of How the Intestinal Microbiota Alters the Effects of Drugs and Bile Acids.Differential regulation of Th17 and T regulatory cell differentiation by aryl hydrocarbon receptor dependent xenobiotic response element dependent and independent pathwaysMolecular mechanisms of the physiological functions of the aryl hydrocarbon (dioxin) receptor, a multifunctional regulator that senses and responds to environmental stimuliCharacteristics and application of established luciferase hepatoma cell line that responds to dioxin-like chemicals.Alterations in regulatory T-cells: rediscovered pathways in immunotoxicologyAHR Function in Lymphocytes: Emerging ConceptsCYP1A in TCDD toxicity and in physiology-with particular reference to CYP dependent arachidonic acid metabolism and other endogenous substrates.Xenobiotic-induced alterations in thymocyte development.The influence of 2,3,7,8-tetrachlorodibenzo-p-dioxin (TCDD) on hematological parameters during experimentally induced pleuritis in rats.All-or-none suppression of B cell terminal differentiation by environmental contaminant 2,3,7,8-tetrachlorodibenzo-p-dioxin.Interactions among infections, nutrients and xenobiotics.Cross-Talk in the Female Rat Mammary Gland: Influence of Aryl Hydrocarbon Receptor on Estrogen Receptor SignalingAryl hydrocarbon receptor signaling mediates expression of indoleamine 2,3-dioxygenase.Statistically enhanced spectral counting approach to TCDD cardiac toxicity in the adult zebrafish heart.TCDD-mediated suppression of the in vitro anti-sheep erythrocyte IgM antibody forming cell response is reversed by interferon-gamma.The aryl hydrocarbon receptor is a modulator of anti-viral immunity.A new cross-talk between the aryl hydrocarbon receptor and RelB, a member of the NF-kappaB familyDiverse chemicals including aryl hydrocarbon receptor ligands modulate transcriptional activity of the 3'immunoglobulin heavy chain regulatory region.The aryl hydrocarbon receptor is required for optimal resistance to Listeria monocytogenes infection in mice.
P2860
Q23920388-3620B134-5361-422F-B388-A41CDC231039Q24602309-6DB06C3C-3820-4F26-90BB-2D2BADBAFF83Q28387023-76007FCD-C747-4064-BB46-1B5982D06D2BQ28389314-A21FCDE2-4541-4568-B645-60C2A01EB807Q28476563-5680CBAC-B34D-4211-9174-01D58E1D2ED0Q33548534-59FF2915-1DD4-4823-B27B-8B5AF5C0F2DEQ33613416-9492DF04-D91A-4925-B9F4-4767DE5E9716Q33687105-A49D0029-0633-4626-A096-8ED5BEC943C8Q33810465-19431B01-925C-4191-96D2-BE3A3130C272Q33827813-EC46CFE5-FC5B-49CB-A56E-77A219C8AC0CQ33852354-8887284C-7DF2-4F9D-BBC2-F345AC47E65FQ33917955-6C5A97F1-2712-4133-9186-90DBFA608982Q34102743-AD87820D-0EFA-4896-BEDC-AE4FE2EF9E51Q34215681-85FF6A9D-80FE-4F5F-A82F-5515FF573F26Q34425208-197A012F-0569-49EF-924C-D5D653FCE057Q34503487-FFBF2068-1D76-4E99-8994-438DA1BEE8D6Q34593830-5738E1A4-7967-4BF5-A217-E9EC55F1860AQ34692032-DC279DA2-902E-4F5C-97E0-912B9D7C91AEQ34701783-0D05BEAA-C14B-416F-8CE8-6DD8C3A94BBCQ35009314-EB0C0C74-22EC-4B50-BEA0-AD9745F37918Q35238480-70B3D336-0405-4C1F-8357-54C0CE41A5DFQ35742169-EADD4ABD-BFE4-4967-AC7A-6DC4D6185ABFQ35753510-D8466C59-EA1A-4CF4-9E32-E2040C01B3A0Q36159454-A7898FC0-AE09-4C5F-B2F9-3051E11F1204Q36190635-4AB8D8EC-714B-4FEA-9864-B9B68FB50629Q36251019-1D5A418F-3F88-489D-9F7E-B715C40EB0BEQ36447796-7B6CDA74-7BD2-4E76-B3E4-03B2F0E787CAQ36473507-B681A0E7-EC07-4408-984F-7F1600FCF6DEQ36542110-40250394-A8B7-48C4-9C2D-B1693A773CD9Q36665959-81701665-04F3-4834-9678-F8A17D230D5EQ36675008-9873E7B5-3B44-49E4-AB07-6DFACBB1FE1AQ36844854-87D62221-2389-411E-9039-81B7CE6992D4Q36874333-1FEFFE12-A263-4190-8E5F-E4B0D3E7718DQ36975051-245DD404-D16C-448A-8D74-989FCCC39288Q37088353-E75697BF-D5E4-45AA-B738-E13070123B2EQ37089742-61113EB1-D586-4CFA-946D-73F44F1AD8C6Q37143126-24608AF6-5960-470F-9F8F-2608BBF8CCCBQ37207403-98DB538E-84D1-49F9-A54D-E58BCE1D19BEQ37217327-EE574463-5B49-43CD-9019-B8C80D9BA742Q37239821-E8306506-4E34-459A-A626-115D49E09CB9
P2860
Recent advances in understanding the mechanisms of TCDD immunotoxicity.
description
2002 nî lūn-bûn
@nan
2002 թուականի Փետրուարին հրատարակուած գիտական յօդուած
@hyw
2002 թվականի փետրվարին հրատարակված գիտական հոդված
@hy
2002年の論文
@ja
2002年論文
@yue
2002年論文
@zh-hant
2002年論文
@zh-hk
2002年論文
@zh-mo
2002年論文
@zh-tw
2002年论文
@wuu
name
Recent advances in understanding the mechanisms of TCDD immunotoxicity.
@ast
Recent advances in understanding the mechanisms of TCDD immunotoxicity.
@en
Recent advances in understanding the mechanisms of TCDD immunotoxicity.
@nl
type
label
Recent advances in understanding the mechanisms of TCDD immunotoxicity.
@ast
Recent advances in understanding the mechanisms of TCDD immunotoxicity.
@en
Recent advances in understanding the mechanisms of TCDD immunotoxicity.
@nl
prefLabel
Recent advances in understanding the mechanisms of TCDD immunotoxicity.
@ast
Recent advances in understanding the mechanisms of TCDD immunotoxicity.
@en
Recent advances in understanding the mechanisms of TCDD immunotoxicity.
@nl
P1476
Recent advances in understanding the mechanisms of TCDD immunotoxicity.
@en
P2093
Nancy I Kerkvliet
P304
P356
10.1016/S1567-5769(01)00179-5
P577
2002-02-01T00:00:00Z