Phagocytosis of Leptospira by leukocytes from mice with different susceptibility to leptospirosis and possible role of chemokines

[1]  S. Sozzani,et al.  Chemokine and chemotactic signals in dendritic cell migration , 2018, Cellular & Molecular Immunology.

[2]  Baosheng Ge,et al.  Functional expression of CCL8 and its interaction with chemokine receptor CCR3 , 2017, BMC Immunology.

[3]  R. M. A. da Costa,et al.  Resistance of mice to Leptospira infection and correlation with chemokine response. , 2017, Immunobiology.

[4]  J. MacMicking Microbiology: Bacteria disarm host-defence proteins , 2017, Nature.

[5]  D. Ojcius,et al.  Mononuclear-macrophages but not neutrophils act as major infiltrating anti-leptospiral phagocytes during leptospirosis , 2017, PloS one.

[6]  Katherine A. Gallagher,et al.  Enhancement of macrophage inflammatory responses by CCL2 is correlated with increased miR-9 expression and downregulation of the ERK1/2 phosphatase Dusp6. , 2017, Cellular immunology.

[7]  J. Siddiqui,et al.  CCL2/Monocyte Chemoattractant Protein 1 and Parathyroid Hormone Action on Bone , 2017, Front. Endocrinol..

[8]  M. Picardeau Virulence of the zoonotic agent of leptospirosis: still terra incognita? , 2017, Nature Reviews Microbiology.

[9]  Damian Szklarczyk,et al.  The STRING database in 2017: quality-controlled protein–protein association networks, made broadly accessible , 2016, Nucleic Acids Res..

[10]  Jian-Dong Li,et al.  Curcumin suppresses NTHi-induced CXCL5 expression via inhibition of positive IKKβ pathway and up-regulation of negative MKP-1 pathway , 2016, Scientific Reports.

[11]  R. M. Costa,et al.  Genomic survey and expression analysis of DNA repair genes in the genus Leptospira , 2016, Molecular Genetics and Genomics.

[12]  W. Gause,et al.  Innate cell communication kick-starts pathogen-specific immunity , 2016, Nature Immunology.

[13]  S. Gordon Phagocytosis: An Immunobiologic Process. , 2016, Immunity.

[14]  M. Gomes-Solecki,et al.  Mouse Model for Sublethal Leptospira interrogans Infection , 2015, Infection and Immunity.

[15]  A. Ko,et al.  Global Morbidity and Mortality of Leptospirosis: A Systematic Review , 2015, PLoS neglected tropical diseases.

[16]  S. Wigneshweraraj,et al.  Regulation of virulence gene expression , 2014, Virulence.

[17]  D. Ojcius,et al.  Identification of Leptospira interrogans Phospholipase C as a Novel Virulence Factor Responsible for Intracellular Free Calcium Ion Elevation during Macrophage Death , 2013, PloS one.

[18]  H. Vogel,et al.  Structural perspectives on antimicrobial chemokines , 2012, Front. Immun..

[19]  R. Zemans,et al.  Role of chemokines in the pathogenesis of acute lung injury. , 2012, American journal of respiratory cell and molecular biology.

[20]  Yunhai Zhang,et al.  Changes in the Relative Inflammatory Responses in Sheep Cells Overexpressing of Toll-Like Receptor 4 When Stimulated with LPS , 2012, PloS one.

[21]  P. Proost,et al.  Overview of the mechanisms regulating chemokine activity and availability. , 2012, Immunology letters.

[22]  M. Selman,et al.  CXCL17 Is a Mucosal Chemokine Elevated in Idiopathic Pulmonary Fibrosis That Exhibits Broad Antimicrobial Activity , 2012, The Journal of Immunology.

[23]  E. A. Martins,et al.  Induction of TNF-alfa and CXCL-2 mRNAs in different organs of mice infected with pathogenic Leptospira. , 2012, Microbial pathogenesis.

[24]  D. Haake,et al.  FlaA Proteins in Leptospira interrogans Are Essential for Motility and Virulence but Are Not Required for Formation of the Flagellum Sheath , 2012, Infection and Immunity.

[25]  C. Takayama,et al.  Characteristic features of intracellular pathogenic Leptospira in infected murine macrophages , 2011, Cellular microbiology.

[26]  P. Murphy,et al.  Host Chemokines Bind to Staphylococcus aureus and Stimulate Protein A Release* , 2010, The Journal of Biological Chemistry.

[27]  S. Qureshi,et al.  The role of toll-like receptors in acute and chronic lung inflammation , 2010, Journal of Inflammation.

[28]  D. Ojcius,et al.  Replication or death: distinct fates of pathogenic Leptospira strain Lai within macrophages of human or mouse origin , 2010, Innate immunity.

[29]  E. A. Martins,et al.  Chemokines expression during Leptospira interrogans serovar Copenhageni infection in resistant BALB/c and susceptible C3H/HeJ mice. , 2009, Microbial pathogenesis.

[30]  S. Amini,et al.  Monocyte chemoattractant protein-1 (MCP-1): an overview. , 2009, Journal of interferon & cytokine research : the official journal of the International Society for Interferon and Cytokine Research.

[31]  A. Moorman,et al.  Amplification efficiency: linking baseline and bias in the analysis of quantitative PCR data , 2009, Nucleic acids research.

[32]  B. Adler,et al.  Leptospira interrogans requires heme oxygenase for disease pathogenesis. , 2009, Microbes and infection.

[33]  R. Dey,et al.  Induction of Host Protective Th1 Immune Response by Chemokines in Leishmania donovani‐infected BALB/c Mice , 2007, Scandinavian journal of immunology.

[34]  D. Ojcius,et al.  Comparison of invasion of fibroblasts and macrophages by high- and low-virulence Leptospira strains: colonization of the host-cell nucleus and induction of necrosis by the virulent strain , 2007, Archives of Microbiology.

[35]  A. Ko,et al.  The OmpA-Like Protein Loa22 Is Essential for Leptospiral Virulence , 2007, PLoS pathogens.

[36]  T. Kirkland,et al.  Toll-Like Receptor 4 Protects against Lethal Leptospira interrogans Serovar Icterohaemorrhagiae Infection and Contributes to In Vivo Control of Leptospiral Burden , 2006, Infection and Immunity.

[37]  M. Fishbein,et al.  Lethal Infection of C3H/HeJ and C3H/SCID Mice with an Isolate of Leptospira interrogans Serovar Copenhageni , 2005, Infection and Immunity.

[38]  B. Premack,et al.  Proteolytic Activation of Alternative CCR1 Ligands in Inflammation1 , 2005, The Journal of Immunology.

[39]  Antonio Alcami,et al.  The chemokine receptor D6 limits the inflammatory response in vivo , 2005, Nature Immunology.

[40]  M. Monden,et al.  A high endothelial venule-expressing promiscuous chemokine receptor DARC can bind inflammatory, but not lymphoid, chemokines and is dispensable for lymphocyte homing under physiological conditions. , 2003, International immunology.

[41]  D. Hoover,et al.  Many chemokines including CCL20/MIP‐3α display antimicrobial activity , 2003 .

[42]  J. Malm,et al.  Expression of the neutrophil‐activating CXC chemokine ENA‐78/CXCL5 by human eosinophils , 2003, Clinical and experimental allergy : journal of the British Society for Allergy and Clinical Immunology.

[43]  P. Verhaert,et al.  Posttranslational modifications affect the activity of the human monocyte chemotactic proteins MCP-1 and MCP-2: identification of MCP-2(6-76) as a natural chemokine inhibitor. , 1998, Journal of immunology.

[44]  L. Donnelly,et al.  Macrophage Dysfunction in Respiratory Disease. , 2017, Results and problems in cell differentiation.

[45]  B. Adler History of leptospirosis and leptospira. , 2015, Current topics in microbiology and immunology.

[46]  S. Liang,et al.  CpG-ODNs induces up-regulated expression of chemokine CCL9 in mouse macrophages and microglia. , 2010, Cellular immunology.

[47]  D. Hoover,et al.  Many chemokines including CCL20/MIP-3alpha display antimicrobial activity. , 2003, Journal of leukocyte biology.

[48]  R. Marchevsky,et al.  Morphological characterization of lung and kidney lesions in C3H/HeJ mice infected with Leptospira interrogans serovar icterohaemorrhagiae: defect of CD4+ and CD8+ T-cells are prognosticators of the disease progression. , 1998, Experimental and toxicologic pathology : official journal of the Gesellschaft fur Toxikologische Pathologie.

[49]  Ellinghausen Hc,et al.  NUTRITION OF LEPTOSPIRA POMONA AND GROWTH OF 13 OTHER SEROTYPES: A SERUM-FREE MEDIUM EMPLOYING OLEIC ALBUMIN COMPLEX. , 1965 .