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3.

Macrophage cytostatic effect on Trypanosoma musculi involves an L-arginine-dependent mechanism.

Vincendeau P, Daulouède S.

J Immunol. 1991 Jun 15;146(12):4338-43.

PMID:
1904079
4.

Activated macrophages destroy intracellular Leishmania major amastigotes by an L-arginine-dependent killing mechanism.

Green SJ, Meltzer MS, Hibbs JB Jr, Nacy CA.

J Immunol. 1990 Jan 1;144(1):278-83.

PMID:
2104889
5.

IL-10 synergizes with IL-4 and transforming growth factor-beta to inhibit macrophage cytotoxic activity.

Oswald IP, Gazzinelli RT, Sher A, James SL.

J Immunol. 1992 Jun 1;148(11):3578-82.

PMID:
1588047
6.

Production of nitric oxide (NO) is not essential for protection against acute Toxoplasma gondii infection in IRF-1-/- mice.

Khan IA, Matsuura T, Fonseka S, Kasper LH.

J Immunol. 1996 Jan 15;156(2):636-43.

PMID:
8543815
7.
8.
9.

Interleukin-2 suppresses activated macrophage intracellular killing activity by inducing macrophages to secrete TGF-beta.

Nelson BJ, Danielpour D, Rossio JL, Turpin J, Nacy CA.

J Leukoc Biol. 1994 Jan;55(1):81-90.

10.
13.

IL-6 down-modulates the cytokine-enhanced antileishmanial activity in human macrophages.

Hatzigeorgiou DE, He S, Sobel J, Grabstein KH, Hafner A, Ho JL.

J Immunol. 1993 Oct 1;151(7):3682-92.

PMID:
8397259
14.
18.

Interleukin 10 and interferon gamma regulation of experimental Trypanosoma cruzi infection.

Silva JS, Morrissey PJ, Grabstein KH, Mohler KM, Anderson D, Reed SG.

J Exp Med. 1992 Jan 1;175(1):169-74.

19.

Interleukin-4 and interleukin-10 inhibit nitric oxide-dependent macrophage killing of Candida albicans.

Cenci E, Romani L, Mencacci A, Spaccapelo R, Schiaffella E, Puccetti P, Bistoni F.

Eur J Immunol. 1993 May;23(5):1034-8.

PMID:
8477799
20.
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