Roles for LPS-dependent interaction and relocation of TLR4 and TRAM in TRIF-signaling

Toll-like receptor 4 (TLR4) activates two distinct signaling pathways inducing production of proinflammatory cytokines or type I interferons (IFNs), respectively. MyD88 and TIRAP/Mal are essential adaptor molecules for the former but not for the latter pathway. In contrast, TRIF/TICAM-1 and TRAM/TICAM-2 are essential for both. TIRAP is a sorting adaptor molecule recruiting MyD88 to activated TLR4 in the plasma membrane. TRAM is thought to bridge between TLR4 and TRIF by physical association. Little is known, however, how TRAM interacts with TLR4 or with TRIF during LPS response. Here, we show that TRAM recruits TRIF to the plasma membrane. Moreover, LPS induces upregulation of TLR4-association with TRAM and their subsequent translocation into endosome/lysosome. The internalized signaling complex consisting of TLR4 and TRAM colocalizes with TRAF3, a signaling molecule downstream of TRIF, in endosome/lysosome. These results suggest that TLR4 activates TRIF-signaling in endosome/lysosome after relocation from the cell surface.     

Toll样受体（TLR）介导的天然免疫间的相互调节

模式识别受体（PRR）在宿主细胞识别与抵御微生物病原体中起到了重要作用。Toll样受体（TLR）是研究比较清楚的一类PRR,可以识别多种病原体成份,启动天然免疫反应。此外,近来发现了几类其他模式识别受体,如C型凝集素受体（CLR）,核苷酸寡聚结合域（NOD）样受体（NLR）和视黄酸诱导基因I（RIG—I）样受体（RLR）,表明机体的天然免疫反应受到多种机制的精密调控。本文着重综述TLR与其他PRR在识别病原体和介导天然免疫信号通路间的相互关系。     

Regulation of innate immune responses by transmembrane interactions: Lessons from the TLR family

The mammalian innate immune response is responsible for the early stages of defense against invading pathogens. One of the major receptor families facilitating innate immune activation is the Toll-like receptor (TLR) family. These receptors are type 1 membrane proteins spanning the membrane with a single transmembrane domain (TMD). All TLRs form homo- and hetero-dimers within membranes and new data suggest that the single transmembrane domain of some of these receptors is involved in their dimerization and function. Newly identified TLR dimers are continuously reported but only little is known about the importance of the TMDs for their dimer assembly and signaling regulation. Uncontrolled or untimely activation of TLRs is related to a large number of pathologies ranging from cystic fibrosis to sepsis and cancer. In this review we will focus on the contribution of the TMDs of innate immune receptors – specifically TLR2–to their regulation and function. In addition, we will address the current issues remaining to be solved regarding the mechanistic insights of this regulation. This article is part of a Special Issue entitled: Membrane Structure and Function: Relevance in the Cell's Physiology, Pathology and Therapy.     

Genetic variation in TLR10 is not associated with chronic Q fever,despite the inhibitory effect of TLR10 on Coxiella burnetii-induced cytokines in vitro

Coxiella burnetii, the causative agent of Q fever, is recognized by TLR2. TLR10 can act as an inhibitory receptor on TLR2-derived immune responses. Therefore, we investigated the role of TLR10 on C. burnetii-induced cytokine production and assessed whether genetic polymorphisms in TLR10 influences the development of chronic Q fever. HEK293 cells, transfected with TLR2, TLR10 or TLR2/TLR10, and human peripheral blood mononuclear cells (PBMCs) in the presence of anti-TLR10, were stimulated with C. burnetii. In both assays, the absence of TLR10 resulted in increased cytokine responses after C. burnetii stimulation. In addition, the effect of single nucleotide polymorphisms (SNPs) in TLR10 was examined in healthy volunteers whose PBMCs were stimulated with C. burnetii Nine Mile or the Dutch outbreak isolate C. burnetii 3262. Individuals bearing SNPs in TLR10 displayed increased cytokine production upon C. burnetii 3262 stimulation. Furthermore, 139 chronic Q fever patients and 220 controls were genotyped for TLR10 N241H, I775V and I369L. None of these polymorphisms were associated with increased susceptibility to chronic Q fever. In conclusion, TLR10 has an inhibitory effect on in vitro cytokine production by C. burnetii, but the presence of TLR10 polymorphisms does not lead to an increased risk of developing chronic Q fever.     

TLR2 synergizes with both TLR4 and TLR9 for induction of the MyD88-dependent splenic cytokine and chemokine response to Streptococcus pneumoniae

We previously demonstrated that induction of splenic cytokine and chemokine secretion in response to Streptococcus pneumoniae (Pn) is MyD88-, but not critically TLR2-dependent, suggesting a role for additional TLRs. In this study, we investigated the role of TLR2, TLR4, and/or TLR9 in mediating this response. We show that a single deficiency in TLR2, TLR4, or TLR9 has only modest, selective effects on cytokine and chemokine secretion, whereas substantial defects were observed in TLR2(-/-)xTLR9(-/-) and TLR2(-/-)xTLR4(-/-) mice, though not as severe as in MyD88(-/-) mice. Chloroquine, which inhibits the function of intracellular TLRs, including TLR9, completely abrogated detectable cytokine and chemokine release in spleen cells from TLR2(-/-)xTLR4(-/-) mice, similar to what is observed for mice deficient in MyD88. These data demonstrate significant synergy between TLR2 and both TLR4 and TLR9 for induction of the MyD88-dependent splenic cytokine and chemokine response to Pn.     

Phylogenetic and expression analysis of amphibian Xenopus Toll-like receptors

An anuran amphibian, South African clawed frog (Xenopus laevis), is used to study the immune system, as it possesses a set of acquired immune system represented by T and B lymphocytes and the immunoglobulins. The acquired immune system is impaired throughout the larva and the metamorphosis stage in the amphibians. On the other hand, the role of innate immune system in the tadpole remains unclear. Recently, insect Toll protein homologues, namely, Toll-like receptors (TLRs), have been identified as sensors recognizing microbe-pattern molecules in vertebrates. Whole-genome analysis of Xenopus tropicalis supported the existence of the tlr genes in the frog. In this study, we annotated 20 frog tlr gene nucleotide sequences from the latest genome assembly version 4.1 on the basis of homology and identified cDNAs of the predicted frog TLR proteins. Phylogenetic analysis showed that the repertoire of the frog TLRs consisted of both fish- and mammalian-type TLRs. We showed that the frog TLRs are constitutively expressed in the tadpole as well as in the adult frog. Our results suggest that tadpoles are protected from microbes by the innate system that includes TLRs, despite impaired acquired immune system in tadpoles. This is the first report on the properties of TLRs in the most primitive terrestrial animals like amphibia. Electronic supplementary material The online version of this article (doi:) contains supplementary material, which is available to authorized users.     

Impaired host defense to infection and Toll-like receptor 2-independent killing of Borrelia burgdorferi clinical isolates in TLR2-deficient C3H/HeJ mice

To investigate the role of Toll-like receptor 2 (TLR2)-mediated signaling in host innate defense and development of Lyme disease, the pathogenicity of Borrelia burgdorferi sensu stricto clinical isolates representing two distinct genotypes (RST1 and RST3A) was assessed in TLR2(-/-) C3H/HeJ mice. All TLR2(-/-) mice infected with a B. burgdorferi RST1 isolate developed severe arthritis. The numbers of spirochetes in heart, joint and ear biopsy specimens were significantly higher in TLR2(-/-) mice than in wild-type mice similarly infected as determined by real-time quantitative polymerase chain reaction. Interestingly, despite the higher spirochete levels in heart tissues, milder carditis was observed in TLR2(-/-) than in wild-type mice infected with this RST1 isolate (P=0.02). By contrast, no positive cultures were obtained from any of the blood and tissue specimens from TLR2(-/-) mice inoculated with two RST3A clinical isolates. The data suggest that there is impaired host innate defense against infection and TLR2-independent killing of B. burgdorferi clinical isolates in TLR2-deficient C3H/HeJ mice.     

Divergent Toll-like receptors in catfish (Ictalurus punctatus): TLR5S, TLR20, TLR21

Toll-like receptors (TLR) mediate pathogen recognition in vertebrate species through detection of conserved microbial ligands. Families of TLR molecules have been described from the genomes of the teleost fish model species zebrafish and Takifugu, but much research remains to characterize the full length sequences and pathogen specificities of individual TLR members in fish. While the majority of these pathogen receptors are conserved among vertebrate species with clear orthologues present in fish for most mammalian TLRs, several interesting differences are present in the TLR repertoire of teleost fish when compared to that of mammals. A soluble form of TLR5 has been reported from salmonid fish and Takifugu rubripes which is not present in mammals, and a large group of TLRs (arbitrarily numbered 19-23) was identified from teleost genomes with no easily discernible orthologues in mammals. To better understand these teleost adaptations to the TLR family, we have isolated, sequenced, and characterized the full-length cDNA and gene sequences of TLR5S, TLR20, and TLR21 from catfish as well as studied their expression pattern in tissues. We also mapped these genes to bacterial artificial chromosome (BAC) clones for genome analysis. While TLR5S appeared to be common in teleost fish, and TLR21 is common to birds, amphibians and fish, TLR20 has only been identified in zebrafish and catfish. Phylogenetic analysis of catfish TLR20 indicated that it is closely related to murine TLR11 and TLR12, two divergent TLRs about which little is known. All three genes appear to exist in catfish as single copy genes.     

Influence of Human Papillomavirus E7 Oncoprotein on Maturation and Function of Plasmacytoid Dendritic Cells In Vitro

The major difficulties of human papillomavirus(HPV) treatment are its persistence and recurrence. The HPV E7 oncoprotein-loaded dendritic cells have been evaluated as cellular vaccine in previous reports. Plasmacytoid dendritic cells(pDCs) play an essential role of connecting the innate immune response and adaptive immune response in the immune system. But they function in HPV E7 loading is unclear. To investigate whether loading of the HPV type 6b, 11, and 16 E7 proteins affects the activity of pDCs, human peripheral blood-separated pDCs and mouse bone marrow-derived pDCs were pulsed with the HPV E7 proteins. The expression levels of CD40, CD80, CD86, and MHC II were significantly upregulated in pDCs upon HPV 6b/11 E7 protein pulse. The secretion and gene expression of type I IFN and IL-6 were both upregulated by HPV 6b/11 E7 proteins, more significant than HPV 16 E7 protein. The expression of essential factors of TLR signaling pathway and JNK/p38 MAP kinase signaling pathway were all increased in HPV 6b/11 E7 proteins pulsed pDCs. Our results suggest that HPV E7 proteins could promote the differentiation and maturation of pDCs and activate the TLR and MAPK pathway to induce host innate immune response. It might be conducive to explore novel immunotherapy targeting HPV infection with HPV E7 loaded pDC.     

Regulation of group 2 innate lymphoid cells

Group 2 innate lymphoid cells (ILC2) exert critical roles in type 2 immune responses, epithelial repair at mucosal tissues and metabolic homeostasis. ILC2 rapidly provide large amounts of type 2 signature cytokines, thereby driving type 2 immune responses such as the defense against helminths. However, if deregulated, ILC2 facilitate tissue fibrosis and trigger unwanted type 2 immunopathologies such as allergies, asthma and atopic dermatitis. Therefore, ILC2 need to be tightly regulated and we are just beginning to understand which mediators activate or inhibit this rare but important cell population. In this review, we summarize current knowledge about positive and negative regulation of ILC2 and discuss its immunological consequences.     

Toll样受体调节树突状细胞中腺苷受体A2B亚型的表达及功能

树突状细胞（dendritic cell,DC）表面所表达的腺苷受体A2B亚型（ADOR-A2B）可促进DC对辅助性T淋巴细胞（T helper cell,Th）的激活,导致自身免疫性疾病的发生或加重. 本文旨在研究作为免疫反应的诱导分子Toll样受体（Toll-like receptors, TLRs）是否可调节ADOR-A2B在DC中的表达并籍此影响其功能. 体外诱导小鼠骨髓细胞分化为树突状细胞（BM-DC）,以多种TLRs的配体,Pam3csk4、polyIC、LPS及CpG进行干预. 提取细胞总RNA,real-time PCR测定ador-a2a、ador-a2b的表达;放射性配体结合实验测定BM-DC对3H 腺苷结合能力的变化.以LPS及选择性ADOR-A2B激动剂BAY 60-6583协同干预BM-DC,ELISA测定培养基中IL-1、IL-6及IL-12的含量. 以干预后的BM DC刺激naive CD4细胞,ELISA测定培养基中IL-17A、IFNγ的含量,荧光抗体染色及流式细胞仪分析检测CD4细胞的分化. 结果显示, TLR 4的配体LPS可显著提高BM DC中ador-a2b的表达及对腺苷的结合能力. BAY 60-6583与LPS相协同可刺激BM DC分泌多种致炎因子,并增加其诱导CD4细胞向Th1及Th17分化的能力. 由此可见,Toll样受体可上调ador-a2b在DC中的表达,并可籍此增加DC分泌促炎因子的能力及对CD4细胞的刺激作用.     

Differential mRNA expression of the avian-specific toll-like receptor 15 between heterophils from <Emphasis Type="Italic">Salmonella</Emphasis>-susceptible and -resistant chickens

Pattern recognition receptors (PRRs) are essential for recognition of conserved molecular constituents found on infectious microbes. Toll-like receptors (TLRs) are a critical component of the PRR repertoire and are coupled to downstream production of cytokines, chemokines, and antimicrobial peptides by TLR adaptor proteins. Our laboratory previously demonstrated a role for TLR function in the differential innate response of two lines of chickens to bacterial infections. The aim of the present study was to elucidate the role of TLRs in the differential innate responsiveness by measuring differences between lines A (resistant) and B (susceptible) in heterophil mRNA expression of selected TLRs (TLRs 4, 5, and 15) and TLR adaptor proteins (MyD88, TRIF, and TIRAP) in response to stimulation with Salmonella enterica serovar Enteritidis (SE). Although heterophils from both lines had significantly increased expression of TLR 15 mRNA in response to stimulation with SE, heterophils from chickens resistant to infection with SE had significantly greater levels of TLR 15 mRNA expression prior to and following stimulation with SE than heterophils from chickens susceptible to infection with SE. No significant differences were noted between lines in nonstimulated levels of TIRAP, but upon SE stimulation, line A birds had higher levels of expression than B birds. No significant differences were found in heterophils between lines for mRNA expression of TLRs 4 and 5 nor MyD88 and TRIF. These data indicate that differences in the gene expression of TLR 15 by heterophils likely accounts for some of the observed differences between the lines in their susceptibility to infection.     

TLR4mAb 对急性溃疡性结肠炎模型大鼠TLR4、TNF-alpha、IL-1beta 表达的影响

目的：探讨Toll 样受体4 单克隆抗体（TLR4mA）对溃疡性结肠炎（UC）模型大鼠肠TLR4、TNF-alpha、IL-1beta表达的影响及其对 UC 的可能作用机制。方法：30只SD 大鼠随机分为正常对照组、模型组、TLR4mAb 干预组。模型组及TLR4mAb 干预组采用三硝 基苯磺酸（TNBs）法造模,TLR4mAb 干预组给予TLR4mAb10 ug 腹腔注射,正常对照组及模型组以生理盐水代替TLR4mAb 腹 腔注射,剂量及频次相同,第8 天处死全部大鼠。分别进行疾病活动指数（DAI）评分及组织病理学（HPS）评分,采用免疫组化法检 测结肠组织TLR4 的原位表达,酶联免疫吸附试验（ELISA 法）检测血清肿瘤坏死因子-alpha（TNF-alpha）、白细胞介素-1beta（IL-1beta）的浓 度。结果：模型组DAI及HPS 评分均明显高于正常对照组（P<0.05）,TLR4mAb 干预组较模型组有所缓解（P<0.05）。TLR4、TNF- alpha、IL-1beta在模型组表达均明显高于正常对照组,差异有统计学意义（P<0.05）,在TLR4mAb 干预组的表达均明显低于模型组,差异 有统计学意义（P<0.05）。结论：急性溃疡性结肠炎的发病与异常免疫反应有关。TLR4mAb 可影响肠黏膜TLR4 及下游炎症因子 TNF-alpha、IL-1beta的表达,减轻急性溃疡性结肠炎大鼠的肠道炎症反应。     

Nuclear behavior during the formation of appressoria byAlternaria alternata

Nuclear behavior in the developmental process of appressoria inAlternaria alternata was investigated. In pregerminated conidia, approximately 94% of the conidial cells were uninucleate. The migration of a nucleus into an elongating germ tube from a germinating conidium was confirmed after 2h of incubation at 24±1°C in PDB. Peak frequencies of binucleate and trinucleate germ tubes were detected 1 and 2h after the peak frequency of uninucleate germ tubes, respectively. Four-and five-nucleate germ tubes did not show marked peak frrequencies. A marked peak frequency of the six-nucleate germ tubes occurred about 1 h after the peak frequency of the trinucleate germ tubes, suggesting that the nuclei in the trinucleate germ tubes each divided once within 1 h. The significance of early establishment of multinucleate appressorial cells in the colonization of host plants by pathogenicA. alternata was discussed.     

Hyphal anastomosis and complementary growth of fused cells inAlternaria alternata

Hyphal anastomosis and complementary growth of fused cells inAlternaria alternata were investigated. Sixty-four experimental isolates were divided into anastomosis-positive (A⁺) and anastomosis-negative (A⁻) groups based on their self-anastomosing ability. Nonself-anastomoses (interisolate) were readily distinguished from self-anastomoses (intraisolate) by using a mixed culture of conidia and hyphal fragments prepared from the respective isolates. Nonself-anastomosis occurred only between the A⁺ isolates irrespective of their pathogenicity and geographic origin. The breakdown of cell walls and the establishment of cytoplasmic continuity between fused cells were microscopically observed only in the self-anastomoses. The frequency of the nonself-anastomosis was, in general, lower than that of the self-anastomosis. For analysis of complementation between the fused cells, mutants doubly marked with auxotrophy and hygromycin B (Hyg) resistance were prepared from wild-type isolates. The identity of the mutants was confirmed by RAPD analysis using three arbitrary primers. Complementary growth occurred only between an A⁺ isolate and its mutant(s) on a minimal medium containing Hyg, demonstrating that the self-anastomoses resulted in perfect cell fusions and the nonself-anastomoses were contact or imperfect fusions.     

人IL-6受体胞外区真核表达载体的构建及体外表达

目的构建人IL-6受体（IL-6R）胞外区真核表达载体,检测其在体外培养细胞中的表达。方法利用PCR扩增IL-6R胞外区,克隆到pcDNA3．1（＋）中,用双酶切、测序鉴定。重组质粒通过脂质体转染HL-60细胞,用G418进行筛选,利用Western印迹检测IL-6R蛋白表达。结果PCR扩增出1218bp的目的片段,双酶切和测序结果显示重组质粒正确。Western印迹结果显示转染细胞能够表达目的蛋白。结论成功构建了人IL-6R胞外区真核表达载体,并且能够在真核细胞中表达。     

Molecular characterization of coding sequences and analysis of Toll-like receptor 3 mRNA expression in water buffalo (<Emphasis Type="Italic">Bubalus bubalis</Emphasis>) and nilgai (<Emphasis Type="Italic">Boselaphus tragocamelus</Emphasis>)

Toll-like receptor 3 (TLR3), an antiviral innate immunity receptor recognizes double-stranded RNA, preferably of viral origin and induces type I interferon production, which causes maturation of phagocytes and subsequent release of chemical mediators from phagocytes against some viral infections. The present study has characterized TLR3 complementary DNA (cDNA) in buffalo (Bubalus bubalis) and nilgai (Boselaphus tragocamelus). TLR3 coding sequences of both buffalo and nilgai were amplified from cultured dendritic cell cDNA and cloned in pGEMT-easy vector for characterization by restriction endonucleases and nucleotide sequencing. Sequence analysis reveals that 2,715-bp-long TLR3 open reading frame encoding 904 amino acids in buffalo as well as nilgai is similar to that of cattle. Buffalo TLR3 has 98.6 and 97.9% identity at nucleotide level with nilgai and cattle, respectively. Likewise, buffalo TLR3 amino acids share 96.7% identity with cattle and 97.8% with nilgai. Non-synonymous substitutions exceeding synonymous substitutions indicate evolution of this receptor through positive selection among these three ruminant species. Buffalo and nilgai appear to have diverged from a common ancestor in phylogenetic analysis. Predicted protein structures of buffalo and nilgai TLR3 from deduced amino acid sequences indicate that the buffalo and nilgai TLR3 ectodomain may be more efficient in ligand binding than that of cattle. Furthermore, TLR3 messenger RNA expression in tissues as quantified by real-time PCR was found higher in nilgai than buffalo. Electronic supplementary material Supplementary material is available in the online version of this article at and is accessible for authorized users.