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Items: 1 to 20 of 135

1.

Inhibiting the immunoproteasome exacerbates the pathogenesis of systemic Candida albicans infection in mice.

Mundt S, Basler M, Buerger S, Engler H, Groettrup M.

Sci Rep. 2016 Jan 18;6:19434. doi: 10.1038/srep19434.

2.

Evaluation of intrinsic and acquired immune cells infiltration in kidney and spleen of the mice infected with systemic candidiasis and treated with chloroform fraction of Zataria Multiflora Boiss.

Bayat M, Hassannejad N, Ghazanfari H.

Microb Pathog. 2018 Jan;114:444-448. doi: 10.1016/j.micpath.2017.11.032. Epub 2017 Nov 26.

PMID:
29183758
3.

Myeloid differentiation factor 88 (MyD88) is required for murine resistance to Candida albicans and is critically involved in Candida -induced production of cytokines.

Villamón E, Gozalbo D, Roig P, Murciano C, O'Connor JE, Fradelizi D, Gil ML.

Eur Cytokine Netw. 2004 Jul-Sep;15(3):263-71.

4.

Regulation of innate immune response to Candida albicans infections by αMβ2-Pra1p interaction.

Soloviev DA, Jawhara S, Fonzi WA.

Infect Immun. 2011 Apr;79(4):1546-58. doi: 10.1128/IAI.00650-10. Epub 2011 Jan 18.

5.

Inhibition of the Immunoproteasome Subunit LMP7 with ONX 0914 Ameliorates Graft-versus-Host Disease in an MHC-Matched Minor Histocompatibility Antigen-Disparate Murine Model.

Zilberberg J, Matos J, Dziopa E, Dziopa L, Yang Z, Kirk CJ, Assefnia S, Korngold R.

Biol Blood Marrow Transplant. 2015 Sep;21(9):1555-64. doi: 10.1016/j.bbmt.2015.06.010. Epub 2015 Jun 18.

6.

No prolongation of skin allograft survival by immunoproteasome inhibition in mice.

Mundt S, Basler M, Sawitzki B, Groettrup M.

Mol Immunol. 2017 Aug;88:32-37. doi: 10.1016/j.molimm.2017.05.022. Epub 2017 Jun 2.

PMID:
28582644
7.

Initiation of T-helper cell immunity to Candida albicans by IL-12: the role of neutrophils.

Romani L, Bistoni F, Puccetti P.

Chem Immunol. 1997;68:110-35. Review.

PMID:
9329219
8.

Endogenous thrombospondin-1 regulates leukocyte recruitment and activation and accelerates death from systemic candidiasis.

Martin-Manso G, Navarathna DH, Galli S, Soto-Pantoja DR, Kuznetsova SA, Tsokos M, Roberts DD.

PLoS One. 2012;7(11):e48775. doi: 10.1371/journal.pone.0048775. Epub 2012 Nov 7.

9.

Comparison of pathogenesis and host immune responses to Candida glabrata and Candida albicans in systemically infected immunocompetent mice.

Brieland J, Essig D, Jackson C, Frank D, Loebenberg D, Menzel F, Arnold B, DiDomenico B, Hare R.

Infect Immun. 2001 Aug;69(8):5046-55.

10.

Activation of murine invariant NKT cells promotes susceptibility to candidiasis by IL-10 induced modulation of phagocyte antifungal activity.

Haraguchi N, Kikuchi N, Morishima Y, Matsuyama M, Sakurai H, Shibuya A, Shibuya K, Taniguchi M, Ishii Y.

Eur J Immunol. 2016 Jul;46(7):1691-703. doi: 10.1002/eji.201545987. Epub 2016 May 27.

11.

TLR-2, IL-10 and IL-17-mediated immunity in experimental chemotherapy murine model of systemic candidiasis; cyclophosphamides' impact and roles.

Dehghan P, Tolouie S, Baradaran B, Nami S, Morovati H.

Microb Pathog. 2018 Jun;119:183-192. doi: 10.1016/j.micpath.2018.04.026. Epub 2018 Apr 17.

PMID:
29673975
12.

Protective role of naturally occurring interleukin-17A-producing γδ T cells in the lung at the early stage of systemic candidiasis in mice.

Dejima T, Shibata K, Yamada H, Hara H, Iwakura Y, Naito S, Yoshikai Y.

Infect Immun. 2011 Nov;79(11):4503-10. doi: 10.1128/IAI.05799-11. Epub 2011 Aug 29.

13.

Platelet-activating factor-induced early activation of NF-kappa B plays a crucial role for organ clearance of Candida albicans.

Choi JH, Ko HM, Kim JW, Lee HK, Han SS, Chun SB, Im SY.

J Immunol. 2001 Apr 15;166(8):5139-44.

14.

Intestinal colonization by Candida albicans alters inflammatory responses in Bruton's tyrosine kinase-deficient mice.

Strijbis K, Yilmaz OH, Dougan SK, Esteban A, Gröne A, Kumamoto CA, Ploegh HL.

PLoS One. 2014 Nov 7;9(11):e112472. doi: 10.1371/journal.pone.0112472. eCollection 2014.

15.

Impaired immune response to Candida albicans in aged mice.

Murciano C, Villamón E, Yáñez A, O'Connor JE, Gozalbo D, Gil ML.

J Med Microbiol. 2006 Dec;55(Pt 12):1649-56.

PMID:
17108267
16.

CD4+ subset expression in murine candidiasis. Th responses correlate directly with genetically determined susceptibility or vaccine-induced resistance.

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

J Immunol. 1993 Feb 1;150(3):925-31.

PMID:
8093707
17.

CD80+Gr-1+ myeloid cells inhibit development of antifungal Th1 immunity in mice with candidiasis.

Mencacci A, Montagnoli C, Bacci A, Cenci E, Pitzurra L, Spreca A, Kopf M, Sharpe AH, Romani L.

J Immunol. 2002 Sep 15;169(6):3180-90.

18.

Chemokine receptor Ccr1 drives neutrophil-mediated kidney immunopathology and mortality in invasive candidiasis.

Lionakis MS, Fischer BG, Lim JK, Swamydas M, Wan W, Richard Lee CC, Cohen JI, Scheinberg P, Gao JL, Murphy PM.

PLoS Pathog. 2012;8(8):e1002865. doi: 10.1371/journal.ppat.1002865. Epub 2012 Aug 16.

19.

Endogenous interleukin 4 is required for development of protective CD4+ T helper type 1 cell responses to Candida albicans.

Mencacci A, Del Sero G, Cenci E, d'Ostiani CF, Bacci A, Montagnoli C, Kopf M, Romani L.

J Exp Med. 1998 Feb 2;187(3):307-17.

20.

Differential interaction of the two related fungal species Candida albicans and Candida dubliniensis with human neutrophils.

Svobodová E, Staib P, Losse J, Hennicke F, Barz D, Józsi M.

J Immunol. 2012 Sep 1;189(5):2502-11. doi: 10.4049/jimmunol.1200185. Epub 2012 Jul 30.

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