Blocking the MyD88-Dependent Pathway Protects the Myocardium From Ischemia/Reperfusion Injury in Rat Hearts

Hua, Fang, Ha, Tuanzhu, Ma, Jing, Gao, Xiang, Kelley, Jim, Williams, David L., Browder, I. William, Kao, Race L., Li, Chuanfu

16 December 2005

We examined whether blocking the MyD88 mediated pathway could protect myocardium from ischemia/reperfusion (I/R) injury by transfecting Ad5-dnMyD88 into the myocardium of rats (n = 8) 3 days before the hearts were subjected to ischemia (45 min) and reperfusion (4 h). Ad5-GFP served as control (n = 8). One group of rats was (n = 8) subjected to I/R without transfection. Transfection of Ad5-dnMyD88 significantly reduced infarct size by 53.6% compared with the I/R group (15.1 ± 3.02 vs 32.5 ± 2.59) while transfection of Ad5-GFP did not affect I/R induced myocardial injury (35.4 ± 2.59 vs 32.5 ± 2.59). Transfection of Ad5-dnMyD88 significantly inhibited I/R-enhanced NFκB activity by 50% and increased the levels of phospho-Akt by 35.6% and BCL-2 by 81%, respectively. Cardiac myocyte apoptosis after I/R was significantly reduced by 59% in the Ad5-dnMyD88 group. The results demonstrate that both inhibition of the NFκB activation pathway and activation of the Akt signaling pathway may be responsible for the protective effect of transfection of dominant negative MyD88.

dominant negative MyD88

myocardial ischemia/reperfusion

nuclear factor kappaB

signaling pathway

toll-like receptors

Surgery

Biological and Pathophysiological Roles of End-Products of DHA Oxidation

Yakubenko, Valentin P., Byzova, Tatiana V.

01 April 2017

© 2016 Elsevier B.V. Background Polyunsaturated fatty acids (PUFA) are known to be present and/or enriched in vegetable and fish oils. Among fatty acids, n-3 PUFA are generally considered to be protective in inflammation-related diseases. The guidelines for substituting saturated fatty acids for PUFAs have been highly publicized for decades by numerous health organizations. Recently, however, the beneficial properties of n-3 PUFA are questioned by detailed analyses of multiple randomized controlled clinical trials. The reported heterogeneity of results is likely due not only to differential effects of PUFAs on various pathological processes in humans, but also to the wide spectrum of PUFA's derived products generated in vivo. Scope of review The goal of this review is to discuss the studies focused on well-defined end-products of PUFAs oxidation, their generation, presence in various pathological and physiological conditions, their biological activities and known receptors. Carboxyethylpyrrole (CEP), a DHA-derived oxidized product, is especially emphasized due to recent data demonstrating its pathophysiological significance in many inflammation-associated diseases, including atherosclerosis, hyperlipidemia, thrombosis, macular degeneration, and tumor progression. Major conclusions CEP is a product of radical-based oxidation of PUFA that forms adducts with proteins and lipids in blood and tissues, generating new powerful ligands for TLRs and scavenger receptors. The interaction of CEP with these receptors affects inflammatory response, angiogenesis, and wound healing. General significance The detailed understanding of CEP–mediated cellular responses may provide a basis for the development of novel therapeutic strategies and dietary recommendations.

carboxyethylpyrrole

CD36

docosahexaenoic acid

inflammation

polyunsaturated fatty acids

toll-like receptors

Biomedical Sciences

Interferon Regulatory Factor 7 (IRF7) in Systemic Lupus Erythematosus

Verba, Mark J.

09 November 2020

No description available.

Immunology

Toll-Like receptors

Interferon Regulatory Factor 7

Systemic Lupus Erythematosus

IRF7

Resiquimod

Type I Interferon

Modulation of dendritic cell function and T cell immunity by bacterial lipopolysaccharide

Papadopoulos, George

14 June 2019

Several Gram-negative bacteria modify their outer most surface structure, lipopolysaccharide (LPS), to evade immune surveillance and survive within the host. Many of these changes occur within the lipid A domain, a region that is recognized by the innate immune system via Toll-like receptor-4 (TLR4). One such pathogen, Porphyromonas gingivalis, orchestrates chronic inflammatory disease by disrupting immune homeostasis. P. gingivalis initially synthesizes a penta-acylated lipid A that functions as a weak TLR4 agonist but displays tetra-acylated forms that are either immunologically silent or TLR4 antagonists. The impact of lipid A modifications on downstream signaling and antigen-specific immunity are unclear. TLR4 signals from the plasma membrane through a MyD88-dependent pathway and intracellularly through a TRIF-dependent pathway. Here we show that expression of immunological silent or antagonistic lipid A enables P. gingivalis to evade TRIF-dependent signaling in dendritic cells (DCs). Evasion of TRIF signaling accelerated antigen degradation and impaired priming of pathogen-specific T cells. In contrast, a P. gingivalis strain expressing agonist lipid A potently activated TRIF signaling and delayed antigen degradation, thereby preserving peptides for optimal T cell activation. We propose that lipid A modifications control the endocytic activity of DCs and the efficiency at which microbe-specific T cells are primed. We next investigated the impact of purified P. gingivalis LPS on innate signaling and antigen presentation. All P. gingivalis LPS species induced a program of DC maturation that allowed for constitutive antigen uptake and cross-presentation. This was independent of TLR4 agonist activity and required CD14, a protein that transports TLR4 to endosomes where TRIF signaling can occur. Agonist LPS induced signaling through both MyD88 and TRIF and elicited T cell priming. Antagonistic LPS potently accelerated CD14 endocytosis and induced TRIF-biased signaling leading to comparable degree of cross-priming. Immunologically silent LPS promoted CD14 endocytosis but failed to activate signaling and induced T cell tolerance. Collectively, our results demonstrate that modification of lipid A structure enables Gram-negative bacteria to direct the host immune system towards tolerance or immunity. We propose that these findings can be harnessed for therapeutic modulation of the immune system to treat a variety of immune-mediated diseases. / 2021-06-14T00:00:00Z

Immunology

Cross-presentation

Dendritic cells

Gram-negative bacteria

Lipopolysaccharide

T cells

Toll-like receptors

Activation of Caspase-1 Signaling Complexes by the P2X7 Receptor Requires Intracellular K ⁺ Efflux and Protein Synthesis Induced by Priming with Toll-Like Receptor Ligands

Kahlenberg, Joanne Michelle

29 June 2004

No description available.

Caspase-1

IL-1beta

Inflammasome

Macrophage

Monocyte

Potassium

Toll-Like Receptors

Effect of 7 Days Aerobic Exercise on Insulin Sensitivity, Oxidative Stress, TLR2/TLR4 Cell Surface Expression and Cytokine Secretion in Sedentary Obese Adults

Patrick-Melin, Amy J.

26 August 2011

No description available.

Health Care

Health Sciences

Physiology

Exercise

Toll like Receptors

ROS

obesity

TNF-alpha

IL-6

inflammation

Characterizing dsRNA-induced inflammation in ovarian cancer cells

Muccioli, Maria

24 September 2014

No description available.

Cellular Biology

Molecular Biology

ovarian cancer

tumor immunology

dsRNA, toll-like receptors

Mucosal and Systemic Immune Phenotype is Altered During HIV-1 Infection and is Partially Restored and Further Disrupted in the Absence of Detectable Viral Replication

McCausland, Marie Rose

08 February 2017

No description available.

Immunology

Virology

Pathology

HIV

Antiretroviral therapy

TLRs

Toll-Like Receptors

Monocyte

OSM Regulation of Responses to TLR-ligands in HASMC

Guerette, Jessica

10 1900

<p>Allergic atopic asthma is a respiratory condition that involves immune responses to specific allergens resulting in coughing, wheezing, shortness of breath and tightness in the chest. During an atopic asthmatic attack, the immune system initiates cellular infiltration of lymphocytes and eosinophils, airway hyper-responsiveness and ECM remodeling, which manifests in lung dysfunction in chronic disease. ASMC have recently been shown to play a role in the inflammatory processes of asthma through the production of inflammatory mediators. Various cytokines and chemokines serve as stimulants for these pathways and therefore require further attention to examine inflammatory signaling. OSM, a member of the gp130 family of cytokines, is secreted by inflammatory cells and has been detected in the sputum of asthmatics. Previous findings have established the potential of OSM in induction of lung inflammation, its role in increasing ECM, and its potential role in asthma. Viral or bacterial infections cause asthma exacerbations which result in increased severity of symptoms. The innate immune system relies on pattern recognition receptors including the TLRs to recognize invading pathogens and activate cells such as macrophages and natural killer cells. Although there are a number of these TLRs, this project will focus on the role of TLR3 and TLR4 in ASMC. I generally hypothesized that OSM markedly increases lung cell airway smooth muscle cell responses to external stimulae, such as products of bacteria or viruses that activate toll-like receptors. This exacerbates inflammation and extracellular matrix remodeling which contributes to pathology in asthmatic patients. Findings in this thesis have demonstrated that OSM stimulation increases the production of various cytokines and chemokines and growth factors seen in asthma. Co-stimulations with OSM and TLR-ligands augmented the production of a variety of these inflammatory mediators in comparison to ligands alone. TLR responses were shown to be associated with TLR expression, at both the mRNA and protein level, as well through the activation of the JAK-STAT and NFκB pathways. These findings implicate ASMC in immunomodulatory roles in response to TLR-ligands and OSM, and could play a role in the increased severity of asthma seen during exacerbations.</p> / Master of Science (MSc)

Asthma

Oncostatin M

Airway Smooth Muscle cells

Toll-like Receptors

Medical Immunology

Medical Immunology

Influence of maternal atopy and innate and adaptive immune stimuli on cord blood hematopoietic progenitor cells

Reece, Pia-Lauren

07 1900

<p>The recent and dramatic rise in allergic disease, coupled with the manifestation of the disease within the first years of life, suggests that <em>in utero</em> events are likely critically important to the inception of allergy. Epidemiological and experimental evidence suggest that both genetic predisposition and prenatal environmental exposures (e.g., <em>in utero</em> microbial exposures) play a role in modulating neonatal immunity and subsequent development of allergy. Of relevance to the work in this thesis, reports suggest that bacterial agents can directly alter myelopoiesis and, in connection to allergy, we have previously shown that cord blood (CB) progenitors from high-atopic risk infants demonstrate altered hematopoietic responses. However, whether CB progenitor cell hematopoietic responses are directly altered by microbial stimulation, and what effect maternal atopy has on these responses are unclear. Therefore, this thesis examines the influences of bacterial lipopolysaccharide (LPS) stimulation (innate immunity), maternal atopy, and adaptive immune stimuli (representative of an atopic milieu) on CB progenitor cell eosinophilopoiesis. We show that CB progenitors from healthy, pregnant women respond to LPS through increased eosinophil-basophil (Eo/B) colony forming units (CFU) via the mitogen-activated protein kinase (MAPK) signalling pathway (Chapter 2), whereas the presence of maternal atopy (as defined by skin prick test positivity) is associated with reduced CB CD34⁺ cell LPS-induced Eo/B CFU formation (Chapter 3). To investigate the potential mechanism of reduced eosinophilopoiesis in high-atopic risk infants, CB progenitors stimulated with IL-4 (a surrogate <em>ex vivo</em> for maternal atopy), but not IL-13, demonstrate reduced LPS-induced MAPK activation and Eo/B CFU formation (Chapter 4). This novel work provides insight into mechanisms relating to the influence of maternal atopy and/or potential intrauterine exposures (e.g., prenatal cytokines) on the responsiveness of CB progenitor cells to LPS, which may be of key importance for the development of atopic illnesses. These observations may help in the generation of novel biomarkers and therapeutic targets for childhood atopy.</p> / Doctor of Philosophy (PhD)

toll-like receptors

cord blood

CD34+ cells

eosinophil-basophil

lipopolysaccharide

Medical Immunology

Medical Immunology