Regulation of Toll-like receptor signaling in the innate immunity

Toll-like receptors sense invading pathogens by recognizing a wide variety of conserved pathogen-associated molecular patterns (PAMPs). The members of TLR family selectively utilize adaptor proteins MyD88, TRIF, TIRAP and TRAM to activate overlapping but distinct signal transduction pathways which trigger production of different panels of mediators such as proinflammatory cytokines and type I interferon. These mediators not only control innate immunity but also direct subsequently developed adaptive immunity. TLR activation is strictly and finely regulated at multiple levels of the signal transduction pathways.     

Adipocytokines: mediators linking adipose tissue, inflammation and immunity

There has been much effort recently to define the role of adipocytokines, which are soluble mediators derived mainly from adipocytes (fat cells), in the interaction between adipose tissue, inflammation and immunity. The adipocytokines adiponectin and leptin have emerged as the most abundant adipocyte products, thereby redefining adipose tissue as a key component not only of the endocrine system, but also of the immune system. Indeed, as we discuss here, several adipocytokines have a central role in the regulation of insulin resistance, as well as many aspects of inflammation and immunity. Other adipocytokines, such as visfatin, have only recently been identified. Understanding this rapidly growing family of mainly adipocyte-derived mediators might be of importance in the development of new therapies for obesity-associated diseases.     

Complex surveillance of streptococcus pyogenes. VI. Relationship between hypersensitivity to zymosan and indicators of immunity against group A streptococci

A prospective study involving 20 volunteers was designed to test relationships between the sensitivity to zymosan and the indicators of nonspecific immunity against streptococci (inhibitory activity of blood and production of mediators). The immunization with Mannozym produced a conversion of zymosan-induced MIF with a subsequent improvement of immunity indicators in 4 out of 7 primovaccinated and 2 revaccinated subjects. This effect was detectable in some vaccines within 2-4 days after immunization and persisted for up to 5 months. Initially detected changes, their kinetics in the vaccinated subjects as well as time-related variations in the pattern of indicators during a one-year period of observation seem to suggest that there was a relationship between the natural and induced cellular sensitivity to zymosan and the inhibitory activity of blood. The inhibitory activity of blood was effectuated through enhanced mediator-induced phagocytic activity and nonspecific opsonin mechanisms. The mediators fluctuated in their values with time and were demonstrable in immunized subjects. There were observed interlinked reactions of cellular immunity with zymosan, peptidoglycan and streptococci. The mechanisms found are believed to constitute a fundamental, relatively easy-to-stimulate means of human immunity which may explain the experimental and epidemiological inconsistencies in the strictly type-specific interpretation of the M - anti-M system. Under in vitro conditions the effect of nonspecific immunization was bacteriostatic, but the role of these nonspecific mechanisms under conditions in vivo remains unclear. It is recommended that effectiveness of nonspecific immunization be verified under conditions of natural infection in man.     

Differential Effect of Lactobacillus johnsonii BFE 6128 on Expression of Genes Related to TLR Pathways and Innate Immunity in Intestinal Epithelial Cells

Probiotics have been shown to enhance immune defenses, but their mechanisms of action are only partially understood. We investigated the modulation of signal pathways involved in innate immunity in enterocytes by Lactobacillus johnsonii BFE 6128 isolated from ‘Kule naoto’, a Maasai traditional fermented milk product. This lactobacillus sensitized HT29 intestinal epithelial cells toward recognition of Salmonella enterica serovar Typhimurium by increasing the IL-8 levels released after challenge with this pathogen and by differentially modulating genes related to toll-like receptor (TLR) pathways and innate immunity. Thus, the modulation of pro-inflammatory mediators and TLR-pathway-related molecules may be an important mechanism contributing to the potential stimulation of innate immunity by lactobacilli at the intestinal epithelial level.     

Predominance of Th2 cytokines, CXC chemokines and innate immunity mediators at the mucosal level during severe respiratory syncytial virus infection in children

Profiling of immune mediators in both nasal and plasma samples is a common approach to the study of pathogenesis in respiratory viral infections. Nevertheless, mucosal immunity functions essentially independently from peripheral immunity. In our study, 27 immune mediators were profiled in parallel, in nasopharyngeal aspirates (NPAs) and plasma from 22 < 2 year-old children with a severe respiratory syncytial virus infection involving the lower respiratory tract, using a multiplex assay. NPAs from 22 children with innocent heart murmurs were used as controls. Differences in mediator concentrations between NPAs from patients and controls were assessed using the Mann-Whitney test. Ratios of innate/adaptive-immunity mediators, Th2/Th1-cytokines and CXC/CC-chemokines were calculated for NPAs and plasmas and differences were assessed using the Wilcoxon test. Associations mediators, severity and leukocyte counts were studied using the Spearman-Karber test. Results: increased levels of Th1 cytokines (IL-1beta, IL-2, IL-12p70, IFNgamma, TNFalpha), Th2 cytokines (IL-13, IL-4, IL-6, IL-10), chemokines (IP-10, IL-8, MIP1alpha, MIP-1beta), growth factors (FGFb, PDGFbb, GCSF) and IL-1RA, IL-17 were observed in patient NPAs in comparison to controls. In the relative comparisons between patient NPAs and plasmas, a predominance of innate immunity mediators, Th2 cytokines and CXC chemokines was found at the mucosal level. No association between the level of each mediator in NPAs and plasma was found. In plasma, PDGFbb, VEGF, MIP-1alpha, IL-8 correlated with severity; RANTES and IL-6 correlated with leukocyte counts. Conclusions: acute respiratory syncytial virus infection induces a relative predominance of innate-immunity mediators, Th2 cytokines and CXC chemokines in the mucosal compartment in infected children.     

Marine invertebrate genome sequences and our evolving understanding of animal immunity

Animal immunity is under intense evolutionary pressure, and the mechanisms that carry out recognition and elimination of pathogens are among the most rapidly evolving genetic systems. It is increasingly apparent that this has led to the emergence of novel molecular mechanisms not only among vertebrates, where immunity is by far best characterized, but also across invertebrate phyla. This propensity for rapid divergence has been a serious obstacle for progress in the field of comparative immunology. The variety of recent genome sequences from marine invertebrates representing new phyla offers a means to move forward in this area. Genome sequences provide much improved sensitivity for the detection of gene homologs and a framework for unbiased computational and experimental searches for novel immune mediators. Furthermore, new genomes now offer a more complete and unbiased view of immunity across bilaterian phyla, especially among deuterostomes. In this review we summarize these findings with particular attention toward immunity in Strongylocentrotus purpuratus, the purple sea urchin, and outline the changing perspective on the evolution of deuterostome immunity.     

Innate immunity of the liver microcirculation

The liver is a complex organ with a unique microcirculation and both synthetic and immune functions. Innate immune responses have been studied in response to single inflammatory mediators and several clinically relevant models of infection and injury. While standard histological techniques have been used in many models, the liver microcirculation is also amenable to in vivo examination using epifluorescent, confocal and transillumination intravital microscopy. These techniques have begun to clarify not only the molecular mechanisms but also the specific cell populations involved in the liver inflammation. In this review, we discuss the cells and mediators involved in hepatic innate immunity in simple and complex models of injury and infection, and present the view that the liver microcirculation utilizes non-classical pathways for leukocyte recruitment.     

Bioactive lipids in inflammatory bowel diseases – From pathophysiological alterations to therapeutic opportunities

Inflammatory bowel diseases (IBDs), such as Crohn's disease and ulcerative colitis, are lifelong diseases that remain challenging to treat. IBDs are characterized by alterations in intestinal barrier function and dysregulation of the innate and adaptive immunity. An increasing number of lipids are found to be important regulators of inflammation and immunity as well as gut physiology. Therefore, the study of lipid mediators in IBDs is expected to improve our understanding of disease pathogenesis and lead to novel therapeutic opportunities. Here, through selected examples – such as fatty acids, specialized proresolving mediators, lysophospholipids, endocannabinoids, and oxysterols – we discuss how lipid signaling is involved in IBD physiopathology and how modulating lipid signaling pathways could affect IBDs.     

Biology of IL-27 and its Role in the Host Immunity against Mycobacterium Tuberculosis

IL-27, a heterodimeric cytokine of IL-12 family, regulates both innate and adaptive immunity largely via Jak-Stat signaling. IL-27 can induce IFN-γ and inflammatory mediators from T lymphocytes and innate immune cells. IL-27 has unique anti-inflammatory properties via both Tr1 cells dependent and independent mechanisms. Here the role and biology of IL-27 in innate and adaptive immunity are summarized, with special interest with immunity against Mycobacterium tuberculosis.     

BIK1 cooperates with BAK1 to regulate constitutive immunity and cell death in Arabidopsiss

In Arabidopsis,both the membrane-anchored receptor-like kinase(RLK) BAK1 and the receptor-like cytoplasmic kinase(RLCK) BIK1 are important mediators of transmembrane signal transduction that regulate plant development and immunity.However,little attention has been paid to their genetic association.This study found the bak1 bik1 double mutant of Arabidopsis displayed a severe dwarfism phenotype due to constitutive immunity and cell death in developing plants.These data suggest that BIK1 cooperates with BAK1 to regulate constitutive immunity and cell death.     

Regulation of immune responses by prostaglandin E2

PGE(2), an essential homeostatic factor, is also a key mediator of immunopathology in chronic infections and cancer. The impact of PGE(2) reflects the balance between its cyclooxygenase 2-regulated synthesis and 15-hydroxyprostaglandin dehydrogenase-driven degradation and the pattern of expression of PGE(2) receptors. PGE(2) enhances its own production but suppresses acute inflammatory mediators, resulting in its predominance at late/chronic stages of immunity. PGE(2) supports activation of dendritic cells but suppresses their ability to attract naive, memory, and effector T cells. PGE(2) selectively suppresses effector functions of macrophages and neutrophils and the Th1-, CTL-, and NK cell-mediated type 1 immunity, but it promotes Th2, Th17, and regulatory T cell responses. PGE(2) modulates chemokine production, inhibiting the attraction of proinflammatory cells while enhancing local accumulation of regulatory T cells cells and myeloid-derived suppressor cells. Targeting the production, degradation, and responsiveness to PGE(2) provides tools to modulate the patterns of immunity in a wide range of diseases, from autoimmunity to cancer.     

The role of natural killer T cells and other T cell subsets against infection by the pre-erythrocytic stages of malaria parasites

T cells are critical mediators of immunity to the pre-erythrocytic stages of malaria parasites. In this review, we survey the role of the various T cell subsets in combating the pre-erythrocytic stages; in particular, the role of NK T cells. Moreover, we show how studies using malaria models have revealed a unique behavior of NK T cells, namely the bridging of innate and adaptive immunity.     

Toll-like receptors as molecular switches

Members of the Toll family of single-pass transmembrane receptors are key mediators of innate immunity in both vertebrates and invertebrates. They respond to various pathogen-associated stimuli and transduce the complex signalling responses that are required for inflammation and for the subsequent development of adaptive immunity. Here, we propose a molecular mechanism for signalling by the Toll and Toll-like receptors that involves a series of protein conformational changes initiated by dimerization of their extracellular domains. The initial dimerization event, which is triggered by the interaction of the receptor with its ligand, might disrupt a pre-formed but non-functional dimer. Formation of a stable receptor-ligand complex then relieves constitutive autoinhibition, enabling receptor-receptor association of the extracellular juxtamembrane regions and cytoplasmic signalling domains. This activation process constitutes a tightly regulated, unidirectional molecular switch.     

Mast cells in allergy and beyond

Mast cells (MC) are highly granulated tissue dwelling cells, widely distributed throughout the body in connective tissues and on mucosal surfaces. They are derived from bone marrow progenitors that migrate into the blood and subsequently into the tissues, where they undergo final maturation. Mast cell proliferation, differentiation, survival and activation are regulated by stem cell factor, the ligand for the c-kit tyrosine kinase receptor, expressed on the mast cell surface. They release a large number of pro-inflammatory and immunoregulatory mediators after activation induced by either immunoglobulin E-dependent or immunoglobulin E-independent mechanisms. Mast cells have been most widely studied in the context of allergic reactions and parasite infections, but there is now compelling evidences that they are important players in innate and acquired immunity, wound healing, fibrosis, tumors and autoimmune diseases. This review will discuss current advances in these fields.Cell facts

• Mast cells are high affinity IgE receptor bearing tissue dwelling cells containing prominent cytoplasmic granules and key cells in allergy.

• Mast cell proliferation, differentiation, survival and activation are regulated by stem cell factor.

• Mast cells and their mediators participate in innate and acquired immunity, wound healing, tissue remodeling, angiogenesis and autoimmune diseases.

     

Immune surveillance of intracellular pathogens via autophagy

MHC class II molecules are thought to present peptides derived from extracellular proteins to CD4+ T cells, which are important mediators of adaptive immunity to infections. In contrast, autophagy delivers constitutively cytosolic material for lysosomal degradation and has so far been recognized as an efficient mechanism of innate immunity against bacteria and viruses. Recent studies, however, link these two pathways and suggest that intracellular cytosolic and nuclear antigens are processed for MHC class II presentation after autophagy.     

Leukotrienes: underappreciated mediators of innate immune responses

Leukotrienes are bronchoconstrictor and vasoactive lipid mediators that are targets in the treatment of asthma. Although they are increasingly recognized to exert broad proinflammatory effects, their role in innate immune responses is less well appreciated. These molecules are indeed synthesized by resident and recruited leukocytes during infection. Acting via cell surface G protein-coupled receptors and subsequent intracellular signaling events, they enhance leukocyte accumulation, phagocyte capacity for microbial ingestion and killing, and generation of other proinflammatory mediators. Interestingly, a variety of acquired states of immunodeficiency, such as HIV infection and malnutrition, are characterized by a relative deficiency of leukotriene synthesis. The data reviewed herein point to leukotrienes as underappreciated yet highly relevant mediators of innate immunity.     

The suppression of immunity by ultraviolet radiation: UVA, nitric oxide and DNA damage.

We have examined the mechanism by which solar-simulated ultraviolet radiation (ssUV) suppresses memory immunity to nickel in allergic humans. In initial studies, we used inbred mice to determine the contribution of different wavebands to sunlight-induced immunosuppression. We found that low dose UVA can enhance memory, medium dose UVA (half the amount in one minimum erythemal dose of ssUV) is immunosuppressive, but higher doses protect from UVB. This is genetically dependent, as it is not observed in all mouse strains. UVA caused a similar dose-related change in recall immunity in humans. ssUV dose responses determined the limits of protection provided by sunscreens from immunosuppression in humans. Immune protection factors calculated from these data correlated with UVA protection, but not with sun protection factor, showing that in commercial sunscreens that provide good UVB protection, UVA protection limits prevention of immunosuppression. N(G)-monomethyl-l-arginine acetate (l-NMMA) was used to inhibit nitric oxide (NO) production and T4N5 liposomes containing T4 endonuclease V to enhance DNA repair. Sub-erythemal ssUV caused a dose-related local suppression of recall immunity to nickel in humans. l-NMMA and the liposomes protected the nickel reaction, suggesting that NO and DNA damage are mediators of UV-induced immunosuppression in humans.