about
Tissue expression and developmental regulation of chicken cathelicidin antimicrobial peptidesThe vitamin D-antimicrobial peptide pathway and its role in protection against infectionCrossing of the epithelial barriers by Bacillus anthracis: the Known and the UnknownDendritic cells take up and present antigens from viable and apoptotic polymorphonuclear leukocytesRegulation of frontline antibody responses by innate immune signals.Intercellular Interactions as Regulators of NETosisB cell-helper neutrophils stimulate the diversification and production of immunoglobulin in the marginal zone of the spleenThe dendritic cell response to classic, emerging, and homeostatic danger signals. Implications for autoimmunityImmune heterogeneity in neuroinflammation: dendritic cells in the brainImmunogenic versus tolerogenic phagocytosis during anticancer therapy: mechanisms and clinical translationDangers within: DAMP responses to damage and cell death in kidney disease.Neutropenia enhances lung dendritic cell recruitment in response to Aspergillus via a cytokine-to-chemokine amplification loopThe alarmin Mrp8/14 as regulator of the adaptive immune response during allergic contact dermatitisLL-37 opsonizes and inhibits biofilm formation of Aggregatibacter actinomycetemcomitans at subbactericidal concentrations.Molecular evolution of the primate α-/θ-defensin multigene family.Genomic responses during acute human anaphylaxis are characterized by upregulation of innate inflammatory gene networks.Autoimmune responses to brain following stroke.Alarmin S100A8/S100A9 as a biomarker for molecular imaging of local inflammatory activity.New concepts of microbial translocation in the neonatal intestine: mechanisms and prevention.Patient-tailored modulation of the immune system may revolutionize future lung cancer treatment.Rhesus macaque theta defensins suppress inflammatory cytokines and enhance survival in mouse models of bacteremic sepsis.Antialarmin effect of tick saliva during the transmission of Lyme diseaseMouse neutrophils are professional antigen-presenting cells programmed to instruct Th1 and Th17 T-cell differentiationNonspecific cytotoxic cell antimicrobial protein (NCAMP-1): a novel alarmin ligand identified in zebrafish.P2X7 receptor as a key player in oxidative stress-driven cell fate in nonalcoholic steatohepatitis.HMGB1 and microparticles as mediators of the immune response to cell death.Dendritic cell depletion exacerbates acetaminophen hepatotoxicity.Innate and adaptive immune responses to cell death.High-mobility group nucleosome-binding protein 1 acts as an alarmin and is critical for lipopolysaccharide-induced immune responses.Toxoplasma gondii triggers release of human and mouse neutrophil extracellular trapsFunctional alterations of myeloid cell subsets in hyperlipidaemia: relevance for atherosclerosis.Cinobufagin Modulates Human Innate Immune Responses and Triggers Antibacterial Activity.Sterile inflammation - do innate lymphoid cell subsets play a role?Airway β-Defensin-1 Protein Is Elevated in COPD and Severe Asthma.Lactoferrin acts as an adjuvant during influenza vaccination of neonatal mice.Cooperativity of adaptive and innate immunity: implications for cancer therapy.New approaches to the study of sepsisThe role of High Mobility Group Box 1 chromosomal protein in the pathogenesis of chronic sinusitis and nasal polyposis.Neutrophil in viral infections, friend or foe?Immunomodulatory effects of lactoferrin
P2860
Q21195811-E7E00622-94C3-4580-883F-C2124F5BC44EQ24647840-0B3B58AA-4C69-4D68-8792-3DC4AF974F6AQ26779228-260220AB-ABCB-4ED0-B3CE-699BAA2B5A60Q27310806-BBD5FD48-8210-4DA3-922A-9031B648799EQ27686821-CFC521D5-6BBC-42C8-A8A2-51667CC03C8FQ28078773-8681F06D-E603-4A37-8562-AD27E81C8008Q28256100-A8F577CE-1801-411B-A75B-9EE4A74CE8C6Q28384138-7F310639-D2AA-4BD0-BD64-5D2BFDA86866Q28385127-8FE953DF-A4A0-4CBF-894A-0B1155A661A6Q28386858-C8E34863-C886-4CCE-8CFE-FAA8FB9F16F2Q30380000-683F9F37-AA60-47AC-AC6E-BDD1CABBC48AQ30429766-3EB670F4-0C85-4F8C-AFD0-639AFA58F11FQ30532234-BB1D6685-1D22-48BD-8111-426E4FE655E8Q30555350-73A631B5-5DDE-4CEA-B605-73AD9D96DA7BQ31161057-A4C53C27-6A20-4C55-B190-B4952AEA00E1Q33831022-1F1F5CBD-5B36-4217-B4D2-EC5BAE2DF6D7Q34049644-2B7B8DED-0510-4408-A364-8C182487BB73Q34086704-E7791286-9087-4B88-B6AE-4D9E8FBCC33AQ34104407-EF8DECEF-9B28-4944-9039-B6192F603A4CQ34502899-6BDC0BF4-3908-4E3C-A6F4-7DA975CE5995Q34510873-96947103-80CB-4D28-A737-0748757F3EA3Q34529578-ADA4F2C8-5BBC-4D4F-81A8-4E3D1D109EAFQ34859818-9E29FC65-104E-44D4-8F4B-ABEED0F92FD8Q35091827-436FCAAF-9DDE-4C61-8527-73BA7B2426E7Q35178036-BF564310-AA04-4157-8E67-4D12C6ED9AC6Q35193905-86BA1F14-8385-48C5-8CBB-7771C88379E2Q35195090-DEB2AA22-61E7-4588-BB88-46A66B5B9B4FQ35205885-1A3DA104-0C44-403C-A458-DCBD4D87A460Q35679560-5FA9839F-A277-4FF1-AB6A-63FA6BFE3931Q35689558-FB0AEEFA-8D24-4C93-939F-C5D1B2C3A4D8Q35889058-F749FDAE-7245-47CD-94BF-8DAAF342B321Q36105090-3B29166C-0BE6-4B81-BB52-23C3DACFE7C0Q36144350-A93AC90B-9D10-4307-9A27-18FFCE646EECQ36237446-ADF130C0-1D46-4334-A3AA-0168DB326582Q36278779-A1BD529D-822C-49E5-946A-7844AB1B9342Q36429508-A7096986-7CBD-4DFD-9079-642B1AB6275DQ36492375-105BD637-3B6F-4ED0-B4C1-0750A4EDB1FBQ36555321-475E54D8-854D-4151-A3B5-ABA2F1977340Q36569374-C28E99C4-1ABD-43FE-BF3F-DF556C002ED9Q36745818-C24F33A2-3805-4247-AF5A-E07B55EC1CDF
P2860
description
article científic
@ca
article scientifique
@fr
articolo scientifico
@it
artigo científico
@pt
bilimsel makale
@tr
scientific article published on 21 August 2009
@en
vedecký článok
@sk
vetenskaplig artikel
@sv
videnskabelig artikel
@da
vědecký článek
@cs
name
Alarmins link neutrophils and dendritic cells
@en
Alarmins link neutrophils and dendritic cells.
@nl
type
label
Alarmins link neutrophils and dendritic cells
@en
Alarmins link neutrophils and dendritic cells.
@nl
prefLabel
Alarmins link neutrophils and dendritic cells
@en
Alarmins link neutrophils and dendritic cells.
@nl
P2093
P2860
P356
P1433
P1476
Alarmins link neutrophils and dendritic cells
@en
P2093
Gonzalo de la Rosa
Joost J Oppenheim
Poonam Tewary
P2860
P304
P356
10.1016/J.IT.2009.07.004
P577
2009-08-21T00:00:00Z