Receptor-activated calcium influx in human monocytes exposed to monocyte chemotactic protein-1 and related cytokines

Stimulation of human monocytes with monocyte chemotactic protein-1 (MCP-1) resulted in an increase of [Ca2+]i. The [Ca2+]i rise was dependent on external Ca2+, could be reconstituted by the addition of external Ca2+ and was blocked by Ni2+. Agonist-stimulated Ca2+ influx was demonstrated directly by...

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Veröffentlicht in:	The Journal of immunology (1950) 1993-02, Vol.150 (4), p.1544-1553
Hauptverfasser:	Sozzani, S, Molino, M, Locati, M, Luini, W, Cerletti, C, Vecchi, A, Mantovani, A
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Sprache:	eng
Schlagworte:	Biological and medical sciences Calcium - metabolism Calcium Channels - physiology Chemokine CCL2 Chemokine CCL4 Chemokine CCL5 Chemotactic Factors - pharmacology Colforsin - pharmacology Cytokines - pharmacology Fundamental and applied biological sciences. Psychology Fundamental immunology Humans Immunobiology In Vitro Techniques Inositol 1,4,5-Trisphosphate - metabolism Lymphokines - pharmacology Macrophage Inflammatory Proteins Manganese - metabolism Monocytes - drug effects Monocytes - metabolism Monocytes, macrophages Monokines - pharmacology Myeloid cells: ontogeny, maturation, markers, receptors Nifedipine - pharmacology Recombinant Proteins Tetradecanoylphorbol Acetate - pharmacology Verapamil - pharmacology
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container_end_page	1553
container_issue	4
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container_title	The Journal of immunology (1950)
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creator	Sozzani, S Molino, M Locati, M Luini, W Cerletti, C Vecchi, A Mantovani, A
description	Stimulation of human monocytes with monocyte chemotactic protein-1 (MCP-1) resulted in an increase of [Ca2+]i. The [Ca2+]i rise was dependent on external Ca2+, could be reconstituted by the addition of external Ca2+ and was blocked by Ni2+. Agonist-stimulated Ca2+ influx was demonstrated directly by the use of Mn2+: in the presence of extracellular Mn2+, MCP-1 and FMLP stimulated a dose-dependent quench in fluorescence of Fura-2-loaded monocytes. This quench was the result of stimulation of Mn2+ influx and was blocked by Ni2+ and by the Ca2+ channel inhibitor SC38249. Pretreatment of monocytes with verapamil and nifedipine or high depolarizing [K+] had no effect. MCP-1 did not induce production of inositol triphosphate nor turnover of phosphatidylinositol 4,5-biphosphate. Collectively, these results show that MCP-1 does not induce discharge of intracellular stores. This chemokine stimulates divalent cation entry (Ca2+ or Mn2+) by a mechanism independent of changes in [Ca2+]i, unrelated to voltage-dependent Ca2+ channels and presumably involving receptor-activated channels. In addition to MCP-1, also two other members of the chemokine Cys-Cys family, RANTES and MIP-1 alpha, stimulated [Ca2+]i increase. Exposure of human monocytes to either RANTES or MIP-1 alpha, had no effect on a subsequent stimulation by MCP-1. On the contrary, MCP-1 cross-desensitized monocytes for a subsequent stimulation with RANTES and MIP-1 alpha. These results suggest a certain level of receptor sharing among members of the Cys-Cys chemokine family.
doi_str_mv	10.4049/jimmunol.150.4.1544
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The [Ca2+]i rise was dependent on external Ca2+, could be reconstituted by the addition of external Ca2+ and was blocked by Ni2+. Agonist-stimulated Ca2+ influx was demonstrated directly by the use of Mn2+: in the presence of extracellular Mn2+, MCP-1 and FMLP stimulated a dose-dependent quench in fluorescence of Fura-2-loaded monocytes. This quench was the result of stimulation of Mn2+ influx and was blocked by Ni2+ and by the Ca2+ channel inhibitor SC38249. Pretreatment of monocytes with verapamil and nifedipine or high depolarizing [K+] had no effect. MCP-1 did not induce production of inositol triphosphate nor turnover of phosphatidylinositol 4,5-biphosphate. Collectively, these results show that MCP-1 does not induce discharge of intracellular stores. This chemokine stimulates divalent cation entry (Ca2+ or Mn2+) by a mechanism independent of changes in [Ca2+]i, unrelated to voltage-dependent Ca2+ channels and presumably involving receptor-activated channels. In addition to MCP-1, also two other members of the chemokine Cys-Cys family, RANTES and MIP-1 alpha, stimulated [Ca2+]i increase. Exposure of human monocytes to either RANTES or MIP-1 alpha, had no effect on a subsequent stimulation by MCP-1. On the contrary, MCP-1 cross-desensitized monocytes for a subsequent stimulation with RANTES and MIP-1 alpha. 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The [Ca2+]i rise was dependent on external Ca2+, could be reconstituted by the addition of external Ca2+ and was blocked by Ni2+. Agonist-stimulated Ca2+ influx was demonstrated directly by the use of Mn2+: in the presence of extracellular Mn2+, MCP-1 and FMLP stimulated a dose-dependent quench in fluorescence of Fura-2-loaded monocytes. This quench was the result of stimulation of Mn2+ influx and was blocked by Ni2+ and by the Ca2+ channel inhibitor SC38249. Pretreatment of monocytes with verapamil and nifedipine or high depolarizing [K+] had no effect. MCP-1 did not induce production of inositol triphosphate nor turnover of phosphatidylinositol 4,5-biphosphate. Collectively, these results show that MCP-1 does not induce discharge of intracellular stores. This chemokine stimulates divalent cation entry (Ca2+ or Mn2+) by a mechanism independent of changes in [Ca2+]i, unrelated to voltage-dependent Ca2+ channels and presumably involving receptor-activated channels. In addition to MCP-1, also two other members of the chemokine Cys-Cys family, RANTES and MIP-1 alpha, stimulated [Ca2+]i increase. Exposure of human monocytes to either RANTES or MIP-1 alpha, had no effect on a subsequent stimulation by MCP-1. On the contrary, MCP-1 cross-desensitized monocytes for a subsequent stimulation with RANTES and MIP-1 alpha. These results suggest a certain level of receptor sharing among members of the Cys-Cys chemokine family.</description><subject>Biological and medical sciences</subject><subject>Calcium - metabolism</subject><subject>Calcium Channels - physiology</subject><subject>Chemokine CCL2</subject><subject>Chemokine CCL4</subject><subject>Chemokine CCL5</subject><subject>Chemotactic Factors - pharmacology</subject><subject>Colforsin - pharmacology</subject><subject>Cytokines - pharmacology</subject><subject>Fundamental and applied biological sciences. Psychology</subject><subject>Fundamental immunology</subject><subject>Humans</subject><subject>Immunobiology</subject><subject>In Vitro Techniques</subject><subject>Inositol 1,4,5-Trisphosphate - metabolism</subject><subject>Lymphokines - pharmacology</subject><subject>Macrophage Inflammatory Proteins</subject><subject>Manganese - metabolism</subject><subject>Monocytes - drug effects</subject><subject>Monocytes - metabolism</subject><subject>Monocytes, macrophages</subject><subject>Monokines - pharmacology</subject><subject>Myeloid cells: ontogeny, maturation, markers, receptors</subject><subject>Nifedipine - pharmacology</subject><subject>Recombinant Proteins</subject><subject>Tetradecanoylphorbol Acetate - pharmacology</subject><subject>Verapamil - pharmacology</subject><issn>0022-1767</issn><issn>1550-6606</issn><fulltext>true</fulltext><rsrctype>article</rsrctype><creationdate>1993</creationdate><recordtype>article</recordtype><sourceid>EIF</sourceid><recordid>eNpNkE1vEzEQhq0KVELhFyAkH1A5bbF3vXb2iCoKSJUqoXK2HHvcuPgj2F7S_Ps6Soh68Ugzz7xjPQh9oOSKETZ9eXQhzDH5Kzq2TnsZO0MLOo6k45zwV2hBSN93VHDxBr0t5ZEQwknPztF5a01sIAtUf4GGTU25U7q6f6qCwVp57eaAXbR-fmoFr-egIg4pJr2rUDA8bVJpZE2nJtZrCKnuUzTe5FTBxY5iFQ3O4A-5u5r-uAjlHXptlS_w_lgv0O-bb_fXP7rbu-8_r7_edpoNonaKTtbq1ZIrwYAKPQ3GikmQgU2WAAghltxMw6gEBWGWRqilMZboXlhBV2Q1XKDLQ277z98ZSpXBFQ3eqwhpLpJy1tOB8gYOB1DnVEoGKzfZBZV3khK5dy3_u5bNtWRy77ptfTzGz6sA5rRzlNvmn45zVZpTm1XUrpwwxsVIGW3Y5wO2dg_rrcsgS1Det1Aqt9vti4PPPhKaBg</recordid><startdate>19930215</startdate><enddate>19930215</enddate><creator>Sozzani, S</creator><creator>Molino, M</creator><creator>Locati, M</creator><creator>Luini, W</creator><creator>Cerletti, C</creator><creator>Vecchi, A</creator><creator>Mantovani, A</creator><general>Am Assoc Immnol</general><general>American Association of Immunologists</general><scope>IQODW</scope><scope>CGR</scope><scope>CUY</scope><scope>CVF</scope><scope>ECM</scope><scope>EIF</scope><scope>NPM</scope><scope>AAYXX</scope><scope>CITATION</scope><scope>7T5</scope><scope>H94</scope></search><sort><creationdate>19930215</creationdate><title>Receptor-activated calcium influx in human monocytes exposed to monocyte chemotactic protein-1 and related cytokines</title><author>Sozzani, S ; Molino, M ; Locati, M ; Luini, W ; Cerletti, C ; Vecchi, A ; Mantovani, A</author></sort><facets><frbrtype>5</frbrtype><frbrgroupid>cdi_FETCH-LOGICAL-c437t-a19ffcb86a74e17c93df7970349f0ee77786d935a71e7d8d7a8ddf0c27f71b0b3</frbrgroupid><rsrctype>articles</rsrctype><prefilter>articles</prefilter><language>eng</language><creationdate>1993</creationdate><topic>Biological and medical sciences</topic><topic>Calcium - metabolism</topic><topic>Calcium Channels - physiology</topic><topic>Chemokine CCL2</topic><topic>Chemokine CCL4</topic><topic>Chemokine CCL5</topic><topic>Chemotactic Factors - pharmacology</topic><topic>Colforsin - pharmacology</topic><topic>Cytokines - pharmacology</topic><topic>Fundamental and applied biological sciences. Psychology</topic><topic>Fundamental immunology</topic><topic>Humans</topic><topic>Immunobiology</topic><topic>In Vitro Techniques</topic><topic>Inositol 1,4,5-Trisphosphate - metabolism</topic><topic>Lymphokines - pharmacology</topic><topic>Macrophage Inflammatory Proteins</topic><topic>Manganese - metabolism</topic><topic>Monocytes - drug effects</topic><topic>Monocytes - metabolism</topic><topic>Monocytes, macrophages</topic><topic>Monokines - pharmacology</topic><topic>Myeloid cells: ontogeny, maturation, markers, receptors</topic><topic>Nifedipine - pharmacology</topic><topic>Recombinant Proteins</topic><topic>Tetradecanoylphorbol Acetate - pharmacology</topic><topic>Verapamil - pharmacology</topic><toplevel>peer_reviewed</toplevel><toplevel>online_resources</toplevel><creatorcontrib>Sozzani, S</creatorcontrib><creatorcontrib>Molino, M</creatorcontrib><creatorcontrib>Locati, M</creatorcontrib><creatorcontrib>Luini, W</creatorcontrib><creatorcontrib>Cerletti, C</creatorcontrib><creatorcontrib>Vecchi, A</creatorcontrib><creatorcontrib>Mantovani, A</creatorcontrib><collection>Pascal-Francis</collection><collection>Medline</collection><collection>MEDLINE</collection><collection>MEDLINE (Ovid)</collection><collection>MEDLINE</collection><collection>MEDLINE</collection><collection>PubMed</collection><collection>CrossRef</collection><collection>Immunology Abstracts</collection><collection>AIDS and Cancer Research Abstracts</collection><jtitle>The Journal of immunology (1950)</jtitle></facets><delivery><delcategory>Remote Search Resource</delcategory><fulltext>fulltext</fulltext></delivery><addata><au>Sozzani, S</au><au>Molino, M</au><au>Locati, M</au><au>Luini, W</au><au>Cerletti, C</au><au>Vecchi, A</au><au>Mantovani, A</au><format>journal</format><genre>article</genre><ristype>JOUR</ristype><atitle>Receptor-activated calcium influx in human monocytes exposed to monocyte chemotactic protein-1 and related cytokines</atitle><jtitle>The Journal of immunology (1950)</jtitle><addtitle>J Immunol</addtitle><date>1993-02-15</date><risdate>1993</risdate><volume>150</volume><issue>4</issue><spage>1544</spage><epage>1553</epage><pages>1544-1553</pages><issn>0022-1767</issn><eissn>1550-6606</eissn><coden>JOIMA3</coden><abstract>Stimulation of human monocytes with monocyte chemotactic protein-1 (MCP-1) resulted in an increase of [Ca2+]i. The [Ca2+]i rise was dependent on external Ca2+, could be reconstituted by the addition of external Ca2+ and was blocked by Ni2+. Agonist-stimulated Ca2+ influx was demonstrated directly by the use of Mn2+: in the presence of extracellular Mn2+, MCP-1 and FMLP stimulated a dose-dependent quench in fluorescence of Fura-2-loaded monocytes. This quench was the result of stimulation of Mn2+ influx and was blocked by Ni2+ and by the Ca2+ channel inhibitor SC38249. Pretreatment of monocytes with verapamil and nifedipine or high depolarizing [K+] had no effect. MCP-1 did not induce production of inositol triphosphate nor turnover of phosphatidylinositol 4,5-biphosphate. Collectively, these results show that MCP-1 does not induce discharge of intracellular stores. This chemokine stimulates divalent cation entry (Ca2+ or Mn2+) by a mechanism independent of changes in [Ca2+]i, unrelated to voltage-dependent Ca2+ channels and presumably involving receptor-activated channels. In addition to MCP-1, also two other members of the chemokine Cys-Cys family, RANTES and MIP-1 alpha, stimulated [Ca2+]i increase. Exposure of human monocytes to either RANTES or MIP-1 alpha, had no effect on a subsequent stimulation by MCP-1. On the contrary, MCP-1 cross-desensitized monocytes for a subsequent stimulation with RANTES and MIP-1 alpha. These results suggest a certain level of receptor sharing among members of the Cys-Cys chemokine family.</abstract><cop>Bethesda, MD</cop><pub>Am Assoc Immnol</pub><pmid>7679430</pmid><doi>10.4049/jimmunol.150.4.1544</doi><tpages>10</tpages><oa>free_for_read</oa></addata></record>
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subjects	Biological and medical sciences Calcium - metabolism Calcium Channels - physiology Chemokine CCL2 Chemokine CCL4 Chemokine CCL5 Chemotactic Factors - pharmacology Colforsin - pharmacology Cytokines - pharmacology Fundamental and applied biological sciences. Psychology Fundamental immunology Humans Immunobiology In Vitro Techniques Inositol 1,4,5-Trisphosphate - metabolism Lymphokines - pharmacology Macrophage Inflammatory Proteins Manganese - metabolism Monocytes - drug effects Monocytes - metabolism Monocytes, macrophages Monokines - pharmacology Myeloid cells: ontogeny, maturation, markers, receptors Nifedipine - pharmacology Recombinant Proteins Tetradecanoylphorbol Acetate - pharmacology Verapamil - pharmacology
title	Receptor-activated calcium influx in human monocytes exposed to monocyte chemotactic protein-1 and related cytokines
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