Toll样受体对T细胞功能及代谢的影响

Toll样受体（Toll-like receptors, TLRs）在先天免疫系统中广泛表达,可通过促进抗原提呈细胞（antigen presenting cells,APC）共刺激分子的表达从而间接导致T细胞活化。然而研究发现,TLR也可在T细胞中表达,并可在没有APC的情况下直接调节T细胞的代谢与功能。本文综述了TLR信号对不同T细胞亚群代谢和免疫功能的直接调控作用,为T细胞介导的癌症及自身免疫病等疾病的预防和治疗提供了新的思路。     

人Toll样受体靶向药物研究进展

Toll样受体(TLR)是一类模式识别受体,通过多种信号传递改善免疫系统功能,活化NF-κB信号通路,调节TNF-α、ILs和IFN-α等多种细胞因子分泌,在天然免疫系统中发挥重要作用,在免疫学及药物研究领域受到广泛关注。TLR种类众多,配体广泛,可以作为治疗微生物感染、炎症、自身免疫性疾病、 肿瘤及放射损伤等疾病的药物靶点,是免疫治疗的重要切入点。研究人员已经对数十种TLR靶向药物进行了研究。对TLR结构特征、信号传递以及靶向药物的特点和研究现状进行综述,分析其在免疫治疗方面的优劣势,也为下一步药物研究提供一定的理论依据。     

Role of toll-like receptors gene polymorphism in renal transplantation

Abstract

Toll-like receptors (TLRs), evolutionarily conserved innate, are expressed in a wide variety of tissues and cell types, and they play key role in the innate immune system. Gene mutation is an important factor associated with some diseases risk and gene polymorphism of TLRs can influence their function to take part in the physiological process in the body. Chronic kidney disease causes high morbidity and mortality, and renal transplantation provides the optimal treatment for people with end-stage renal disease. Innate immune takes a most important role in renal transplantation. There are some studies reporting that TLRs gene polymorphism takes an important role in the renal transplantation. However, no review summed up the role of TLRs gene polymorphism in renal transplantation. The literatures were searched extensively and this review was performed to review the role of TLRs gene polymorphism in renal transplantation.     

How Location Governs Toll-Like Receptor Signaling

Toll-like receptors (TLRs) are a family of innate immune system receptors responsible for recognizing conserved pathogen-associated molecular patterns (PAMPs). PAMP binding to TLRs initiates intracellular signaling pathways that lead to the upregulation of a variety of costimulatory molecules and the synthesis and secretion of various cytokines and interferons by cells of the innate immune system. TLR-induced innate immune responses are a prerequisite for the generation of most adaptive immune responses, and in the case of B cells, TLRs directly regulate signaling from the antigen-specific B-cell receptor. The outcome of TLR signaling is determined, in part, by the cells in which they are expressed and by the selective use of signaling adaptors. Recent studies suggest that, in addition, both the ligand recognition by TLRs and the functional outcome of ligand binding are governed by the subcellular location of the TLRs and their signaling adaptors. In this review we describe what is known about the intracellular trafficking and compartmentalization of TLRs in innate system's dendritic cells and macrophages and in adaptive system's B cells, highlighting how location regulates TLR function.     

TLR8: An Innate Immune Receptor in Brain,Neurons and Axons

Toll-like receptors (TLRs) play essential roles in generating innate immune responses, and are evolutionarily conserved across species. In mammals, TLRs specifically recognize the conserved microbial structural motifs referred to as pathogen-associated molecular patterns (PAMPs). Ligand recognition by TLRs activates signaling cascades that culminate in proinflammatory cytokine production and eventual elimination of invading pathogens. Although TLRs in mammals are expressed predominantly in the immune system, certain TLRs with poorly characterized function are also found in neurons. We recently profiled TLR8 expression during mouse brain development and established its localization in neurons and axons. We uncovered a novel role for TLR8 as a suppressor of neurite outgrowth as well as an inducer of neuronal apoptosis, and found that TLR8 functions in neurons through an NF-κB-independent mechanism. These findings add a new layer of complexity for TLR signaling, and expand the realm of mammalian TLR function to the central nervous system (CNS) beyond the originally discovered immune context. Herein, we complement our earlier report with additional data, discuss their biological and mechanistic implications in CNS developmental and pathological processes, and thus further our perspective on TLR signaling and potential physiological roles in mammals.     

Toll样受体识别机制及其生物学意义

Toll样受体介导的信号转导通路在对抗外来病原体的天然免疫应答中起重要作用。Toll样受体是一个天然模板识别受体家族,能识别固有性模板(微生物和哺乳动物所共有的病原相联的分子模板PAMPs)。Toll样受体通过巨噬细胞和其他免疫细胞来识别,其中TLR4识别内毒素、TLR2识别肽聚糖、TLR9识别细菌DNA、TLR5识别鞭毛蛋白、TLR3识别双链RNA等。本探讨了多种Toll受体家族成员在动物体内识别机理及功能,概述了其应用研究进展。     

The Toll-like receptors: analysis by forward genetic methods

Many genes, and conceivably most genes, are constitutively expressed yet have conditional functions. Their products are utilized only under special circumstances, and enforce homeostatic regulation. Mutations do not disclose the function of such genes unless the proper conditions are applied. The genes that encode the Toll-like receptors (TLRs) fall into this category. The TLRs represent the principal sensors of infection in mammals. Absent infection, mammals have little need for the TLRs; they are essential only when microbes gain access to the interior milieu of the host. The function of the TLRs in mammals was first disclosed by a spontaneous mutation in a locus called Lps, when it was shown by positional cloning to be identical to Tlr4. Random germline mutagenesis has since permitted an estimate of the total number of proteins required for TLR signaling to the level of tumor necrosis factor (TNF) synthesis and activity, and has also shown that these sensors are extremely broad in their ability to detect microbes. Ultimately, the TLRs are responsible for most infection-related phenomena, both good and bad. These include the development of fever, shock, and tissue injury, but also the activation of innate and adaptive effector mechanisms that lead to the elimination of microbes.     

TGF-alpha regulates TLR expression and function on epidermal keratinocytes

The expression of TLRs on epithelial cells provides a first line of defense against invading pathogens. We investigated the regulated expression and function of TLR5 and TLR9 on human keratinocytes, because we found by immunohistochemistry that these TLRs are expressed in distinct layers of the epidermis. We found that TGF-alpha, a growth and differentiation factor that is present during wound healing and in psoriasis, increased the expression of both TLR5 and TLR9 on keratinocytes. In addition, TGF-alpha regulated the function of TLR5 and TLR9, because activation with their respective ligands enhanced the production of IL-8 and human beta-defensins. These findings provide evidence that TGF-alpha up-regulates TLR expression and function, augmenting host defense mechanisms at epithelial surfaces.     

Lung cancer and Toll-like receptors

Lung carcinoma is one of the leading causes of death worldwide. It is a non-immunogenic cancer, resistant to immune surveillance. Toll-like receptors (TLRs) connect the innate to the adaptive immune system. Given that cancerous cells evade the immune system, the activation of TLRs could represent a potential target for cancer therapy. The induction of Th1-like and cytotoxic immunity by TLR signalling could lead to tumour cell death, resulting in tumour regression or arrest. However, basic research and clinical trials revealed that the activation of specific TLRs, such as TLR2, TLR4 and TLR9, do not have any anti-tumour activity in lung carcinoma. Increasing evidence suggests that TLRs are important regulators of tumour biology; however, little is known about their function in lung cancer. Thus, in order to develop new therapeutic approaches, further studies are needed to understand the connection between TLRs and lung cancer progression. This review focuses on the potential mechanisms by which TLR ligands can facilitate or not lung cancer and lung metastases establishment/progression.     

Role of toll-like receptors in tissue repair and tumorigenesis

Toll-like receptors (TLRs) play a critical role in host defense from microbial infection. TLRs recognize conserved molecular structures produced by microorganisms and induce activation of innate and adaptive immune responses. The inflammatory responses induced by TLRs play an important role TLRs not only in host defense from infection, but also in tissue repair and regeneration. This latter function of TLRs can also contribute to tumorigenesis. Here we review recent progress in understanding the role of TLRs in cancer development.     

野猪Toll 样受体基因的结构和功能鉴定

Toll样受体(Toll-like receptors,TLRs)是介导天然免疫和获得性免疫的病原模式识别受体(Pattern recognition receptor,PRRs),能识别表达在病原微生物上高度保守的病原相关分子模式(Pathogen associated molecular patterns,PAMPs),并通过一定的信号转导途径引起核内相关基因的表达,启动和调节机体的免疫反应。     

Toll-like receptors in the gonads and reproductive tract: emerging roles in reproductive physiology and pathology

Interactions between the immune system and reproductive system have important consequences for fertility and reproductive health in general. There is increasing evidence that many of the interactions between the immune and reproductive systems involve the Toll-like receptors (TLRs). While there is no doubt that TLRs are important in providing protection against infection in the reproductive tract, there is increasing evidence for the involvement of TLRs in more basic pathology and physiology of reproduction. In the female, TLRs have been implicated in critical aspects of ovarian, endometrial and placental function, as well as in ovarian cancer, pelvic inflammatory disease, intrauterine growth restriction, pre-eclampsia and preterm birth. In the male, TLRs appear to play a role in the control of testicular steroidogenesis and spermatogenesis in disease and, potentially, during normal function, as well. Recent studies also have begun to highlight the role of various TLRs in the aetiology of prostatitis and prostatic cancer. Given the nascent state of knowledge concerning this important area, it is clear that more studies are needed, which should provide valuable new insights into the biology of the TLRs and reproductive function in general.     

Toll样受体直接调节Treg细胞抑制功能的研究进展

Treg细胞具有维持自身免疫耐受,调节免疫应答的作用。Toll样受体（Toll-like receptors,TLRs）家族可识别病原相关分子模式或内源性配体,启动固有和适应性免疫应答。Treg细胞选择性表达某些TLRs,TLRs活化可能直接增强或降低Treg的免疫抑制功能,这种调节可以影响对感染和肿瘤的免疫监视、移植免疫排斥和自身免疫病发生的进程。因此,了解两者的关系对发现新的治疗靶点和对策有重要的作用。简要综述TLRs对Treg细胞抑制功能直接调节作用的研究进展。     

Toll样受体(TLRs)的信号转导与免疫调节

Toll样受体(Toll-like receptors,TLRs)是进化中比较保守的一个受体家族,至少包括10个成员.TLRs能特异地识别病原相关的分子模式(PAMPs),不仅在激活天然免疫中发挥重要的作用,而且还调节获得性免疫,是连接天然免疫和获得性免疫的桥梁.近年来,TLRs信号转导的研究,特别是在负调控研究领域,进展非常迅速.对TLRs信号通路新进展以及TLRs在抗感染免疫中的作用进行了综述.     

B细胞Toll样受体的表达和功能

Toll样受体(TLRs)广泛表达于固有免疫和获得性免疫系统.它们通过识别内外源性致病原含有的保守病原体相关模式分子,启动宿主防卫反应.TLRs也是沟通固有免疫和获得性免疫反应,尤其是T细胞介导的细胞免疫反应的重要桥梁.新近研究表明,几乎所有亚型TLR均表达在B淋巴细胞,不仅参与B细胞增殖、成熟和功能调节,而且在系统性红斑狼疮和慢性淋巴细胞白血病等疾病发生过程中发挥重要调节作用.以TLRs为靶点,调节B细胞介导的免疫反应,可能成为具有崭新应用前景的免疫治疗途径和方法.     

Regulation of dendritic cell function through Toll-like receptors

Higher animals establish host defense by orchestrating innate and adaptive immunity. This is mediated by professional antigen presenting cells, i.e. dendritic cells (DCs). DCs can incorporate pathogens, produce a variety of cytokines, maturate, and present pathogen-derived peptides to T cells, thereby inducing T cell activation and differentiation. These responses are triggered by microbial recognition through type I transmembrane proteins, Toll-like receptors (TLRs) on DCs. TLRs consist of ten members and each TLR is involved in recognizing a variety of microorganism-derived molecular structures. TLR ligands include cell wall components, proteins, nucleic acids, and synthetic chemical compounds, all of which can activate DCs as immune adjuvants. Each TLR can activate DCs in a similar, but distinct manner. For example, TLRs can be divided into subgroups according to their type I interferon (IFN) inducing ability. TLR2 cannot induce IFN-alpha or IFN-beta, but TLR4 can lead to IFN-beta production. Meanwhile, TLR3, TLR7, and TLR9 can induce both IFN-alpha and IFN-beta. Recent evidences suggest that cytoplamic adapters for TLRs are especially crucial for this functional heterogeneity. Clarifying how DC function is regulated by TLRs should provide us with critical information for manipulating the host defense against a variety of diseases.     

Role of toll-like receptors in lung cancer

Abstract

Lung cancer is a leading cause of death world-wide and the long-term survival rate for patients with lung cancer is one of the lowest for any cancer. Toll-like receptors (TLRs), evolutionarily conserved innate, are expressed in a wide variety of tissues and cell types, and they play key role in the innate immune system. TLRs have been found to be expressed by some kinds of tumor cells. However, what is the biological function of TLRs on tumor cells and whether human lung cancer cells can express TLRs remain to be fully understood. This review was performed to sum up the role of TLRs in lung cancer.     

Endogenous toll‐like receptor ligands and their biological significance

Toll-like receptors (TLRs), a family of pattern recognition receptors, recognize and respond to conserved components of microbes and play a crucial role in both innate and adaptive immunity. In addition to binding exogenous ligands derived from pathogens, TLRs interact with endogenous molecules released from damaged tissues or dead cells and regulate many sterile inflammation processes. Putative endogenous TLR ligands include proteins and peptides, polysaccharides and proteoglycan, nucleic acids and phospholipids, which are cellular components, particularly extracellular matrix degradation products. Accumulating evidence demonstrates that endogenous ligand-mediated TLR signalling is involved in pathological conditions such as tissue injury, repair and regeneration; autoimmune diseases and tumorigenesis. The ability of TLRs to recognize endogenous stimulators appears to be essential to their function in regulating non-infectious inflammation. In this review, we summarize current knowledge of endogenous TLR ligands and discuss the biological significance of TLR signalling triggered by endogenous ligands in several sterile inflammation conditions.     

Structures and recognition modes of toll‐like receptors

Toll‐like receptors (TLRs) recognize common structural patterns in diverse microbial molecules and play central roles in the innate immune response. The structures of extracellular domains and their ligand complexes of several TLRs have been determined by X‐ray crystallography. Here, we discuss recent advances on structures and activation mechanisms of TLRs. Despite the differences in interaction areas of ligand with TLRs, the extracellular domains of TLRs all adopt horseshoe‐shaped structures and the overall M‐shape of the TLR–ligand complexes is strikingly similar. The structural rearrangement information of TLRs sheds new light on their ligand‐recognition and ‐activation mechanisms. Proteins 2016; 85:3–9. © 2016 Wiley Periodicals, Inc.