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Journal Abstract Search

172 related items for PubMed ID: 10085019

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  • 23. Monophosphoryl Lipid A Enhances Efficacy of a Francisella tularensis LVS-Catanionic Nanoparticle Subunit Vaccine against F. tularensis Schu S4 Challenge by Augmenting both Humoral and Cellular Immunity.
    Richard K, Mann BJ, Qin A, Barry EM, Ernst RK, Vogel SN.
    Clin Vaccine Immunol; 2017 Mar; 24(3):. PubMed ID: 28077440
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  • 24. T cells from lungs and livers of Francisella tularensis-immune mice control the growth of intracellular bacteria.
    Collazo CM, Meierovics AI, De Pascalis R, Wu TH, Lyons CR, Elkins KL.
    Infect Immun; 2009 May; 77(5):2010-21. PubMed ID: 19237526
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  • 26. Transfer of specific antibodies results in increased expression of TNF-alpha and IL12 and recruitment of neutrophils to the site of a cutaneous Francisella tularensis infection.
    Stenmark S, Sjöstedt A.
    J Med Microbiol; 2004 Jun; 53(Pt 6):501-504. PubMed ID: 15150328
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  • 27. Increased susceptibility of IgA-deficient mice to pulmonary Francisella tularensis live vaccine strain infection.
    Furuya Y, Kirimanjeswara GS, Roberts S, Metzger DW.
    Infect Immun; 2013 Sep; 81(9):3434-41. PubMed ID: 23836815
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  • 28. Downmodulation of vaccine-induced immunity and protection against the intracellular bacterium Francisella tularensis by the inhibitory receptor FcγRIIB.
    Franz BJ, Li Y, Bitsaktsis C, Iglesias BV, Pham G, Sunagar R, Kumar S, Gosselin EJ.
    J Immunol Res; 2015 Sep; 2015():840842. PubMed ID: 25961064
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  • 29. Multiple T cell subsets control Francisella tularensis LVS intracellular growth without stimulation through macrophage interferon gamma receptors.
    Cowley SC, Elkins KL.
    J Exp Med; 2003 Aug 04; 198(3):379-89. PubMed ID: 12885873
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  • 30. Early activation of NK cells after lung infection with the intracellular bacterium, Francisella tularensis LVS.
    López MC, Duckett NS, Baron SD, Metzger DW.
    Cell Immunol; 2004 Aug 04; 232(1-2):75-85. PubMed ID: 15922718
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  • 31. Differing effects of interleukin-10 on cutaneous and pulmonary Francisella tularensis live vaccine strain infection.
    Metzger DW, Salmon SL, Kirimanjeswara G.
    Infect Immun; 2013 Jun 04; 81(6):2022-7. PubMed ID: 23529615
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  • 35. Francisella tularensis Live Vaccine Strain deficient in capB and overexpressing the fusion protein of IglA, IglB, and IglC from the bfr promoter induces improved protection against F. tularensis respiratory challenge.
    Jia Q, Bowen R, Lee BY, Dillon BJ, Masleša-Galić S, Horwitz MA.
    Vaccine; 2016 Sep 22; 34(41):4969-4978. PubMed ID: 27577555
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  • 36. Differential requirements by CD4+ and CD8+ T cells for soluble and membrane TNF in control of Francisella tularensis live vaccine strain intramacrophage growth.
    Cowley SC, Sedgwick JD, Elkins KL.
    J Immunol; 2007 Dec 01; 179(11):7709-19. PubMed ID: 18025217
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  • 37. T-cell-independent resistance to infection and generation of immunity to Francisella tularensis.
    Elkins KL, Rhinehart-Jones T, Nacy CA, Winegar RK, Fortier AH.
    Infect Immun; 1993 Mar 01; 61(3):823-9. PubMed ID: 8432603
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  • 38. GM-CSF has disparate roles during intranasal and intradermal Francisella tularensis infection.
    Kurtz SL, Bosio CM, De Pascalis R, Elkins KL.
    Microbes Infect; 2016 Dec 01; 18(12):758-767. PubMed ID: 27475899
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  • 39. NK cells and gamma interferon coordinate the formation and function of hepatic granulomas in mice infected with the Francisella tularensis live vaccine strain.
    Bokhari SM, Kim KJ, Pinson DM, Slusser J, Yeh HW, Parmely MJ.
    Infect Immun; 2008 Apr 01; 76(4):1379-89. PubMed ID: 18227174
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  • 40. Tularemia in BALB/c and C57BL/6 mice vaccinated with Francisella tularensis LVS and challenged intradermally, or by aerosol with virulent isolates of the pathogen: protection varies depending on pathogen virulence, route of exposure, and host genetic background.
    Chen W, Shen H, Webb A, KuoLee R, Conlan JW.
    Vaccine; 2003 Sep 08; 21(25-26):3690-700. PubMed ID: 12922099
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