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Ca2+-dependent production and release of IL-8 in human neutrophils. 1998

D B Kuhns, and H A Young, and E K Gallin, and J I Gallin
Clinical Services Program, Science Applications International Corp. Frederick, Frederick Cancer Research and Development Center, MD 21702, USA.

IL-8, a potent neutrophil chemoattractant that is elevated about 200-fold in exudative neutrophils isolated from localized inflammatory sites in vivo, is thought to play a major role in recruitment of neutrophils to inflammatory sites. Incubation of peripheral blood neutrophils with thapsigargin, an inhibitor of the endoplasmic reticulum Ca2+-sequestering-ATPase, causes a dose-dependent induction of IL-8 synthesis that continues for up to 8 h. Cycloheximide inhibits the thapsigargin-induced IL-8 production, suggesting the induction of protein synthesis de novo. In addition, Northern blot analysis of mRNA isolated from neutrophils indicates that thapsigargin treatment increases IL-8 mRNA in a time- and dose-dependent manner. Thapsigargin also induces a biphasic rise in the intracellular Ca2+ concentration, [Ca2+]i, which is composed of an initial (within 15 s) EGTA-insensitive elevation in [Ca2+]i, followed by a delayed (2-min) EGTA-sensitive component. Addition of EGTA before thapsigargin inhibited the induction of IL-8 production. Experiments in which EGTA was added at various times after thapsigargin treatment indicated that a sustained Ca2+ influx was required for maximum IL-8 production. Ascomycin and cyclosporin A, inhibitors of the Ca2+-dependent phosphatase, calcineurin, also inhibited thapsigargin-induced IL-8 production. Thus, in neutrophils, a prolonged increase in [Ca2+]i stimulates IL-8 transcription and synthesis, possibly through a calcineurin-dependent pathway.

UI MeSH Term Description Entries
D009504 Neutrophils Granular leukocytes having a nucleus with three to five lobes connected by slender threads of chromatin, and cytoplasm containing fine inconspicuous granules and stainable by neutral dyes. LE Cells,Leukocytes, Polymorphonuclear,Polymorphonuclear Leukocytes,Polymorphonuclear Neutrophils,Neutrophil Band Cells,Band Cell, Neutrophil,Cell, LE,LE Cell,Leukocyte, Polymorphonuclear,Neutrophil,Neutrophil Band Cell,Neutrophil, Polymorphonuclear,Polymorphonuclear Leukocyte,Polymorphonuclear Neutrophil
D002118 Calcium A basic element found in nearly all tissues. It is a member of the alkaline earth family of metals with the atomic symbol Ca, atomic number 20, and atomic weight 40. Calcium is the most abundant mineral in the body and combines with phosphorus to form calcium phosphate in the bones and teeth. It is essential for the normal functioning of nerves and muscles and plays a role in blood coagulation (as factor IV) and in many enzymatic processes. Coagulation Factor IV,Factor IV,Blood Coagulation Factor IV,Calcium-40,Calcium 40,Factor IV, Coagulation
D002478 Cells, Cultured Cells propagated in vitro in special media conducive to their growth. Cultured cells are used to study developmental, morphologic, metabolic, physiologic, and genetic processes, among others. Cultured Cells,Cell, Cultured,Cultured Cell
D004791 Enzyme Inhibitors Compounds or agents that combine with an enzyme in such a manner as to prevent the normal substrate-enzyme combination and the catalytic reaction. Enzyme Inhibitor,Inhibitor, Enzyme,Inhibitors, Enzyme
D006801 Humans Members of the species Homo sapiens. Homo sapiens,Man (Taxonomy),Human,Man, Modern,Modern Man
D000252 Calcium-Transporting ATPases Cation-transporting proteins that utilize the energy of ATP hydrolysis for the transport of CALCIUM. They differ from CALCIUM CHANNELS which allow calcium to pass through a membrane without the use of energy. ATPase, Calcium,Adenosinetriphosphatase, Calcium,Ca(2+)-Transporting ATPase,Calcium ATPase,Calcium Adenosinetriphosphatase,Adenosine Triphosphatase, Calcium,Ca2+ ATPase,Calcium-ATPase,ATPase, Ca2+,ATPases, Calcium-Transporting,Calcium Adenosine Triphosphatase,Calcium Transporting ATPases,Triphosphatase, Calcium Adenosine
D012333 RNA, Messenger RNA sequences that serve as templates for protein synthesis. Bacterial mRNAs are generally primary transcripts in that they do not require post-transcriptional processing. Eukaryotic mRNA is synthesized in the nucleus and must be exported to the cytoplasm for translation. Most eukaryotic mRNAs have a sequence of polyadenylic acid at the 3' end, referred to as the poly(A) tail. The function of this tail is not known for certain, but it may play a role in the export of mature mRNA from the nucleus as well as in helping stabilize some mRNA molecules by retarding their degradation in the cytoplasm. Messenger RNA,Messenger RNA, Polyadenylated,Poly(A) Tail,Poly(A)+ RNA,Poly(A)+ mRNA,RNA, Messenger, Polyadenylated,RNA, Polyadenylated,mRNA,mRNA, Non-Polyadenylated,mRNA, Polyadenylated,Non-Polyadenylated mRNA,Poly(A) RNA,Polyadenylated mRNA,Non Polyadenylated mRNA,Polyadenylated Messenger RNA,Polyadenylated RNA,RNA, Polyadenylated Messenger,mRNA, Non Polyadenylated
D015398 Signal Transduction The intracellular transfer of information (biological activation/inhibition) through a signal pathway. In each signal transduction system, an activation/inhibition signal from a biologically active molecule (hormone, neurotransmitter) is mediated via the coupling of a receptor/enzyme to a second messenger system or to an ion channel. Signal transduction plays an important role in activating cellular functions, cell differentiation, and cell proliferation. Examples of signal transduction systems are the GAMMA-AMINOBUTYRIC ACID-postsynaptic receptor-calcium ion channel system, the receptor-mediated T-cell activation pathway, and the receptor-mediated activation of phospholipases. Those coupled to membrane depolarization or intracellular release of calcium include the receptor-mediated activation of cytotoxic functions in granulocytes and the synaptic potentiation of protein kinase activation. Some signal transduction pathways may be part of larger signal transduction pathways; for example, protein kinase activation is part of the platelet activation signal pathway. Cell Signaling,Receptor-Mediated Signal Transduction,Signal Pathways,Receptor Mediated Signal Transduction,Signal Transduction Pathways,Signal Transduction Systems,Pathway, Signal,Pathway, Signal Transduction,Pathways, Signal,Pathways, Signal Transduction,Receptor-Mediated Signal Transductions,Signal Pathway,Signal Transduction Pathway,Signal Transduction System,Signal Transduction, Receptor-Mediated,Signal Transductions,Signal Transductions, Receptor-Mediated,System, Signal Transduction,Systems, Signal Transduction,Transduction, Signal,Transductions, Signal
D016209 Interleukin-8 A member of the CXC chemokine family that plays a role in the regulation of the acute inflammatory response. It is secreted by variety of cell types and induces CHEMOTAXIS of NEUTROPHILS and other inflammatory cells. CXCL8 Chemokine,Chemokine CXCL8,Chemotactic Factor, Macrophage-Derived,Chemotactic Factor, Neutrophil, Monocyte-Derived,IL-8,Neutrophil-Activating Peptide, Lymphocyte-Derived,Neutrophil-Activating Peptide, Monocyte-Derived,AMCF-I,Alveolar Macrophage Chemotactic Factor-I,Anionic Neutrophil-Activating Peptide,Chemokines, CXCL8,Chemotactic Factor, Neutrophil,Granulocyte Chemotactic Peptide-Interleukin-8,IL8,Monocyte-Derived Neutrophil Chemotactic Factor,Neutrophil Activation Factor,Alveolar Macrophage Chemotactic Factor I,Anionic Neutrophil Activating Peptide,CXCL8 Chemokines,CXCL8, Chemokine,Chemokine, CXCL8,Chemotactic Factor, Macrophage Derived,Chemotactic Peptide-Interleukin-8, Granulocyte,Granulocyte Chemotactic Peptide Interleukin 8,Interleukin 8,Lymphocyte-Derived Neutrophil-Activating Peptide,Macrophage-Derived Chemotactic Factor,Monocyte-Derived Neutrophil-Activating Peptide,Neutrophil Activating Peptide, Lymphocyte Derived,Neutrophil Activating Peptide, Monocyte Derived,Neutrophil Chemotactic Factor,Neutrophil-Activating Peptide, Anionic,Peptide, Anionic Neutrophil-Activating
D018375 Neutrophil Activation The process in which the neutrophil is stimulated by diverse substances, resulting in degranulation and/or generation of reactive oxygen products, and culminating in the destruction of invading pathogens. The stimulatory substances, including opsonized particles, immune complexes, and chemotactic factors, bind to specific cell-surface receptors on the neutrophil. Activation, Neutrophil,Activations, Neutrophil,Neutrophil Activations

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