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Items: 18

1.

Tuberculosis patients display a high proportion of CD8+ T cells with a high cytotoxic potential.

Chávez-Galán L, Illescas-Eugenio J, Alvarez-Sekely M, Baez-Saldaña R, Chávez R, Lascurain R.

Microbiol Immunol. 2019 Aug;63(8):316-327. doi: 10.1111/1348-0421.12724. Epub 2019 Jul 26.

PMID:
31254409
2.

Myeloid cell TNFR1 signaling dependent liver injury and inflammation upon BCG infection.

Chavez-Galan L, Vesin D, Blaser G, Uysal H, Benmerzoug S, Rose S, Ryffel B, Quesniaux VFJ, Garcia I.

Sci Rep. 2019 Mar 28;9(1):5297. doi: 10.1038/s41598-019-41629-9.

3.

Several Routes to the Same Destination: Inhibition of Phagosome-Lysosome Fusion by Mycobacterium tuberculosis.

Carranza C, Chavez-Galan L.

Am J Med Sci. 2019 Mar;357(3):184-194. doi: 10.1016/j.amjms.2018.12.003. Epub 2018 Dec 8. Review.

PMID:
30797501
4.

Macrophage Exposure to Polycyclic Aromatic Hydrocarbons From Wood Smoke Reduces the Ability to Control Growth of Mycobacterium tuberculosis.

Sada-Ovalle I, Chávez-Galán L, Vasquez L, Aldriguetti S, Rosas-Perez I, Ramiréz-Venegas A, Perez-Padilla R, Torre-Bouscoulet L.

Front Med (Lausanne). 2018 Nov 13;5:309. doi: 10.3389/fmed.2018.00309. eCollection 2018.

5.

Transmembrane TNF and Partially TNFR1 Regulate TNFR2 Expression and Control Inflammation in Mycobacterial-Induced Pleurisy.

Uysal H, Chavez-Galan L, Vesin D, Blaser G, Benkhoucha M, Ryffel B, Quesniaux VFJ, Garcia I.

Int J Mol Sci. 2018 Jul 4;19(7). pii: E1959. doi: 10.3390/ijms19071959.

6.

Lipoarabinomannan Decreases Galectin-9 Expression and Tumor Necrosis Factor Pathway in Macrophages Favoring Mycobacterium tuberculosis Intracellular Growth.

Chávez-Galán L, Ramon-Luing L, Carranza C, Garcia I, Sada-Ovalle I.

Front Immunol. 2017 Nov 27;8:1659. doi: 10.3389/fimmu.2017.01659. eCollection 2017.

7.

Transmembrane Tumor Necrosis Factor Controls Myeloid-Derived Suppressor Cell Activity via TNF Receptor 2 and Protects from Excessive Inflammation during BCG-Induced Pleurisy.

Chavez-Galan L, Vesin D, Uysal H, Blaser G, Benkhoucha M, Ryffel B, Quesniaux VFJ, Garcia I.

Front Immunol. 2017 Aug 25;8:999. doi: 10.3389/fimmu.2017.00999. eCollection 2017.

8.

Low Dose BCG Infection as a Model for Macrophage Activation Maintaining Cell Viability.

Chávez-Galán L, Vesin D, Martinvalet D, Garcia I.

J Immunol Res. 2016;2016:4048235. Epub 2016 Oct 19.

9.

Tumor Necrosis Factor and Its Receptors Are Crucial to Control Mycobacterium bovis Bacillus Calmette-Guerin Pleural Infection in a Murine Model.

Chavez-Galan L, Vesin D, Segueni N, Prasad P, Buser-Llinares R, Blaser G, Pache JC, Ryffel B, Quesniaux VF, Garcia I.

Am J Pathol. 2016 Sep;186(9):2364-77. doi: 10.1016/j.ajpath.2016.05.015. Epub 2016 Jul 25.

PMID:
27456129
10.

Tim-3 blocking rescue macrophage and T cell function against Mycobacterium tuberculosis infection in HIV+ patients.

Sada-Ovalle I, Ocaña-Guzman R, Pérez-Patrigeón S, Chávez-Galán L, Sierra-Madero J, Torre-Bouscoulet L, Addo MM.

J Int AIDS Soc. 2015 Oct 19;18:20078. doi: 10.7448/IAS.18.1.20078. eCollection 2015.

11.

Exposure of Monocytes to Lipoarabinomannan Promotes Their Differentiation into Functionally and Phenotypically Immature Macrophages.

Chávez-Galán L, Ocaña-Guzmán R, Torre-Bouscoulet L, García-de-Alba C, Sada-Ovalle I.

J Immunol Res. 2015;2015:984973. doi: 10.1155/2015/984973. Epub 2015 Aug 11.

12.

Control of Mycobacterial Infections in Mice Expressing Human Tumor Necrosis Factor (TNF) but Not Mouse TNF.

Olleros ML, Chavez-Galan L, Segueni N, Bourigault ML, Vesin D, Kruglov AA, Drutskaya MS, Bisig R, Ehlers S, Aly S, Walter K, Kuprash DV, Chouchkova M, Kozlov SV, Erard F, Ryffel B, Quesniaux VF, Nedospasov SA, Garcia I.

Infect Immun. 2015 Sep;83(9):3612-23. doi: 10.1128/IAI.00743-15. Epub 2015 Jun 29.

13.

Much More than M1 and M2 Macrophages, There are also CD169(+) and TCR(+) Macrophages.

Chávez-Galán L, Olleros ML, Vesin D, Garcia I.

Front Immunol. 2015 May 26;6:263. doi: 10.3389/fimmu.2015.00263. eCollection 2015. Review.

14.

Pre-exposure of Mycobacterium tuberculosis-infected macrophages to crystalline silica impairs control of bacterial growth by deregulating the balance between apoptosis and necrosis.

Chávez-Galán L, Ramon-Luing LA, Torre-Bouscoulet L, Pérez-Padilla R, Sada-Ovalle I.

PLoS One. 2013 Nov 22;8(11):e80971. doi: 10.1371/journal.pone.0080971. eCollection 2013.

15.

The Tim3-galectin 9 pathway induces antibacterial activity in human macrophages infected with Mycobacterium tuberculosis.

Sada-Ovalle I, Chávez-Galán L, Torre-Bouscoulet L, Nava-Gamiño L, Barrera L, Jayaraman P, Torres-Rojas M, Salazar-Lezama MA, Behar SM.

J Immunol. 2012 Dec 15;189(12):5896-902. doi: 10.4049/jimmunol.1200990. Epub 2012 Nov 23.

16.

Monocytes from tuberculosis patients that exhibit cleaved caspase 9 and denaturalized cytochrome c are more susceptible to death mediated by Toll-like receptor 2.

Chávez-Galán L, Sada-Ovalle I, Baez-Saldaña R, Chávez R, Lascurain R.

Immunology. 2012 Apr;135(4):299-311. doi: 10.1111/j.1365-2567.2011.03543.x.

17.

A mathematical model for cellular immunology of tuberculosis.

Ibarguen-Mondragon E, Esteva L, Chávez-Galán L.

Math Biosci Eng. 2011 Oct 1;8(4):973-86. doi: 10.3934/mbe.2011.8.973.

18.

[Mycobacterium tuberculosis main immune response evasion mechanisms].

Chávez-Galán L, Arenas-Del Angel Mdel C, Sada-Ovalle I, Lascurain R.

Gac Med Mex. 2009 Jul-Aug;145(4):323-30. Review. Spanish.

PMID:
20073432

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