Toll-like receptor

Toll-like receptor

Toll-like receptors (TLRs) are a class of single membrane-spanning non-catalytic receptors that recognize structurally conserved molecules derived from microbes once they have breached physical barriers such as the skin or intestinal tract mucosa, and activate immune cell responses. They are believed to play a key role in the innate immune system.

They receive their name from their similarity to the Toll gene identified in Drosophila in 1985 by Christiane Nüsslein-Volhard.cite journal |author=Hansson GK, Edfeldt K |title=Toll to be paid at the gateway to the vessel wall |journal=Arterioscler. Thromb. Vasc. Biol. |volume=25 |issue=6 |pages=1085–7 |year=2005 |pmid=15923538 |doi=10.1161/01.ATV.0000168894.43759.47 |url=http://atvb.ahajournals.org/cgi/content/full/25/6/1085]

Diversity

TLRs are a type of "pattern recognition receptor" (PRR) and recognize molecules that are broadly shared by pathogens but distinguishable from host molecules, collectively referred to as pathogen-associated molecular patterns (PAMPs). They form a receptor superfamily with the Interleukin-1 receptors (Interleukin-1 Receptor/Toll-Like Receptor Superfamily) that all have in common a so called TIR (Toll-IL-1 receptor) domain.

Three subgroups of TIR domains exist. Proteins with subgroup 1 TIR domains are receptors for interleukins that are produced by macrophages, monocytes and dendritic cells and all have extracellular Immunoglobulin (Ig) domains. Proteins with subgroup 2 TIR domains are classical TLRs, and bind directly or indirectly to molecules of microbial origin. A third subgroup of proteins containing TIR domains consists of adaptor proteins that are exclusively cytosolic and mediate signaling from proteins of subgroups 1 and 2.

TLRs are present in vertebrates, as well as in invertebrates. Molecular building blocks of the TLRs are represented in bacteria and in plants, and in the latter kingdom, are well known to be required for host defence against infection. The TLRs thus appear to be one of the most ancient, conserved components of the immune system.

Discovery

When microbes were first recognized as the cause of infectious diseases, it was immediately clear that multicellular organisms must be capable of recognizing them when infected, and hence, capable of recognizing molecules unique to microbes. A large body of literature, spanning most of the last century, attests to the search for the key molecules and their receptors. More than 100 years ago, Richard Pfeiffer, a student of Robert Koch, coined the term "endotoxin" to describe a substance produced by Gram-negative bacteria that could provoke fever and shock in experimental animals. In the decades that followed, endotoxin was chemically characterized and identified as a lipopolysaccharide (LPS) produced by most Gram-negative bacteria. Other molecules (bacterial lipopeptides, flagellin, and unmethylated DNA) were shown in turn to provoke host responses that are normally protective. However, these responses can be detrimental if they are excessively prolonged or intense. It followed logically that there must be receptors for such molecules, capable of alerting the host to the presence of infection, but these remained elusive for many years. Toll-like receptors are now counted among the key molecules that alert the immune system to the presence of microbial infections. They are named for their similarity to Toll, a receptor first identified in the fruit fly "Drosophila melanogaster", and originally known for its developmental function in that organism. In 1996, "Toll" was found by Jules A. Hoffmann and his colleagues to have an essential role in the fly's immunity to fungal infection [Lemaitre,B., Nicolas,E., Michaut,L., Reichhart,J.M., and Hoffmann,J.A. 1996. The dorsoventral regulatory gene cassette spatzle/Toll/cactus controls the potent antifungal response in Drosophila adults. Cell 86:973-983.] , which it achieved by activating the synthesis of antimicrobial peptides.

The first reported human Toll-like receptor was described by Nomura and colleagues in 1994, [Nomura,N., Miyajima,N., Sazuka,T., Tanaka,A., Kawarabayasi,Y., Sato,S., Nagase,T., Seki,N., Ishikawa,K., and Tabata,S. 1994. Prediction of the coding sequences of unidentified human genes. I. The coding sequences of 40 new genes (KIAA0001-KIAA0040) deduced by analysis of randomly sampled cDNA clones from human immature myeloid cell line KG-1. DNA Res. 1:27-35] mapped to a chromosome by Taguchi and colleagues in 1996, [Taguchi,T., Mitcham,J.L., Dower,S.K., Sims,J.E., and Testa,J.R. 1996. Chromosomal localization of TIL, a gene encoding a protein related to the Drosophila transmembrane receptor Toll, to human chromosome 4p14. Genom. 32:486-488] . Because the immune function of Toll in Drosophila was not then known, it was assumed that TIL (now known as TLR1) might participate in mammalian development. However, in 1991 (prior to the discovery of TIL) it was observed that a molecule with a clear role in immune function in mammals, the interleukin-1 (IL-1) receptor, also had homology to drosophila Toll; the cytoplasmic portions of both molecules were similar. [Gay NJ, Keith FJ. Drosophila Toll and IL-1 receptor. Nature. 1991 May 30;351(6325):355-6.] In 1997, Charles Janeway and Ruslan Medzhitov showed that a Toll-like receptor now known as TLR4 could, when artificially ligated using antibodies, induce the activation of certain genes necessary for initiating an adaptive immune response. cite journal |author=Medzhitov R, Preston-Hurlburt P, Janeway CA |title=A human homologue of the Drosophila Toll protein signals activation of adaptive immunity |journal=Nature |volume=388 |issue=6640 |pages=394–7 |year=1997 |pmid=9237759 |doi=10.1038/41131] However, the function of the TLRs remained unknown in the wake of this work, and in particular, no ligand had been identified for any mammalian TLR. The function of the TLRs was discovered by Bruce A. Beutler and colleagues [Poltorak A, He X, Smirnova I, Liu MY, Van Huffel C, Du X, Birdwell D, Alejos E, Silva M, Galanos C, Freudenberg M, Ricciardi-Castagnoli P, Layton B, Beutler B. Science. 1998 Dec 11;282(5396):2085-8. ] . These workers used positional cloning to prove that mice that could not respond to LPS had mutations that abolished the function of TLR4. This identified TLR4 as a key component of the receptor for LPS, and strongly suggested that other Toll-like receptors might detect other signature molecules of microbes, such as those mentioned above. In turn, the other TLR genes were ablated in mice by gene targeting, largely in the laboratory of Shizuo Akira and colleagues. Each TLR is now believed to detect a discrete collection of molecules of microbial origin, and to signal the presence of infections.

Extended family

It has been estimated that most mammalian species have between ten and fifteen types of Toll-like receptors. Thirteen TLRs (named simply TLR1 to TLR13) have been identified in humans and mice together, and equivalent forms of many of these have been found in other mammalian species [Du,X., Poltorak,A., Wei,Y., and Beutler,B. 2000. Three novel mammalian Toll-like receptors: gene structure, expression, and evolution. Eur. Cytokine Netw. 11:362-371.] [Chuang,T.H., and Ulevitch,R.J. 2000. Cloning and characterization of a sub-family of human Toll-like receptors: hTLR7, hTLR8 and hTLR9. Eur. Cytokine Netw. 11:372-378.] [Tabeta,K., Georgel,P., Janssen,E., Du,X., Hoebe,K., Crozat,K., Mudd,S., Shamel,L., Sovath,S., Goode,J. et al 2004. Toll-like receptors 9 and 3 as essential components of innate immune defense against mouse cytomegalovirus infection. Proc. Natl Acad. Sci. U. S. A 101:3516-3521.] . However, equivalents of certain TLR found in humans are not present in all mammals. For example, a gene coding for a protein analogous to TLR10 in humans is present in mice, but appears to have been damaged at some point in the past by a retrovirus. On the other hand, mice express TLRs 11, 12, and 13, none of which are represented in humans. Other mammals may express TLRs which are not found in humans. This may complicate the process of using experimental animals as models of human innate immunity.

Ligands

Because the specificity of Toll-like receptors (and other innate immune receptors) cannot easily be changed in the course of evolution, these receptors recognize molecules that are constantly associated with threats (i.e. pathogen or cell stress) and are highly specific to these threats (i.e. cannot be mistaken for self molecules). Pathogen associated molecules that meet this requirement are usually critical to the pathogen's function and cannot be eliminated or changed through mutation; they are said to be evolutionarily conserved. Well conserved features in pathogens include bacterial cell-surface lipopolysaccharides (LPS), lipoproteins, lipopeptides and lipoarabinomannan; proteins such as flagellin from bacterial flagella; double-stranded RNA of viruses or the unmethylated CpG islands of bacterial and viral DNA; and certain other RNA and DNA. For most of the TLRs, ligand recognition specificity has now been established by gene targeting (also known as "gene knockout"): a technique by which individual genes may be selectively deleted in mice. [Hoebe,K., Du,X., Georgel,P., Janssen,E., Tabeta,K., Kim,S.O., Goode,J., Lin,P., Mann,N., Mudd,S. et al 2003. Identification of Lps2 as a key transducer of MyD88-independent TIR signaling. Nature 424:743-748.] [Hemmi,H., Takeuchi,O., Kawai,T., Kaisho,T., Sato,S., Sanjo,H., Matsumoto,M., Hoshino,K., Wagner,H., Takeda,K. et al 2000. A Toll-like receptor recognizes bacterial DNA. Nature 408:740-745.] . See the table below for a summary of known TLR ligands.

Endogenous ligands

The stereotypic inflammatory response provoked by TLR activation has prompted speculation that endogenous activators of TLRs might participate in autoimmune diseases. TLRs have been suspected of binding to host molecules including fibrinogen (involved in blood clotting) and heat shock proteins (HSPs)and host DNA.

ignaling

TLRs are believed to function as dimers. Though most TLRs appear to function as homodimers, TLR2 forms heterodimers with TLR1 or TLR6, each dimer having a different ligand specificity. TLRs may also depend on other co-receptors for full ligand sensitivity, such as in the case of TLR4's recognition of LPS, which requires MD-2. CD14 and LPS Binding Protein (LBP) are known to facilitate the presentation of LPS to MD-2.

The adapter proteins and kinases that mediate TLR signaling have also been targeted. In addition, random germline mutagenesis with ENU has been used to decipher the TLR signaling pathways. When activated, TLRs recruit adapter molecules within the cytoplasm of cells in order to propagate a signal. Four adapter molecules are known to be involved in signaling. These proteins are known as MyD88, Tirap (also called Mal), Trif, and Tram [Yamamoto,M., Sato,S., Hemmi,H., Hoshino,K., Kaisho,T., Sanjo,H., Takeuchi,O., Sugiyama,M., Okabe,M., Takeda,K. et al 2003. Role of adapter TRIF in the MyD88-independent Toll-like receptor signaling pathway. Science 301:640-643. ] [Yamamoto,M., Sato,S., Hemmi,H., Uematsu,S., Hoshino,K., Kaisho,T., Takeuchi,O., Takeda,K., and Akira,S. 2003. TRAM is specifically involved in the Toll-like receptor 4-mediated MyD88-independent signaling pathway. Nat. Immunol. 4:1144-1150.] [Yamamoto,M., Sato,S., Hemmi,H., Sanjo,H., Uematsu,S., Kaisho,T., Hoshino,K., Takeuchi,O., Kobayashi,M., Fujita,T. et al 2002. Essential role for TIRAP in activation of the signalling cascade shared by TLR2 and TLR4. Nature 420:324-329. ] . The adapters activate other molecules within the cell, including certain protein kinases (IRAK1, IRAK4, TBK1, and IKKi) that amplify the signal, and ultimately lead to the induction or suppression of genes that orchestrate the inflammatory response. In all, thousands of genes are activated by TLR signaling, and collectively, the TLRs constitutes one of the most powerful and important gateways for gene modulation.

ummary of known mammalian Toll-like receptors

Toll-like receptors bind and become activated by different ligands, which, in turn are located on different types of organisms or structures. They also have different adapters to respond to activation and are located sometimes at the cell surface and sometimes to internal cell compartments. Furthermore, they are expressed by different types of leucocytes or other cell types:

Activation and effects

Following activation by ligands of microbial origin, several reactions are possible. Immune cells can produce signalling factors called cytokines which trigger inflammation. In the case of a bacterial factor, the pathogen might be phagocytosed and digested, and its antigens presented to CD4+ T cells. In the case of a viral factor, the infected cell may shut off its protein synthesis and may undergo programmed cell death (apoptosis). Immune cells that have detected a virus may also release anti-viral factors such as interferons.

The discovery of the Toll-like receptors finally identified the innate immune receptors that were responsible for many of the innate immune functions that had been studied for many years. Interestingly, TLRs seem only to be involved in the cytokine production and cellular activation in response to microbes, and do not play a significant role in the adhesion and phagocytosis of microorganisms.

Drugs interactions

Imiquimod (cardinally used in dermatology), and its successor R848, are ligands for TLR7 and TLR8 Peter Fritsch: "Dermatologie und Venerologie" (German), 2nd ed. 2004, Springer ,ISBN 3-540-00332-0] .

References

External links

*
* [http://zeus.krist.geo.uni-muenchen.de/~tollml TollML: Toll-like receptors and ligands database] at University of Munich


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