Mycobacterial infection in TLR2 and TLR6 knockout mice

To investigate the role of TLR in the development of murine tuberculosis in vivo, TLR2 and TLR6 knockout (KO) mice were infected with Mycobacterium tuberculosis by placing them in the exposure chamber of an airborne infection apparatus. Both TLR2 and TLR6 KO mice survived until sacrifice at 12 weeks after infection. Infected TLR2 KO mice developed granulomatous pulmonary lesions with neutrophil infiltration, which were slightly larger in size than those in wild-type mice. Pulmonary levels of the mRNAs for inducible nitric oxide synthase (iNOS), TNF-alpha, TGF-beta, IL-1beta, and IL-2 were significantly lower, but levels of the mRNAs for IL-4 and IL-6 were higher, than in wild-type (WT) mice. No significant difference was recognized in cytokine mRNA expression between TLR2 KO and WT mice at 12 weeks after infection. DNA binding by NF-kappaB was low in TLR2 KO mice. On the other hand, TLR6 KO mice were not different from WT mice in terms of pulmonary histopathology, mRNA expression and CFU assay. Therefore, TLR2 does not play an essential role in the pathogenesis of murine tuberculosis, although it is important for defense against mycobacterial infection.     

Role of TLR1 and TLR6 in the host defense against disseminated candidiasis

Toll-like receptor-1 (TLR1) and TLR6 are receptors of the TLR family that form heterodimers with TLR2. The role of TLR1 and TLR6 for the recognition of the fungal pathogen Candida albicans was investigated. TLR1 is not involved in the recognition of C. albicans, and TLR1 knock-out (TLR1-/-) mice showed a normal susceptibility to disseminated candidiasis. In contrast, recognition of C. albicans by TLR6 modulated the balance between Th1 and Th2 cytokines, and TLR6 knock-out mice displayed a defective production of IL-10 and an increased IFN-gamma release. Production of the monocyte-derived cytokines tumor necrosis factor, IL-1, and IL-6 was normal in TLR6-/- mice, and this was accompanied by a normal susceptibility to disseminated candidiasis. In conclusion, TLR6 is involved in the recognition of C. albicans and modulates the Th1/Th2 cytokine balance, but this results in a mild phenotype with a normal susceptibility of TLR6-/- mice to Candida infection.     

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.     

Characterization of equine and other vertebrate TLR3, TLR7, and TLR8 genes

Toll-like receptors 3, 7, and 8 (TLR3, TLR7, and TLR8) were studied in the genomes of the domestic horse and several other mammals. The messenger RNA sequences and exon/intron structures of these TLR genes were determined. An equine bacterial artificial chromosome clone containing the TLR3 gene was assigned by fluorescent in situ hybridization to the horse chromosomal location ECA27q16–q17 and this map location was confirmed using an equine radiation hybrid panel. Direct sequencing revealed 13 single-nucleotide polymorphisms in the coding regions of the equine TLR 3, 7, and 8 genes. Of these polymorphisms, 12 were not previously reported. The allelic frequency was estimated for each single-nucleotide polymorphism from genotyping data obtained for 154 animals from five horse breeds. Some of these frequencies varied significantly among different horse breeds. Domain architecture predictions for the three equine TLR protein sequences revealed several conserved regions within the variable leucine-rich repeats between the corresponding horse and cattle TLR proteins. A phylogenetic analysis did not indicate that any significant exchanges had occurred between paralogous TLR7 and TLR8 genes in 20 vertebrate species analyzed. Electronic supplementary material  The online version of this article (doi:) contains supplementary material, which is available to authorized users.     

TLR2, TLR3, and TLR4 activation specifically alters the oxidative status of intestinal epithelial cells

Intestinal inflammatory diseases are the result of multiple processes, including mucosal oxidative stress and perturbed homeostasis between commensal bacteria and mucosal immunity. Toll-like receptors (TLRs) recognize molecular-associated microorganisms' patterns and trigger innate immunity responses contributing to intestinal homeostasis and inflammatory responses. However, TLRs effects on redox balance in intestinal mucosa remain unknown. Therefore, the present study analyzes the effect of TLR2, TLR3, and TLR4 on both oxidative damage of lipids and proteins, and the activity of antioxidant enzymes in enterocyte-like Caco-2 cells. The results show that the activation of these TLRs increased lipid and protein oxidation levels; however, the effect on the antioxidant enzymes activity is different depending on the TLR activated. These results suggest that the activation of TLR2, TLR3, and TLR4 might affect intestinal inflammation by not only their inherent innate immunity responses, but also their pro-oxidative effects on intestinal epithelial cells.     

Keratinocyte TLR2 and TLR7 contribute to chronic itch through pruritic cytokines and chemokines in mice

Although neuronal Toll-like receptors (TLRs) (e.g., TLR2, TLR3, and TLR7) have been implicated in itch sensation, the roles of keratinocyte TLRs in chronic itch are elusive. Herein, we evaluated the roles of keratinocyte TLR2 and TLR7 in chronic itch under dry skin and psoriasis conditions, which was induced by either acetone-ether-water treatment or 5% imiquimod cream in mice, respectively. We found that TLR2 and TLR7 signaling were significantly upregulated in dry skin and psoriatic skin in mice. Chronic itch and epidermal hyperplasia induced by dry skin or psoriasis were comparably reduced in TLR2 and TLR7 knockout mice. In the dry skin model, the enhanced messenger RNA (mRNA) expression levels of pruritic CXCL1/2, IL-31, IL-33, ST2, IL-6, IL-17A, TNF-α, and IFN-γ were inhibited in TLR2^−/− mice, while CXCL2, IL-31, and IL-6 were inhibited in TLR7^−/− mice. In psoriasis model, the enhanced mRNA expression levels of pruritic CXCL1/2, IL-31, IL-33, ST2, IL-6, and TNF-α were inhibited in TLR2^−/− mice, while CXCL1/2, IL-31, IL-33, ST2, IL-6, IL-17A, and TNF-α were inhibited in TLR7^−/− mice. Incubation with Staphylococcus aureus (S. aureus) peptidoglycan (PGN-SA) (a TLR2 agonist), imiquimod (a TLR7 agonist), and miR142-3p (a putative TLR7 agonist) were sufficient to upregulate the expression of pruritic cytokines or chemokines in cultured keratinocyte HaCaT cells. Finally, pharmacological blockade of C-X-C Motif Chemokine Receptor 1/2 and high mobility group box protein 1 dose-dependently attenuated acute and chronic itch in mice. Together, these results indicate that keratinocyte TLR2 and TLR7 signaling pathways are distinctly involved in the pathogenesis of chronic itch.     

TLR4 and TLR9 polymorphism: Probable role in susceptibility among the population of Bihar for Indian visceral leishmaniasis

Genetic variations in the host TLRs genes play an important role in susceptibility and/or resistance to visceral leishmaniasis by altering the host-pathogen interaction. In this study, we investigated the association between polymorphisms of TLR4 (Asp299Gly, Thr399Ile) and TLR-9 (T-1237C), with susceptibility to visceral leishmaniasis. A bi-directional PCR amplification of specific alleles technique was used to characterize the distribution of TLR4 (Asp299Gly and Thr399Ile) and TLR9 (T-1237C) polymorphisms. A total of 60 samples were randomly selected from confirmed visceral leishmaniasis patients and 24 endemic healthy volunteers. The samples were genotyped and allele frequencies were determined. We observed that TLR4 Asp299Gly and Thr399Ile genotypes were more frequent in visceral leishmaniasis patients (10% and 15% respectively) compared to controls (4.2% and 8.3% respectively). However, the differences were not significant in TLR4 Asp299Gly and Thr399Ile alleles and genotypes. In the case of TLR9, we observed the frequency of T1237C genotype was higher in visceral leishmaniasis patients (43.3%) than in healthy controls (33.3%). Statistically significant differences were observed in TLR9 T1237C alleles and genotypes. We concluded that TLR9 T1237C, but not TLR4, gene polymorphisms can be regarded as contributors to visceral leishmaniasis susceptibility among the Indian population of Bihar state.     

Toll-like receptors and fungal infections: the role of TLR2, TLR4 and MyD88 in paracoccidioidomycosis

The aim of this minireview is to present a concise view of the most important pattern recognition receptors used by the innate immune system to sense and control pathogen growth into host tissues. A brief review of the role of Toll-like receptors (TLRs) in fungal infections followed by some recent results on the function of TLR4, TLR2 and the MyD88 adaptor molecule in the pathogenesis of paracoccidioidomycosis are presented.     

Role of TLR2- and TLR4-mediated signaling in Mycobacterium tuberculosis-induced macrophage death

Infection of macrophages with Mycobacterium tuberculosis (Mtb) induces cell death by apoptosis or necrosis. TLRs 2 and 4 recognition of mycobacterial ligands has been independently associated to apoptosis induction. To try to understand the particular contribution of these receptors to apoptotic or necrotic signaling upon infection with live Mtb H37Rv, we used macrophage lines derived from wild-type or TLR2-, TLR4-, and MyD88-deficient mouse strains. Mtb-infection triggered apoptosis depending on a TLR2/TLR4/MyD88/p38/ERK/PI-3K/NF-kB pathway; however, necrosis was favored in absence of TLR4 signaling independently of p38, ERK1/2, PI-3K or NF-κB activity. In conclusion, our results indicate that cooperation between TLR2- and TLR4-dependent mediated signals play a critical role in macrophage apoptosis induced by Mtb and the TLR4-mediated signaling has important role in the maintenance of the balance between apoptotic vs. necrotic cell death induced by macrophage infection with Mtb.     

Ligation of TLR2 and TLR4 on murine bone marrow-derived mesenchymal stem cells triggers differential effects on their immunosuppressive activity

Mesenchymal stem cells (MSCs) have potent regulatory effects on immune and inflammatory responses. Recently the findings of functional TLR expression on MSC implicates these receptors in the function established for MSCs. Here we specially investigated the effects of TLR2, 4 ligation in mice MSC on migration, modulation of allogeneic mixed lymphocytes reaction (allo-MLR) and inducing Treg cells. We demonstrated that ligation of TLR2, but not TLR4, could significantly inhibit migration of MSC, impair MSC-mediated immunosuppression on allo-MLR, and reduce MSC-mediated expansion of CD4+CD25+Foxp3+ regulatory T cells. Compared with TLR4 activated MSCs and non-TLR activated MSC, TLR2 activation induced a relatively lower level of CXCL-10 mRNA and protein expressions which has been elucidated to act in concert with other soluble factor in MSC-mediated immunomodulation. These data indicate that TLR2 and TLR4 ligation had different effects on immunomodulatory capability of murine BMSCs, which should be considered in their use for treating inflammatory diseases.     

TLR9的特性及其介导的TLR9/CpG-DNA免疫信号通路

TLRs在天然免疫应答中发挥着重要作用,构成了机体抗感染的第一道防线,是沟通天然免疫和获得性免疫的桥梁。其中TLR9已经被证实能够识别细菌DNA中免疫刺激序列CpG,从而激活哺乳动物细胞的天然免疫机制,这一发现具有重要的生物学意义与应用价值。它不仅进一步推进了外源DNA激活哺乳动物抗感染天然免疫的进一步研究,更为CpG-DNA应用于抗感染、肿瘤和免疫缺陷疾病等的治疗提供新的思路,为改进DNA疫苗效果提供非常有益的帮助。     

阿加曲班抗凝对连续血液净化患儿凝血功能及单核细胞TLR2rMnX、TLR4rMnX表达水平的影响

目的:探讨阿加曲班抗凝治疗连续血液净化患儿的疗效及对凝血功能及单核细胞TLR2rMnX、TLR4rMnX表达水平的影响。方法:选取从2017年3月至2018年10月于我院儿童重症医学科接受连续血液净化治疗的患儿86例进行研究,将其按照随机抽签法分成研究组与对照组。对照组予以普通肝素抗凝治疗,研究组予以阿加曲班抗凝治疗。分别比较两组的28 d死亡率、治疗前后凝血功能血小板计数(PLT)、活化部分凝血活酶时间(APTT)、纤维蛋白原(FIB)和单核细胞TLR2rMnX、TLR4rMnX表达水平、治疗过程中滤器与管路凝血程度、使用寿命以及穿刺部位出血情况的差异。结果:研究组28d死亡率(2.33%)比对照组(9.30%)低,但差异无统计学意义(x2=0.849,P=0.357)。治疗后研究组APTT(31.61±1.26)s、FIB水平(6.61±1.80)g/L较对照组的(27.92±1.44)s、(5.58±1.72)g/L明显更高(t=12.646、2.713,P=0.000、0.008)。研究组治疗过程中滤器与管路凝血程度0级人数占比(93.02%)相比对照组(76.74%)较高,而Ⅱ级人数占比(0.00%)相比对照组(9.30%)较低(x2=4.440、4.195,P=0.035,0.041)。研究组穿刺部位出血等级为0级人数占比(93.02%)高于对照组(74.42%),而Ⅱ级人数占比(0.00%)低于对照组(9.30%)(x2=5.460,4.195;P=0.019,0.041)。研究组管路、滤器使用寿命(18.73±7.74)h、(20.84±8.01)h相比对照组的(14.57±6.88)h、(16.20±7.15)h均较长(t=2.634、2.834,P=0.010,0.006)。治疗后研究组单核细胞TLR2rMnX、TLR4rMnX表达水平为(4.72±1.39)、(3.22±0.82),均低于对照组的(8.30±1.44)、(5.11±0.94)(t=11.729、9.936,P=0.000、0.000)。结论:阿加曲班抗凝应用于连续血液净化患儿中的疗效相比普通肝素抗凝更佳,且有利于改善凝血功能和单核细胞TLR2rMnX、TLR4rMnX表达水平,能够降低滤器或管路凝血发生风险,同时有效降低穿刺部位出血风险,增加管路、滤器使用寿命。     

Biased distribution of single nucleotide polymorphisms (SNPs) in porcine Toll-like receptor 1 (TLR1), TLR2, TLR4, TLR5, and TLR6 genes

Toll-like receptors (TLRs) recognize various microbial components and induce immune responses. Polymorphisms in TLRs may influence their recognition of pathogen-derived molecules; swine TLRs are predicted to be associated with responses to infectious diseases such as pneumonia. In this study, we searched for single nucleotide polymorphisms (SNPs) in the coding sequences of porcine TLR1, TLR2, TLR4, TLR5, and TLR6 genes in 96 pigs from 11 breeds and elucidated 21, 11, 7, 13, and 11 SNPs, respectively, which caused amino acid substitutions in the respective TLRs. Distribution of these nonsynonymous SNPs was biased; many were located in the leucine-rich repeats, particularly in TLR1. These data demonstrated that the heterogeneity of TLR genes was preserved in various porcine breeds despite intensive breeding that was carried out for livestock improvement. It suggests that the heterogeneity in TLR genes is advantageous in increasing the possibility of survival in porcine populations.Electronic SupplementaryMaterial Supplementary material is available for this article at     

猪Toll样受体4基因SNPs功能分析

Toll样受体4(Toll-like receptor 4,TLR4)在机体的免疫反应中发挥重要作用,该基因突变会影响受体的信号转导能力和机体的疾病抗性/易感性。文章在前期工作的基础上,进一步分析c.611 T>A(p.Leu204His)、c.1027C>A(p.Gln343Lys)和c.1605 G>T(p.Leu535Phe)3个错义突变对猪TLR4功能的影响。利用RT-PCR方法克隆猪TLR4基因全长编码区并引入定点突变;利用真核表达、双荧光素酶报告系统和Western blotting方法在瞬时转染的PK-15细胞内研究3个单核苷酸多态(Single nucleotide polymorphisms,SNPs)对猪TLR4配体识别和信号转导能力的影响;同时,利用创造酶切位点PCR-RFLP方法分析对TLR4活性有显著影响的点突变在民猪、大白、长白和中国东北野猪4个群体中的分布。结果,成功获得了民猪TLR4基因的全长编码区和3个单碱基变异体,构建了不同等位基因的真核表达载体,在PK-15细胞内确定了c.1605 G>T变异导致TLR4向下游传递信号的能力显著降低(P<0.01),该SNP只存在于民猪和野猪中且频率较高。猪TLR4基因c.1605 G>T变异影响Toll样受体的信号传递,可能和机体的疾病抗性/易感性有关。     

Discovery of potent,orally bioavailable in vivo efficacious antagonists of the TLR7/8 pathway

Antagonism of the Toll-like receptors (TLRs) 7 and TLR8 has been hypothesized to be beneficial to patients suffering from autoimmune conditions. A phenotypic screen for small molecule antagonists of TLR7/8 was carried out in a murine P4H1 cell line. Compound 1 was identified as a hit that showed antagonistic activity on TLR7 and TLR8 but not TLR9, as shown on human peripheral blood mononuclear cells (hPBMCs). It was functionally cross reactive with mouse TLR7 but lacked oral exposure and had only modest potency. Chemical optimization resulted in 2, which showed in vivo efficacy following intraperitoneal administration. Further optimization resulted in 8 which had excellent in vitro activity, exposure and in vivo activity. Additional work to improve physical properties resulted in 15, an advanced lead that had favorable in vitro and exposure properties. It was further demonstrated that activity of the series tracked with binding to the extracellular domain of TLR7 implicating that the target of this series are endosomal TLRs rather than downstream signaling pathways.     

乳酸杆菌制剂对应用抗生素大鼠体内TLR2 mRNA转录水平及相关因素影响的研究

目的动态观察乳酸杆菌制剂对应用抗生素大鼠肠道菌群结构和TLR2 mRNA转录水平的影响。方法采用细菌培养法定量检测肠道双歧杆菌、乳酸杆菌、肠杆菌和肠球菌;利用反转录聚合酶链反应技术测定大鼠肠黏膜组织、肠系膜淋巴结、肝脏和脾脏细胞TLR2 mRNA转录水平。结果应用抗生素可致肠道菌群失调和TLR2 mRNA转录水平的早期受抑制。乳酸杆菌制剂干预可迅速提高肠道乳酸杆菌数量,及早扶正肠道菌群结构,减轻由于应用抗生素引起的Toll样受体mRNA转录受抑程度。结论乳酸杆菌制剂早期干预可及早扶正肠道菌群结构,减轻TLR2 mRNA转录水平受抑制程度,为临床合理应用抗生素,早期益生菌干预提供理论依据。     

TLR4 mutation and HSP60-induced cell death in adult mouse cardiac myocytes

Extracellular (ex) HSP60 is increasingly recognized as an agent of cell injury. Previously, we reported that low endotoxin exHSP60 causes cardiac myocyte apoptosis. Our findings supported a role for Toll-like receptor (TLR) 4 in HSP60 mediated apoptosis. To further investigate the involvement of TLR4 in cardiac injury, we studied adult cardiac myocytes from C3H/HeJ (HeJ) mice, which have a mutant, nonfunctional TLR4, and compared the results with parallel studies using wild-type (WT) mice. Nuclear factor κB (NFκB) activation is an early step downstream of TLR4. NFκB was activated 1 h after treatment with HSP60 in WT, but not HeJ mouse myocytes. ExHSP60 caused apoptosis in cardiac myocytes from WT mice, but not in myocytes from the HeJ mutants. To further elucidate the importance of exHSP60 in cardiac myocyte injury, both WT and HeJ mutant isolated mouse adult cardiac myocytes were exposed to hypoxia/reoxygenation. Anti-HSP60 antibody treatment reduced apoptosis in the WT group, but had no effect on the HeJ mutant myocytes. Unexpectedly, necrosis was also decreased in the HeJ mutants. Necrosis after hypoxia/reoxygenation in WT cardiac myocytes was mediated in part by TLR2 and TLR4 through rapid activation of PKCα, followed by increased expression of Nox2, and this was ameliorated by blocking antibodies to TLR2/4. These studies provide further evidence that TLR4 mediates exHSP60-associated apoptosis and that exHSP60 has an important role in cardiac myocyte injury, both apoptotic and necrotic.     

TRIF Modulates TLR5-dependent Responses by Inducing Proteolytic Degradation of TLR5

Proteolytic modification of pattern recognition receptors and their signaling adaptor molecules has recently emerged as an essential cellular event to regulate immune and inflammatory responses. Here we show that the TIR domain containing adaptor-inducing interferon-β (TRIF), an adaptor molecule mediating TLR3 signaling and MyD88-independent signaling of TLR4, plays an inhibitory role in TLR5-elicited responses by inducing proteolytic degradation of TLR5. TRIF overexpression in human embryonic kidney (HEK293) and human colonic epithelial (NCM460) cells abolishes the cellular protein level of TLR5, whereas it does not alter TLR5 mRNA level. Thus, TRIF overexpression dramatically suppresses flagellin/TLR5-deriven NFκB activation in NCM460 cells. TRIF-induced TLR5 protein degradation is completely inhibited in the presence of pan-caspase inhibitor (benzyloxycarbonyl-Val-Ala-Asp-fluoromethyl ketone), whereas several specific inhibitors against cathepsin B, reactive oxygen species, or ubiquitin-mediated proteasome activity fail to suppress this degradation. These results indicate that TRIF-induced caspase activity causes TLR5 protein degradation. In addition, we identify that the C terminus of TRIF and extracellular domain of TLR5 are required for TRIF-induced TLR5 degradation. Furthermore, TRIF-induced proteolytic degradation is extended to TLR3, TLR6, TLR7, TLR8, TLR9, and TLR10, whereas the cellular level of TLR1, TLR2, and TLR4 is not affected by TRIF overexpression. These results suggest that, in addition to mediating TLR3- or TLR4-induced signaling as an adaptor molecule, TRIF can participate in proteolytic modification of certain members of TLRs to modulate the functionality of TLRs at post-translational level. Collectively, our findings propose a potential inhibitory role of TRIF at least in regulating host-microbial communication via TLR5 in colonic epithelial cells.