Your search keyword '"Robledo, Marta"' showing total 2 results

1. Borrelia burgdorferi infection induces long-term memory-like responses in macrophages with tissue-wide consequences in the heart.

Author

Barriales D, Martín-Ruiz I, Carreras-González A, Montesinos-Robledo M, Azkargorta M, Iloro I, Escobés I, Martín-Mateos T, Atondo E, Palacios A, Gonzalez-Lopez M, Bárcena L, Cortázar AR, Cabrera D, Peña-Cearra A, van Liempd SM, Falcón-Pérez JM, Pascual-Itoiz MA, Flores JM, Abecia L, Pellon A, Martínez-Chantar ML, Aransay AM, Pascual A, Elortza F, Berra E, Lavín JL, Rodríguez H, and Anguita J

Subjects

Animals, Cardiomyopathies immunology, Cardiomyopathies microbiology, Cardiomyopathies pathology, Cells, Cultured, Endocarditis, Bacterial complications, Endocarditis, Bacterial immunology, Endocarditis, Bacterial microbiology, Endocarditis, Bacterial pathology, Female, HEK293 Cells, Heart microbiology, Humans, Lyme Disease pathology, Macrophage Activation physiology, Male, Mice, Mice, Inbred C57BL, Myocytes, Cardiac immunology, Myocytes, Cardiac microbiology, Myocytes, Cardiac pathology, RAW 264.7 Cells, Borrelia burgdorferi immunology, Cardiomyopathies etiology, Immunologic Memory, Lyme Disease immunology, Macrophages physiology

Abstract

Lyme carditis is an extracutaneous manifestation of Lyme disease characterized by episodes of atrioventricular block of varying degrees and additional, less reported cardiomyopathies. The molecular changes associated with the response to Borrelia burgdorferi over the course of infection are poorly understood. Here, we identify broad transcriptomic and proteomic changes in the heart during infection that reveal a profound down-regulation of mitochondrial components. We also describe the long-term functional modulation of macrophages exposed to live bacteria, characterized by an augmented glycolytic output, increased spirochetal binding and internalization, and reduced inflammatory responses. In vitro, glycolysis inhibition reduces the production of tumor necrosis factor (TNF) by memory macrophages, whereas in vivo, it produces the reversion of the memory phenotype, the recovery of tissue mitochondrial components, and decreased inflammation and spirochetal burdens. These results show that B. burgdorferi induces long-term, memory-like responses in macrophages with tissue-wide consequences that are amenable to be manipulated in vivo., Competing Interests: The authors have declared that no competing interests exist.

Published

2021

2. Regulation of macrophage activity by surface receptors contained within Borrelia burgdorferi-enriched phagosomal fractions.

Author

Carreras-González A, Barriales D, Palacios A, Montesinos-Robledo M, Navasa N, Azkargorta M, Peña-Cearra A, Tomás-Cortázar J, Escobes I, Pascual-Itoiz MA, Hradiská J, Kopecký J, Gil-Carton D, Prados-Rosales R, Abecia L, Atondo E, Martín I, Pellón A, Elortza F, Rodríguez H, and Anguita J

Subjects

Animals, Cytokines metabolism, Lyme Disease metabolism, Lyme Disease microbiology, Mice, Mice, Inbred C57BL, Proteomics, Receptors, Cell Surface immunology, Signal Transduction, Borrelia burgdorferi immunology, Lyme Disease immunology, Macrophage Activation immunology, Phagocytosis immunology, Receptors, Cell Surface metabolism

Abstract

Macrophages mediate the elimination of pathogens by phagocytosis resulting in the activation of specific signaling pathways that lead to the production of cytokines, chemokines and other factors. Borrelia burgdorferi, the causative agent of Lyme disease, causes a wide variety of pro-inflammatory symptoms. The proinflammatory capacity of macrophages is intimately related to the internalization of the spirochete. However, most receptors mediating this process are largely unknown. We have applied a multiomic approach, including the proteomic analysis of B. burgdorferi-containing phagosome-enriched fractions, to identify surface receptors that are involved in the phagocytic capacity of macrophages as well as their inflammatory output. Sucrose gradient protein fractions of human monocyte-derived macrophages exposed to B. burgdorferi contained the phagocytic receptor, CR3/CD14 highlighting the major role played by these proteins in spirochetal phagocytosis. Other proteins identified in these fractions include C-type lectins, scavenger receptors or Siglecs, of which some are directly involved in the interaction with the spirochete. We also identified the Fc gamma receptor pathway, including the binding receptor, CD64, as involved both in the phagocytosis of, and TNF induction in response to B. burgdorferi in the absence of antibodies. The common gamma chain, FcγR, mediates the phagocytosis of the spirochete, likely through Fc receptors and C-type lectins, in a process that involves Syk activation. Overall, these findings highlight the complex array of receptors involved in the phagocytic response of macrophages to B. burgdorferi., Competing Interests: The authors have declared that no competing interests exist.

Published

2019