Luz M. López-Marı́n scite author profile

Nowadays, most products for dental restoration are produced from acrylic resins based on heat-cured Poly(Methyl MethAcrylate) (PMMA). The addition of metal nanoparticles to organic materials is known to increase the surface hydrophobicity and to reduce adherence to biomolecules. This paper describes the use of nanostructured materials, TiO2and Fe2O3, for simultaneously coloring and/or improving the antimicrobial properties of PMMA resins. Nanoparticles of metal oxides were included during suspension polymerization to produce hybrid metal oxides-alginate-containing PMMA. Metal oxide nanoparticles were characterized by dynamic light scattering, and X-ray diffraction. Physicochemical characterization of synthesized resins was assessed by a combination of spectroscopy, scanning electron microscopy, viscometry, porosity, and mechanical tests. Adherence ofCandida albicanscells and cellular compatibility assays were performed to explore biocompatibility and microbial adhesion of standard and novel materials. Our results show that introduction of biocompatible metal nanoparticles is a suitable means for the improvement of conventional acrylic dental resins.

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Mycobacterium tuberculosis lipids regulate cytokines, TLR-2/4 and MHC class II expression in human macrophages

Rocha-Ramirez

Estrada-Garcı́a

López-Marı́n³

et al. 2008

Tuberculosis

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Intact glycans from cestode antigens are involved in innate activation of myeloid suppressor cells

Gómez-García

López-Marı́n²,

Saavedra³

et al. 2005

Parasite Immunology

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During helminthic infections, strong Th2 type-biased responses concomitant with impaired cell-proliferative responses to parasitic and unrelated antigens are major immunological hallmarks. Parasite glycan structures have been proposed to play a role in modulating these responses. To understand early events related to immune modulation during cestode infection, we have examined the role of intact glycans of antigens from Taenia crassiceps in the recruitment of innate cells. Soluble antigens from this cestode contained higher levels of carbohydrates than proteins. Intraperitoneal injection of the antigens rapidly recruited a cell population expressing F4/80(+)/Gr-1(+)surface markers, which adoptively suppressed naïve T-cell proliferation in vitro in response to anti-CD3/CD28 MAb stimulation in a cell-contact dependent manner. Soluble antigens with altered glycans by treatment with sodium periodate significantly reduced the recruitment of F4/80(+)/Gr1(+)cells, concomitantly their suppressive activity was abrogated, indicating that glycans have a role in the early activation of these suppressor cells. Using C3H/HeJ and STAT6-KO mice, we found that expansion and suppressive activity of F4/80(+)Gr1(+)cells induced by T. crassiceps intact antigens was TLR4 and Th2-type cytokine independent. Together with previous studies on nematode and trematode parasites, our data support the hypothesis that glycans can be involved on a similar pathway in the immunoregulation by helminths.

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Mycobacterial Di-O-Acyl-Trehalose Inhibits Mitogen- and Antigen-Induced Proliferation of Murine T Cells In Vitro

Saavedra

Segura

Leyva

et al. 2001

Clin Diagn Lab Immunol

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2,3-Di-O-acyl-trehalose (DAT) is a glycolipid located on the outer layer of the Mycobacterium tuberculosis cell envelope. Due to its noncovalent linkage to the mycobacterial peptidoglycan, DAT could easily interact with host cells located in the focus of infection. The aim of the present work was to study the effects of DAT on the proliferation of murine spleen cells. DAT was purified from reference strains of M. tuberculosis, or M. fortuitum as a surrogate source of the compound, by various chromatography and solvent extraction procedures and then chemically identified. Incubation of mouse spleen cells with DAT inhibited in a dose-dependent manner concanavalin A-stimulated proliferation of the cells. Experiments, including the propidium iodide exclusion test, showed that these effects were not due to death of the cells. Tracking of cell division by labeling with 5,6-carboxyfluorescein diacetate succinimidyl ester revealed that DAT reduces the rounds of cell division. Immunofluorescence with an anti-CD3 monoclonal antibody indicated that T lymphocytes were the population affected in our model. Our experiments also suggest that the extent of the suppressive activity is strongly dependent on the structural composition of the acyl moieties in DATs. Finally, the inhibitory effect was also observed on antigen-induced proliferation of mouse spleen cells specific for Toxoplasma gondii. All of these data suggest that DAT could have a role in the T-cell hyporesponsiveness observed in chronic tuberculosis.Mycobacterium tuberculosis, the infectious agent of tuberculosis, is responsible for more deaths than any other single pathogen. It causes 2 to 3 million deaths annually and accounts for more than 30% of the deaths of human immunodeficiency virus-positive individuals (13). Factors affecting the pathogenesis of tuberculosis are complex and poorly defined; however, it is well established that the major common feature in chronic tuberculosis is the suppression of the T-cell immune response (3). For instance, while immune depression and immune activation are simultaneously present in tuberculosis, more profound defects in the cell-mediated immunity, which is largely responsible for protection, are clearly correlated with more extensive tissue damages (43).M. tuberculosis synthesizes both stimulatory and suppressive components for T cells. In general, it is accepted that hostmycobacterium interactions are mediated primarily by specialized molecules expressed on the mycobacterial cell envelope. The immunosuppressive capability of M. tuberculosis is attributed at least in part to lipoarabinomannan (LAM), a major cell wall-associated lipoglycan (21,28,29). However, the M. tuberculosis cell wall contains many other distinctive and chemically unusual components, with a predominance of lipid molecules (12). According to data obtained from M. tuberculosis and M. bovis BCG strains, lipid molecules from the cell wall of mycobacteria can migrate outside from the phagocytic vacuole (1, 5). As a consequence, glycolipids noncovalently lin...

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