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Items: 1 to 20 of 101

1.

Effect of nitric oxide on the growth of Chlamydophila pneumoniae.

Carratelli CR, Rizzo A, Paolillo R, Catania MR, Catalanotti P, Rossano F.

Can J Microbiol. 2005 Nov;51(11):941-7.

PMID:
16333333
2.

In vitro infection and pathogenesis of Chlamydia pneumoniae in endovascular cells.

Quinn TC, Gaydos CA.

Am Heart J. 1999 Nov;138(5 Pt 2):S507-11.

PMID:
10539860
3.

Lymphotoxin inhibits Chlamydia pneumoniae growth in HEp-2 cells.

Matsushima H, Shirai M, Ouchi K, Yamashita K, Kakutani T, Furukawa S, Nakazawa T.

Infect Immun. 1999 Jun;67(6):3175-9.

4.

The resistance of human monocyte-derived macrophages to Chlamydia pneumoniae infection is enhanced by interferon-gamma.

Airenne S, Surcel HM, Bloigu A, Laitinen K, Saikku P, Laurila A.

APMIS. 2000 Feb;108(2):139-44.

PMID:
10737459
5.
6.

Growth in vascular cells and cytokine production by Chlamydia pneumoniae.

Gaydos CA.

J Infect Dis. 2000 Jun;181 Suppl 3:S473-8. Review.

PMID:
10839742
7.

Phosphoinositide 3-kinase in nitric oxide synthesis in macrophage: critical dimerization of inducible nitric-oxide synthase.

Sakai K, Suzuki H, Oda H, Akaike T, Azuma Y, Murakami T, Sugi K, Ito T, Ichinose H, Koyasu S, Shirai M.

J Biol Chem. 2006 Jun 30;281(26):17736-42. Epub 2006 Apr 24.

8.
9.

Chlamydia pneumoniae infection of alveolar macrophages: a model.

Haranaga S, Yamaguchi H, Ikejima H, Friedman H, Yamamoto Y.

J Infect Dis. 2003 Apr 1;187(7):1107-15. Epub 2003 Mar 13.

PMID:
12660925
10.

Chlamydia pneumoniae growth inhibition in cells by the steroid receptor antagonist RU486 (mifepristone).

Yamaguchi H, Kamiya S, Uruma T, Osaki T, Taguchi H, Hanawa T, Fukuda M, Kawakami H, Goto H, Friedman H, Yamamoto Y.

Antimicrob Agents Chemother. 2008 Jun;52(6):1991-8. doi: 10.1128/AAC.01416-07. Epub 2008 Mar 17.

11.

STAT1 regulates IFN-alpha beta- and IFN-gamma-dependent control of infection with Chlamydia pneumoniae by nonhemopoietic cells.

Rothfuchs AG, Trumstedt C, Mattei F, Schiavoni G, Hidmark A, Wigzell H, Rottenberg ME.

J Immunol. 2006 Jun 1;176(11):6982-90.

12.

Induction of iNOS by Chlamydophila pneumoniae requires MyD88-dependent activation of JNK.

Rodriguez N, Lang R, Wantia N, Cirl C, Ertl T, Dürr S, Wagner H, Miethke T.

J Leukoc Biol. 2008 Dec;84(6):1585-93. doi: 10.1189/jlb.0508304. Epub 2008 Sep 17.

PMID:
18799752
13.

Replication of Chlamydia pneumoniae in vitro in human macrophages, endothelial cells, and aortic artery smooth muscle cells.

Gaydos CA, Summersgill JT, Sahney NN, Ramirez JA, Quinn TC.

Infect Immun. 1996 May;64(5):1614-20.

14.

Interferon-gamma reverses the evasion of Birc1e/Naip5 gene mediated murine macrophage immunity by Legionella pneumophila mutant lacking flagellin.

Akamine M, Higa F, Haranaga S, Tateyama M, Mori N, Heuner K, Fujita J.

Microbiol Immunol. 2007;51(3):279-87.

15.

Selective cyclooxygenase inhibitors prevent the growth of Chlamydia pneumoniae in HL cells.

Yan Y, Silvennoinen-Kassinen S, Törmäkangas L, Leinonen M, Saikku P.

Int J Antimicrob Agents. 2008 Jul;32(1):78-83. doi: 10.1016/j.ijantimicag.2008.02.021. Epub 2008 Jun 4.

PMID:
18524544
16.

Chlamydia pneumoniae induces macrophage-derived foam cell formation via PPAR alpha and PPAR gamma-dependent pathways.

Mei CL, He P, Cheng B, Liu W, Wang YF, Wan JJ.

Cell Biol Int. 2009 Mar;33(3):301-8. doi: 10.1016/j.cellbi.2008.12.002. Epub 2008 Dec 16.

PMID:
19114110
17.

Chlamydia pneumoniae stimulates the proliferation of HUVEC through the induction of VEGF by THP-1.

Carratelli CR, Paolillo R, Rizzo A.

Int Immunopharmacol. 2007 Mar;7(3):287-94. Epub 2006 Nov 27.

PMID:
17276886
18.

Development of an in vitro macrophage system to assess Penicillium marneffei growth and susceptibility to nitric oxide.

Cogliati M, Roverselli A, Boelaert JR, Taramelli D, Lombardi L, Viviani MA.

Infect Immun. 1997 Jan;65(1):279-84.

20.

Effective macrophage redox defense against Chlamydia pneumoniae depends on L-type Ca2+ channel activation.

Azenabor AA, Chaudhry AU.

Med Microbiol Immunol. 2003 May;192(2):99-106. Epub 2002 Nov 29.

PMID:
12736823

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