Literature DB >> 6429043

Changes in serum colony-stimulating factor and monocytic progenitor cells during Listeria monocytogenes infection in mice.

E J Wing, A Waheed, R K Shadduck.   

Abstract

The capacity of a host to produce and mobilize monocytes is an essential component of host defenses during the early phases of infection caused by Listeria monocytogenes. In this study, the concentrations of colony stimulating factor (CSF) and the numbers of monocyte progenitor cells (CFUm) were measured in mice during infection with L. monocytogenes. The concentration of CSF in serum increased sharply during the first 24 h of infection and remained elevated for the next 7 days. The number of CFUm in the bone marrow, however, decreased during the first 4 days after injection of L. monocytogenes. Thereafter, the number increased slowly, returning to normal on day 14. The decrease in marrow progenitor cells did not appear to result from a reduced sensitivity to CSF. In contrast to bone marrow changes, spleen progenitor cells increased greater than 400%, reaching a peak 7 days after bacterial challenge. These data indicate that monocyte production during L. monocytogenes infection is correlated with a rise in serum CSF concentration, depletion of bone marrow CFUm, and an increase in the number of spleen CFUm.

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Year:  1984        PMID: 6429043      PMCID: PMC263297          DOI: 10.1128/iai.45.1.180-184.1984

Source DB:  PubMed          Journal:  Infect Immun        ISSN: 0019-9567            Impact factor:   3.441


  17 in total

1.  Marrow-dependent cell function in early stages of infection with Listeria monocytogenes.

Authors:  M Bennett; E E Baker
Journal:  Cell Immunol       Date:  1977-09       Impact factor: 4.868

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Authors:  D H Pluznik; V Rotter; R Scheinman
Journal:  J Reticuloendothel Soc       Date:  1972-02

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Authors:  N Wolmark; M Levine; B Fisher
Journal:  J Reticuloendothel Soc       Date:  1974-10

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Authors:  M Mitsuyama; K Takeya; K Nomoto; S Shimotori
Journal:  J Gen Microbiol       Date:  1978-05

5.  Acute antigen-induced elevation of serum colony stimulating factor (CFS) levels.

Authors:  D Metcalf
Journal:  Immunology       Date:  1971-09       Impact factor: 7.397

6.  Granulocyte colony stimulating factor. I. Response to acute granulocytopenia.

Authors:  R K Shadduck; N G Nagabhushanam
Journal:  Blood       Date:  1971-11       Impact factor: 22.113

7.  Effect of endotoxin on granulopoiesis and colony-stimulating factor.

Authors:  P Quesenberry; A Morley; F Stohlman; K Rickard; D Howard; M Smith
Journal:  N Engl J Med       Date:  1972-02-03       Impact factor: 91.245

8.  Granulocyte-macrophage precursor cell and colony-stimulating factor responses of mice infected with Salmonella typhimurium.

Authors:  A Trudgett; T A McNeill; M Killen
Journal:  Infect Immun       Date:  1973-09       Impact factor: 3.441

Review 9.  Regulation of granulocyte and monocyte-macrophage proliferation by colony stimulating factor (CSF): a review.

Authors:  D Metcalf
Journal:  Exp Hematol       Date:  1973       Impact factor: 3.084

10.  The relative importance of blood monocytes and fixed macrophages to the expression of cell-mediated immunity to infection.

Authors:  R J North
Journal:  J Exp Med       Date:  1970-09-01       Impact factor: 14.307
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  26 in total

1.  Evaluation of the influence of FK 506, rapamycin, and cyclosporine on processing and presentation of particulate antigen by macrophages: assessment of a drug "carry-over" effect.

Authors:  M H Cooper; S H Gregory; A W Thomson; J J Fung; T E Starzl; E J Wing
Journal:  Transplant Proc       Date:  1991-12       Impact factor: 1.066

2.  Anti-bacterial activity of peritoneal cells from transgenic mice producing high levels of GM-CSF.

Authors:  H T Tran; D Metcalf; C Cheers
Journal:  Immunology       Date:  1990-11       Impact factor: 7.397

3.  Analysis of macrophage bactericidal function in genetically resistant and susceptible mice by using the temperature-sensitive mutant of Listeria monocytogenes.

Authors:  F Gervais; A Morris-Hooke; T A Tran; E Skamene
Journal:  Infect Immun       Date:  1986-11       Impact factor: 3.441

4.  Expression of the inlAB operon by Listeria monocytogenes is not required for entry into hepatic cells in vivo.

Authors:  S H Gregory; A J Sagnimeni; E J Wing
Journal:  Infect Immun       Date:  1996-10       Impact factor: 3.441

5.  Accessory function of Kupffer cells in the antigen-specific blastogenic response of an L3T4+ T-lymphocyte clone to Listeria monocytogenes.

Authors:  S H Gregory; E J Wing
Journal:  Infect Immun       Date:  1990-07       Impact factor: 3.441

6.  Enhancement of hematopoietic response of mice by subcutaneous administration of Lactobacillus casei.

Authors:  T Yokokura; K Nomoto; T Shimizu; K Nomoto
Journal:  Infect Immun       Date:  1986-04       Impact factor: 3.441

7.  Fas (CD95)-dependent cell-mediated immunity to Listeria monocytogenes.

Authors:  E R Jensen; A A Glass; W R Clark; E J Wing; J F Miller; S H Gregory
Journal:  Infect Immun       Date:  1998-09       Impact factor: 3.441

8.  The magnitude of macrophage inflammatory response does not directly depend on ability of bone marrow cells to respond to interleukin-3 in mice of different strains.

Authors:  G N Pozzulo; E Skamene; F Gervais
Journal:  Inflammation       Date:  1993-08       Impact factor: 4.092

9.  Effects of macrophage colony-stimulating factor on reduction of viable bacteria and survival of mice during Listeria monocytogenes infection: characteristics of monocyte subpopulations.

Authors:  S Kayashima; S Tsuru; N Shinomiya; Y Katsura; K Motoyoshi; M Rokutanda; N Nagata
Journal:  Infect Immun       Date:  1991-12       Impact factor: 3.441

10.  Host resistance of CD18 knockout mice against systemic infection with Listeria monocytogenes.

Authors:  Huaizhu Wu; Joseph E Prince; Cory F Brayton; Chirayu Shah; Daniel Zeve; Stephen H Gregory; C Wayne Smith; Christie M Ballantyne
Journal:  Infect Immun       Date:  2003-10       Impact factor: 3.441
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