Autophagy is involved in regulating the immune response of dendritic cells to influenza A (H1N1) pdm09 infection

Autophagy can mediate antiviral immunity. However, it remains unknown whether autophagy regulates the immune response of dendritic cells (DCs) to influenza A (H1N1) pdm09 infection. In this study, we found that infection with the H1N1 virus induced DC autophagy in an endocytosis‐dependent manner. Compared with autophagy‐deficient Beclin‐1^+/? mice, we found that bone‐marrow‐derived DCs from wild‐type mice (WT BMDCs) presented a more mature phenotype on H1N1 infection. Wild‐type BMDCs secreted higher levels of interleukin‐6 (IL‐6), tumour necrosis factor‐ α (TNF‐α), interferon‐β (IFN‐β), IL‐12p70 and IFN‐γ than did Beclin‐1^+/? BMDCs. In contrast to Beclin‐1^+/? BMDCs, H1N1‐infected WT BMDCs exhibited increased activation of extracellular signal‐regulated kinase, Jun N‐terminal kinase, p38, and nuclear factor‐κB as well as IFN regulatory factor 7 nuclear translocation. Blockade of autophagosomal and lysosomal fusion by bafilomycin A1 decreased the co‐localization of H1N1 viruses, autophagosomes and lysosomes as well as the secretion of IL‐6, TNF‐α and IFN‐β in H1N1‐infected BMDCs. In contrast to Beclin‐1^+/? BMDCs, H1N1‐infected WT BMDCs were more efficient in inducing allogeneic CD4⁺ T‐cell proliferation and driving T helper type 1, 2 and 17 cell differentiation while inhibiting CD4⁺ Foxp3⁺ regulatory T‐cell differentiation. Moreover, WT BMDCs were more efficient at cross‐presenting the ovalbumin antigen to CD8⁺ T cells. We consistently found that Beclin‐1^+/? BMDCs were inferior in their inhibition of H1N1 virus replication and their induction of H1N1‐specific CD4⁺ and CD8⁺ T‐cell responses, which produced lower levels of IL‐6, TNF‐α and IFN‐β in vivo. Our data indicate that autophagy is important in the regulation of the DC immune response to H1N1 infection, thereby extending our understanding of host immune responses to the virus.     

Toll‐like receptor polymorphism in host immune response to infectious diseases: A review

Immunopolymorphism is considered as an important aspect behind the resistance or susceptibility of the host to an infectious disease. Over the years, researchers have explored many genetic factors for their role in immune surveillance against infectious diseases. Polymorphic characters in the gene encoding Toll‐like receptors (TLRs) play profound roles in inducing differential immune responses by the host against parasitic infections. Protein(s) encoded by TLR gene(s) are immensely important due to their ability of recognizing different types of pathogen associated molecular patterns (PAMPs). This study reviews the polymorphic residues present in the nucleotide or in the amino acid sequence of TLRs and their influence on alteration of inflammatory signalling pathways promoting either susceptibility or resistance to major infectious diseases, including tuberculosis, leishmaniasis, malaria and filariasis. Population‐based studies exploring TLR polymorphisms in humans are primarily emphasized to discuss the association of the polymorphic residues with the occurrence and epidemiology of the mentioned infectious diseases. Principal polymorphic residues in TLRs influencing immunity to infection are mostly single nucleotide polymorphisms (SNPs). I602S (TLR1), R677W (TLR2), P554S (TLR3), D299G (TLR4), F616L (TLR5), S249P (TLR6), Q11L (TLR7), M1V (TLR8), G1174A (TLR9) and G1031T (TLR10) are presented as the major influential SNPs in shaping immunity to pathogenic infections. The contribution of these SNPs in the structure‐function relationship of TLRs is yet not clear. Therefore, molecular studies on such polymorphisms can improve our understanding on the genetic basis of the immune response and pave the way for therapeutic intervention in a more feasible way.     

Increased cellular immune response during immunization of mice with cells preincubated in interferon

Mice of the strain (CBAxC57BL/6)F₁ were immunized by a single intraperitoneal injection of L-1210 cells previously treated with interferon or with a dummy preparation. Mice of the strain CBA were injected with MKh-11 cells, previously treated in the same way. Injection of cells treated with interferon was shown to result in a stronger cellular immune response.Laboratory of Immunology of Leukemias, Central Institute of Hematology and Blood Transfusion, Moscow. (Presented by Academician of the Academy of Medical Sceinces of the USSR N. A. Fedorvo.) Translated from Byulleten' Éksperimental'noi Biologii i Meditsiny, Vol. 82, No. 10, pp. 1230–1232, October, 1976.     

Critical role of the endogenous interferon ligand–receptors in type I and type II interferons response

Separate ligand–receptor paradigms are commonly used for each type of interferon (IFN). However, accumulating evidence suggests that type I and type II IFNs may not be restricted to independent pathways. Using different cell types deficient in IFNAR1, IFNAR2, IFNGR1, IFNGR2 and IFN‐γ, we evaluated the contribution of each element of the IFN system to the activity of type I and type II IFNs. We show that deficiency in IFNAR1 or IFNAR2 is associated with impairment of type II IFN activity. This impairment, presumably resulting from the disruption of the ligand–receptor complex, is obtained in all cell types tested. However, deficiency of IFNGR1, IFNGR2 or IFN‐γ was associated with an impairment of type I IFN activity in spleen cells only, correlating with the constitutive expression of type II IFN (IFN‐γ) observed on those cells. Therefore, in vitro the constitutive expression of both the receptors and the ligands of type I or type II IFN is critical for the enhancement of the IFN activity. Any IFN deficiency can totally or partially impair IFN activity, suggesting the importance of type I and type II IFN interactions. Taken together, our results suggest that type I and type II IFNs may regulate biological activities through distinct as well as common IFN receptor complexes.     

地塞米松对小鼠脾脏巨噬细胞内TLR4和TLR2表达的影响

为观察小鼠脾巨噬细胞内的TLR4和TLR2在脂多糖 (LPS )刺激后 ,地塞米松 (Dx )对其表达量的影响 ,在向BALB/c小鼠腹腔内注射LPS和Dx后采用贴壁法分离小鼠脾巨噬细胞 ,通过半定量RT PCR方法测定了TLR4和TLR2mRNA的表达量。结果显示 :①LPS刺激后 ,小鼠脾巨噬细胞内TLR4mRNA显著上调 (吸光度比为 0 11) ,TLR2上调不明显 (吸光度比为0 0 0 8) ;②预先注射不同剂量Dx ,分别为 0 1mg/kg、 1mg/kg、 10mg/kg ,再用LPS刺激小鼠。注射了Dx后巨噬细胞TLR4mRNA表达量较单纯注射LPS的小鼠显著降低 (吸光度比分别为 0 0 93、 0 0 5 0和 0 0 14 ) ;但TLR2mRNA表达量随着Dx使用剂量增加而增加 (吸光度比分别为 0 0 5 4、 0 0 80和 0 16 1)。该项研究表明TLR4是参与LPS引起炎症反应的主要Toll样受体 ,而TLR2不起主要作用 ;Dx对LPS刺激后TLR 4mRNA的表达有抑制作用 ,而对TLR2mRNA的表达有增强作用 ;Dx抑制LPS引起的炎症反应可能与抑制TLR4的表达有关     

Effect of bone marrow cells of B and nude mice on antibody production in vitro

The thymus-dependence of the ability of bone marrow cells to suppress, the primary immune response to sheep's red blood cells in a culture of spleen cells in vitro was studied. Bone marrow cells of mice with artificial (B mice) and inborn (nude mice) T-lymphocyte deficiency, as well as bone marrow cells from normal mice, were shownto suppress the production of antibody-forming cells in a culture of spleen cells.Institute of Biophysics, Ministry of Health of the USSR, Moscow. (Presented by Academician of the Academy of Medical Sciences of the USSR R. V. Petrov.) Translated from Byulleten' Éksperimental'noi Biologii i Meditsiny, Vol. 88, No. 8, pp. 171–173, August, 1979.     

Subversion of innate and adaptive immune activation induced by structurally modified lipopolysaccharide from Salmonella typhimurium

Salmonella are successful pathogens that infect millions of people every year. During infection, Salmonella typhimurium changes the structure of its lipopolysaccharide (LPS) in response to the host environment, rendering bacteria resistant to cationic peptide lysis in vitro. However, the role of these structural changes in LPS as in vivo virulence factors and their effects on immune responses and the generation of immunity are largely unknown. We report that modified LPS are less efficient than wild‐type LPS at inducing pro‐inflammatory responses. The impact of this LPS‐mediated subversion of innate immune responses was demonstrated by increased mortality in mice infected with a non‐lethal dose of an attenuated S. typhimurium strain mixed with the modified LPS moieties. Up‐regulation of co‐stimulatory molecules on antigen‐presenting cells and CD4⁺ T‐cell activation were affected by these modified LPS. Strains of S. typhimurium carrying structurally modified LPS are markedly less efficient at inducing specific antibody responses. Immunization with modified LPS moiety preparations combined with experimental antigens, induced an impaired Toll‐like receptor 4‐mediated adjuvant effect. Strains of S. typhimurium carrying structurally modified LPS are markedly less efficient at inducing immunity against challenge with virulent S. typhimurium. Hence, changes in S. typhimurium LPS structure impact not only on innate immune responses but also on both humoral and cellular adaptive immune responses.     

Altered innate immune response of plasmacytoid dendritic cells in multiple sclerosis

Plasmacytoid dendritic cells (pDCs) are of crucial importance in immune regulation and response to microbial factors. In multiple sclerosis (MS), pDCs from peripheral blood showed an immature phenotype, but its role in susceptibility to MS is not determined. Because infectious diseases are established triggers of exacerbations in MS, in this study we have characterized the expression of Toll‐like receptors (TLR) and the maturation and functional properties of peripheral blood pDCs from clinically stable, untreated MS patients in response to signals of innate immunity. After stimulation of TLR‐9, interferon (IFN)‐α production by pDCs was significantly lower in MS (n = 12) compared to healthy controls (n = 9). In an allogenic two‐step co‐culture assay we found an impaired effect of TLR‐9 stimulation on IFN‐γ expression of autologous naive T cells in MS patients (n = 4). In peripheral blood mononuclear cells, TLR‐9 stimulation with type A CpG ODN resulted in a higher expression of TLR‐1, ‐2, ‐4, ‐5 and ‐8 in MS patients (n = 7) compared with healthy controls (n = 11). These findings suggest an altered innate immune response to microbial stimuli in MS patients and may help understanding of why common infectious agents trigger MS attacks.     

In vitro and in vivo properties of a dimeric bispecific single-chain antibody IgG-fusion protein for depletion of CCR2+ target cells in mice

The chemokine receptor CCR2 is highly expressed on leukocytes in several inflammatory diseases of both mice and men. Apart from blockade of CCR2 to prevent chemokine-dependent cell migration, depletion of CCR2(+) cells might be a promising strategy for treatment of inflammatory diseases. We therefore designed a bispecific antibody construct with the ability to deplete CCR2(+) target cells in vitro and in vivo. The bispecific antibody construct consists of two single-chain antibody variable fragments (scFv) - one recognizing murine CD3epsilon and the other recognizing murine CCR2 - joined by a short linker and fused to a modified hinge region and the C(H)2 and C(H)3 domains of murine IgG1 for dimerization. The protein was expressed in mammalian cells and purified via its C-terminal histidine tail. In vitro this construct leads to efficient antigen-specific and costimulation-independent activation of T cells and strong lysis of CCR2(+) target cells. In vivo the construct induces an almost complete depletion of CCR2(+)CD11b(+) monocytes from the peripheral blood and spleens of BALB/c mice within 24 h. This recombinant protein construct is a dimeric, bispecific antibody with markedly improved serum levels compared to conventional bispecific single-chain antibodies and the ability to deplete CCR2(+)CD11b(+) monocytes in vivo.     

Immune functions and recruitment of plasmacytoid dendritic cells in psoriasis

Psoriasis is one of the most common chronic T cell-mediated diseases in humans. Among the most proximal event in the innate immunity cascade driving psoriatic inflammation is the secretion of type I IFN by activated plasmacytoid dendritic cells (pDC), a special DC subset strategically positioned in pre-psoriatic symptomless skin. There is an IFN-α signature in primary psoriatic plaques, and blocking of type I IFN signalling can prevent the expansion of pathogenetic T cells and development of psoriatic phenotype. Recently, we have demonstrated that pDC infiltration in psoriatic skin correlates with the expression of markers typical of early phases of psoriasis, whereas it is almost absent in long-lasting lesions. Importantly, pDC recruitment in psoriatic skin is strictly associated with the chemerin/ChemR23 axis, and is temporally active during psoriatic plaque development. Pro-chemerin is produced primarily by dermal fibroblasts, but also by mast cells and endothelial cells. Once secreted, it can be activated by enzymes produced by neutrophils and mast cells, which infiltrate early psoriasis lesions. These findings propose the chemerin/ChemR23 axis as a potential novel therapeutic target in psoriasis.     

Immunostimulatory oligodeoxynucleotide induces TH1 immune response and inhibition of IgE antibody production to cedar pollen allergens in mice

BACKGROUND: Immunotherapy for cedar pollinosis makes use of multiple injections of allergens, but its effectiveness remains controversial. Recent studies indicate that immunization with certain protein antigens and immunostimulatory DNA sequence (ISS) oligodeoxynucleotides (ODNs) represent a potential approach to allergen-specific immunotherapy. OBJECTIVE: We determined whether the coadministration of 2 major protein allergens, Cry j 1 and Cry j 2, of Japanese cedar pollen and ISS-ODN (5'-TGACTCTGAACGTTCGAGATGA-3') improves the immune responses induced by protein allergens in BALB/c mice. METHODS: Mice were primed intradermally with allergens or ISS-ODN in saline solution and boosted with allergens in alum, and other mice were primed with allergens in alum and boosted with allergens/ISS-ODN. Allergen-specific IgG2a and IgG1 antibody responses were measured by means of ELISA in sera after ODN injection, and allergen-specific IgE antibody production was measured by the passive cutaneous anaphylaxis reaction. IFN-gamma and IL-4 releases were also measured by ELISA in the supernatants of allergen-stimulated spleen cells. RESULTS: The coadministration of allergens/ISS-ODN increased IgG2a titers and IFN-gamma release in both groups of mice, whereas it decreased IgG1 titers and IL-4 release in comparison with control mice injected with allergens/mutant ODN. The coadministration additionally inhibited IgE antibody production. CONCLUSION: The data demonstrate that the coadministration of cedar pollen allergens and ISS-ODNs before secondary T(H2) and IgE responses or during ongoing primary T(H2) and IgE responses brings about a T(H1)-shifted immune response and inhibition of IgE antibody production, suggesting that this coadministration strategy may provide a novel type of immunotherapy for cedar pollinosis.     

Immunology in the clinic review series; focus on type 1 diabetes and viruses: the innate immune response to enteroviruses and its possible role in regulating type 1 diabetes

Type 1 diabetes (T1D) is an autoimmune disease arising as a consequence of a misdirected T cell response to the pancreatic beta cell. In recent years, there has been a growing interest in the innate immune system as a regulator of disease development. Genome-wide association studies have identified diabetes-associated polymorphisms in genes encoding proteins with functions related to the innate immune response. Moreover, enteroviruses, known to activate a strong innate immune response, have been implicated in the disease pathogenesis. In this review, we discuss the innate immune response elicited by enteroviruses and how this response may regulate T1D development.     

TLR‐mediated STAT3 and ERK activation controls IL‐10 secretion by human B cells

IL‐10‐producing B cells have a regulatory effect in various mouse models for immune‐mediated disorders via secretion of IL‐10, a potent immunoregulatory cytokine. However, currently, the signaling pathways that regulate IL‐10 production in B cells are not well understood. Here, we show that TLR signaling, but not BCR activation or CD40 ligation, induces potent production of IL‐10 in human B cells. We demonstrate that the activation of STAT3 and ERK is required for TLR‐induced IL‐10 production by B cells, since inhibition of STAT3 or ERK activation abrogates TLR‐induced IL‐10 production. We also uncover a novel function of the TLR‐MyD88‐STAT3 pathway in B cells, namely controlling IL‐10 production, in addition to the known role for this pathway in antibody production. Furthermore, IFN‐α, a member of the type I IFN family, differentially modulates TLR7/8‐ and TLR9‐activated STAT3 and ERK in B cells, which provides an explanation for our findings that IFN‐α enhances TLR7/8‐induced, but not TLR9‐induced IL‐10 production. These results yield insights into the mechanisms by which TLR signaling regulates IL‐10 production in B cells and how type I IFN modulates TLR‐mediated IL‐10 production by B cells, therefore providing potential targets to modulate the function of IL‐10‐producing B cells.     

Toll-like receptor 3 agonist poly(I:C)-induced antiviral response in human corneal epithelial cells

The objective of this study was to examine the expression of Toll-like receptor 3 (TLR3) by human corneal epithelial cells (HCECs) and to determine whether exposure to the TLR3 agonist polyinosinic-polycytidylic acid [poly(I:C)] induces an antiviral response in these cells. Fluorescence-activated cell sorter (FACS) analysis revealed TLR3 to be constitutively expressed and distributed intracellularly in HCECs. Stimulation of HCECs with the TLR3 agonist poly(I:C) induced the activation of nuclear factor (NF)-kappaB and production of the proinflammatory cytokine interleukin (IL)-6 and the chemokine IL-8. Upon exposure to poly(I:C), HCECs initiated a potent antiviral response resulting in an increase of interferon (IFN)-beta mRNA expression (7-fold). Poly(I:C) stimulation also up-regulated mRNA expression of the antiviral chemokine IFN-gamma inducible protein 10 (IP10), myxovirus resistance gene A and 2',5'-oligoadenylate synthetase (5-, 10- and 9-fold, respectively), and secretion of IP10. These responses were also induced by exogenously added type 1 IFNs, but could not be blocked by pretreatment of the cells with anti-TLR3 monoclonal antibody, suggesting that the receptor was not expressed on the cell surface. Furthermore, incubation of HCECs with an endosomal acidification inhibitor, chloroquine, markedly inhibited poly(I:C)-mediated IFN-beta expression in HCECs. These results suggest that corneal epithelial cells are important sentinels of the corneal innate immune system against viral infection, and that stimulation of TLR3 can induce the expression of key proinflammatory cytokines and chemokines and antiviral genes that help in the defence of the cornea against viral infection.