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20-September-2008 09:55:51 - Immunologic adjuvant In immunology, an adjuvant is an agent that may stimulate the immune system and increase the response to a vaccine, without having any specific antigenic effect in itself.1 The word adjuvant comes from the Latin word adjuvare, meaning to help or aid.2 An immunologic adjuvant is defined as any substance that acts to accelerate, prolong, or enhance antigen-specific immune responses when used in combination with specific vaccine antigens.3 Adjuvants have been called the dirty little secret of vaccines 4 in the scientific community, as much about how adjuvants work is a mystery. Known adjuvants include oils, aluminum salts and virosomes. Contents 1 Overview 1.1 Inorganic adjuvants 1.1.1 Aluminium salts 1.2 Organic adjuvants 1.2.1 Oil-based 1.3 Virosomes 1.4 Experimental adjuvants 2 Adjuvants and the adaptive immune response 3 Adjuvants and toll-like receptors 4 Medical complications 5 Controversy 6 References Overview Adjuvants in immunology are often used to modify or augment the effects of a vaccine by stimulating the immune system to respond to the vaccine more vigorously, and thus providing increased immunity to a particular disease. Adjuvants accomplish this task by mimicking specific sets of evolutionarily conserved molecules which include liposomes, lipopolysaccharide LPS, molecular cages for antigen, components of bacterial cell walls, and endocytosed nucleic acids such as double-stranded RNA dsRNA, single-stranded DNA ssDNA, and unmethylated CpG dinucleotide-containing DNA. 5 Because immune systems have evolved to recognize these specific antigenic moieties, the presence of adjuvant in conjunction with the vaccine can greatly increase the innate immune response to the antigen by augmenting the activities of dendritic cells DCs, lymphocytes and macrophages by mimicking a natural infection. 6 Furthermore, because adjuvants are attenuated beyond any function of virulence, they pose little or no independent threat to a host organism. Inorganic adjuvants Aluminium salts There are many adjuvants, some of which are inorganic such as alum, that also carry the potential to augment immunogenicity.78 Two common salts include aluminum phosphate and aluminum hydroxide. These are the most common adjuvants in human vaccines. Organic adjuvants While Aluminium salts are popularly used in human vaccines, the organic compound Squalene is also used. However, organic adjuvants are more commonly used in animal vaccines. Oil-based Oil-based adjuvants are commonly used in some veterinary vaccines. Virosomes Another market-approved adjuvant and carrier system are virosomes.9 During the last two decades, a variety of technologies have been investigated to improve the widely-used adjuvants based on aluminum salts.10 These salts are unfavorable, since they develop their effect by inducing local inflammation, which is also the basis for the extended side-effect pattern of this adjuvant. In contrast, the adjuvant capabilities of virosomes are independent of any inflammatory reaction. Virosomes contain a membrane-bound hemagglutinin and neuraminidase derived from the influenza virus, and serve to amplify fusogenic activity and therefore facilitate the uptake into antigen presenting cells APC and induce a natural antigen-processing pathway. The delivery of the antigen by virosomes to the immune system in a way that mimics a natural path may be a reason why virosome-based vaccines stand out due to their excellent safety profile.11 Experimental adjuvants An increasing number of vaccines with squalene and phosphate adjuvants are being tested on humans.12 The compound QS21 is under investigation as a possible immunological adjuvant13 as is Novartis' formerly Chiron MF59.14 Adjuvants and the adaptive immune response One misconception concerning adjuvant function is that an adjuvant-enhanced innate immune response should affect only the transitory reaction of the innate immune response and not the more long-lived effects of the adaptive immune response.citation needed Although it may appear fitting to separate the two systems, it is however important to realize the interconnected nature of the two systems. When the amount of communication that takes place between the innate immune response and the adaptive immune response with the onset of infection is considered it becomes difficult to separate the two systems. In order to understand the links between the innate immune response and the adaptive immune response to help substantiate an adjuvant function in enhancing adaptive immune responses to the specific antigen of a vaccine, the following points should be considered: Innate immune response cells such as DCs engulf pathogens through a process called phagocytosis. DCs then migrate to the lymph nodes where T cells adaptive immune cells wait for signals to trigger their activation.15 In the lymph nodes, DCs mince the engulfed pathogen and then express the pathogen clippings as antigen on their cell surface by coupling them to a special receptor known as a major histocompatibility complex MHC. T cells can then recognize these clippings and undergo a cellular transformation resulting in its own activation.16 γδ T cells possess characteristics of both the innate and adaptive immune responses. Macrophages can also activate T cells in a similar approach. This process carried out by both DCs and macrophages is termed antigen presentation and represents a physical link between the innate and adaptive immune responses. Upon activation, mast cells release heparin and histamine to effectively increase trafficking to and seal off the site of infection to allow immune cells of both systems to clear the area of pathogens. In addition, mast cells also release chemokines which result in the positive chemotaxis of other immune cells of both the innate and adaptive immune responses to the infected area.1718 Due to the variety of mechanisms and links between the innate and adaptive immune response, an adjuvant-enhanced innate immune response results in an enhanced adaptive immune response. Specifically, a recent study has observed that adjuvants may exert their immune-enhancing effects according to five immune-functional activities.19 First, it was found that adjuvants all help in the translocation of antigens to the lymph nodes where they can be recognized by T cells. This will ultimately lead to greater T cell activity resulting in a heightened clearance of pathogen throughout the organism. Second, adjuvants provide physical protection to antigens which grants the antigen a prolonged delivery. This means that the organism will be exposed to the antigen for a longer duration, making the immune system more robust as it makes use of the additional time by upregulating the production of B and T cells needed for greater immunological memory in the adaptive immune response. Third, adjuvants help to increase the capacity to cause local reactions at the injection site during vaccination, inducing greater release of danger signals by chemokine releasing cells such as helper T cells and mast cells. Fourth, they induce the release of inflammatory cytokines which helps to not only recruit B and T cells at sites of infection but also to increase transcriptional events leading to a net increase of immune cells as a whole. Finally, adjuvants are believed to increase the innate immune response to antigen by interacting with pattern recognition receptors PRRs, specifically Toll-like receptors TLRs, on accessory cells. Adjuvants and toll-like receptors The ability of immune system to recognize molecules that are broadly shared by pathogens is, in part, due to the presence of special Immune receptors called TLRs that are expressed on leukocyte membranes. TLRs were first discovered in drosophila, and are membrane bound pattern recognition receptors PRRs responsible for detecting most although certainly not all antigen-mediated infections.2021 In fact, some studies have shown that in the absence of TLR, leukocytes become unresponsive no inflammatory responses to some microbial components such as LPS.22 There are at least thirteen different forms of TLR, each with its own characteristic ligand. Prevailing TLR ligands described to date all of which elicit adjuvant effects include many evolutionarily conserved molecules such as LPS, lipoproteins, lipopeptides, flagellin, double-stranded RNA, unmethylated CpG islands and various other forms of DNA and RNA classically released by bacteria and viruses.232425262728 The binding of ligand - either in the form of adjuvant used in vaccinations or in the form of invasive moieties during times of natural infection - to the TLR marks the key molecular events that ultimately lead to innate immune responses and the development of antigen-specific acquired immunity.2930The very fact that TLR activation leads to adaptive immune responses to foreign entities explains why so many adjuvants used today in vaccinations are developed to mimic TLR ligands. It is believed that upon activation, TLRs recruit adapter proteins proteins that mediate other protein-protein interactions within the cytosol of the immune cell in order to propagate the antigen-induced signal transduction pathway. To date, four adapter proteins have been well-characterized. These proteins are known as MyD88, Trif, Tram and Tirap also called Mal.31323334These recruited proteins are then responsible for the subsequent activation of other downstream proteins, including protein kinases IKKi, IRAK1, IRAK4, and TBK1 that further amplify the signal and ultimately lead to the upregulation or suppression of genes that orchestrate inflammatory responses and other transcriptional events. Some of these events lead to cytokine production, proliferation, and survival, while others lead to greater adaptive immunity.30 The high sensitivity of TLR for microbial ligands is what makes adjuvants that mimic TLR ligands such a prime candidate for enhancing the overall effects of antigen specific vaccinations on immunological memory. Finally, the expression of TLRs is vast as they are found on the cell membranes of innate immune cells DCs, macrophages, natural killer cells, cells of the adaptive immunity T and B lymphocytes and non immune cells epithelial and endothelial cells, fibroblasts.35 This further substantiates the importance of administering vaccines with adjuvants in the form of TLR ligands as they will be capable of eliciting their positive effects across the entire spectrum of innate and adaptive immunity. Nevertheless, there are certainly adjuvants whose immune-stimulatory function completely bypasses the putative requisite for TLR signaling. In short, all TLR ligands are adjuvants but not all adjuvants are TLR ligands. Medical complications Aluminum salts used in many human vaccines are generally regarded as safe;36 however, a recent study revealed that aluminum adjuvants at levels comparable to those administered to Gulf War veterans can cause motor neuron death.37 In veterinary medicine, particularly in felines, adjuvants have been linked to the induction of sarcomas at the injection site in a small proportion of vaccinations.38 Controversy Recently, the premise that TLR signaling acts as the key node in antigen-mediated inflammatory responses has been in question as researchers have observed antigen-mediated inflammatory responses in leukocytes in the absence of TLR signaling.539 One researcher found that in the absence of MyD88 and Trif essential adapter proteins in TLR signaling, they were still able to induce inflammatory responses, increase T cell activation and generate greater B cell abundancy using conventional adjuvants alum, Freund's complete adjuvant, Freund's incomplete adjuvant, and monophosphoryl-lipid A/trehalose dicorynomycolate Ribi's adjuvant.5 These observations suggest that although TLR activation can lead to increases in antibody responses, TLR activation is not required to induce enhanced innate and adaptive responses to antigens. Investigating the mechanisms which underlie TLR signaling has been significant in understanding why adjuvants used during vaccinations are so important in augmenting adaptive immune responses to specific antigens. However, with the knowledge that TLR activation is not required for the immune-enhancing effects caused by common adjuvants, we can conclude that there are, in all likelihood, other receptors besides TLRs that have not yet characterized, opening the door to future research. Perhaps future adjuvants occupying these putative receptors will be employed to bypass the TLR signaling pathway completely in order to circumvent common side effects of adjuvant-activated TLRs such as local inflammation and the general malaise felt because of the costly whole-body immune response to antigen. Surely, such issues will be the subject of much debate for future researchers. References ^ Definition of Adjuvant, National Cancer Institute. ^ DNA Vaccines: Methods and Protocols, D.B. Lowrie and R.G. Whalen, Humana Press, 2000. ISBN 978-0-89603-580-5. ^ The Use of Conventional Immunologic Adjuvants in DNA Vaccine Preparations, by Shin Sasaki and Kenji Okuda. In D.B. Lowrie and R.G. Whalen ors, DNA Vaccines: Methods and Protocols, Humana Press, 2000. ISBN 978-0-89603-580-5. ^ The Scientist Deciphering Immunology's Dirty Secret. ^ a b c Gavin A, Hoebe K, Duong B, Ota T, Martin C, Beutler B, Nemazee D 2006. Adjuvant-enhanced antibody responses in the absence of toll-like receptor signaling. Science 314 5807: 1936-8. doi:10.1126/science.1135299. PMID 17185603. Retrieved on 2008-04-03. ^ Majde JA. 1987. Progress in leukocyte biology. Alan R. Liss, Inc. vol. 6. ^ Clements C, Griffiths E. The global impact of vaccines containing aluminium adjuvants. Vaccine 20 Suppl 3: S24-33. PMID 12184361. ^ Glenny A, Pope C, Waddington H, and Wallace U. 1926. The antigenic value of toxoid precipitated by potassium alum. J Pathol Bacteriol. 29: 38-45. ^ Safety, immunogenicity, and kinetics of the immune response to a single dose of virosome-formulated hepatitis A vaccine in Thais, Yong Poovorawana, Apiradee Theamboonlersa, Saowani Chumdermpadetsuka, Reinhard Glückb and Stanley J. Cryz, Jr., Vaccine, Volume 13, Issue 10, 1995, Pages 891-893. ^ Immunogenicity and adverse effects of inactivated virosome versus alum-adsorbed hepatitis A vaccine: a randomized controlled trial, Benedikt R. Holzer, Christoph Hatz†, Dagmar Schmidt-Sissolak†, Reinhard Glück‡, Beat Althaus‡ and Matthias Egger, Vaccine, Volume 14, Issue 10, July 1996, Pages 982-986. ^ Adjuvant activity of immunopotentiating reconstituted influenza virosomes IRIVs, Reinhard Glück, Vaccine, Volume 17, Issues 13-14, January 1999, Pages 1782-1787. ^ Immunologic adjuvants for modern vaccine formulations, F. R. Vogel, Annals of the New York Academy of Sciences, Vol 754, Issue 1, 1995, pp. 153-160 ^ Ghochikyan A, Mkrtichyan M, Petrushina I, Movsesyan N, Karapetyan A, Cribbs D, Agadjanyan M 2006. Prototype Alzheimer's disease epitope vaccine induced strong Th2-type anti-Abeta antibody response with Alum to Quil A adjuvant switch. Vaccine 24 13: 2275-82. doi:10.1016/j.vaccine.2005.11.039. PMID 16368167. ^ NIH Chiron Corporation will produce the H9N2 vaccine at its manufacturing facility in Siena, Italy. The company will prepare different dosages of the vaccine, which is based on an inactivated strain of the H9N2 virus developed by the Centers for Disease Control and Prevention. Some dosages will contain Chiron's MF59 adjuvant-a substance designed to boost the vaccine's protective effect. ^ Bousso P, Robey E 2003. Dynamics of CD8+ T cell priming by dendritic cells in intact lymph nodes. Nat Immunol 4 6: 579-85. doi:10.1038/ni928. PMID 12730692. ^ Mempel T, Henrickson S, Von Andrian U 2004. T-cell priming by dendritic cells in lymph nodes occurs in three distinct phases. Nature 427 6970: 154-9. doi:10.1038/nature02238. PMID 14712275. ^ Gaboury J, Johnston B, Niu X, Kubes P 1995. Mechanisms underlying acute mast cell-induced leukocyte rolling and adhesion in vivo. J Immunol 154 2: 804-13. PMID 7814884. ^ Kashiwakura J, Yokoi H, Saito H, Okayama Y 2004. T cell proliferation by direct cross-talk between OX40 ligand on human mast cells and OX40 on human T cells: comparison of gene expression profiles between human tonsillar and lung-cultured mast cells. J Immunol 173 8: 5247-57. PMID 15470070. ^ Schijns V 2000. Immunological concepts of vaccine adjuvant activity. Curr Opin Immunol 12 4: 456-63. doi:10.1016/S0952-79150000120-5. PMID 10899018. ^ Lemaitre B, Nicolas E, Michaut L, Reichhart J, Hoffmann J 1996. The dorsoventral regulatory gene cassette spätzle/Toll/cactus controls the potent antifungal response in Drosophila adults. Cell 86 6: 973-83. doi:10.1016/S0092-86740080172-5. PMID 8808632. ^ Beutler B 2004. Inferences, questions and possibilities in Toll-like receptor signalling. Nature 430 6996: 257-63. doi:10.1038/nature02761. PMID 15241424. ^ Poltorak A, He X, Smirnova I, Liu M, Van Huffel C, Du X, Birdwell D, Alejos E, Silva M, Galanos C, Freudenberg M, Ricciardi-Castagnoli P, Layton B, Beutler B 1998. Defective LPS signaling in C3H/HeJ and C57BL/10ScCr mice: mutations in Tlr4 gene. Science 282 5396: 2085-8. doi:10.1126/science.282.5396.2085. PMID 9851930. ^ Bültmann B, Finger H, Heymer B, Schachenmayr W, Hof H, Haferkamp O 1975. Adjuvancy of streptococcal nucleic acids. Z Immunitatsforsch Exp Klin Immunol 148 5: 425-30. PMID 127450. ^ Capanna SL, Kong YM. 1974. Further studies on the prevention of tolerance induction by poly A:U. Immunology. 27: 647-653. ^ Nauciel C, Fleck J, Martin J, Mock M, Nguyen-Huy H 1974. Adjuvant activity of bacterial peptidoglycans on the production of delayed hypersensitivity and on antibody response. Eur J Immunol 4 5: 352-6. doi:10.1002/eji.1830040509. PMID 4604064. ^ Schmidtke JR, Johnson AG. 1971. Regulation of the immune system by synthetic polynucleotides. I. Characteristics of adjuvant action on antibody synthesis. J. Immunol. 106: 1191-1200. ^ Youmans AS, Youmans GP. 1969. Factor affecting immunogenic activity of mycobacterial ribosomal and ribonucleic acid preparations. J. Bacteriol. 99: 42-50. ^ Youmans G, Youmans A 1969. Allergenicity of mycobacterial ribosomal and ribonucleic acid preparations in mice and guinea pigs. J Bacteriol 97 1: 134-9. PMID 4236903. ^ Kiyoshi Takeda, and Shizuo Akira. 2005. Toll-like receptors in innate immunity. International Immunology. 171: 1-14. ^ a b Medzhitov R, Preston-Hurlburt P, Janeway C 1997. A human homologue of the Drosophila Toll protein signals activation of adaptive immunity. Nature 388 6640: 394-7. doi:10.1038/41131. PMID 9237759. ^ Berczi I, Bertok L, Bereznai T. 1966. Comparative studies on the toxicity of Escherichia coli lipopolysaccharide endotoxin in various animal species. Can. J. Microbiol. 12: 1070-1071. ^ 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, Sanjo H, Uematsu S, Kaisho T, Hoshino K, Takeuchi O, Kobayashi M, Fujita T, Takeda K, Akira S 2002. Essential role for TIRAP in activation of the signalling cascade shared by TLR2 and TLR4. Nature 420 6913: 324-9. doi:10.1038/nature01182. PMID 12447441. ^ Yamamoto M, Sato S, Hemmi H, Uematsu S, Hoshino K, Kaisho T, Takeuchi O, Takeda K, Akira S 2003. TRAM is specifically involved in the Toll-like receptor 4-mediated MyD88-independent signaling pathway. Nat Immunol 4 11: 1144-50. doi:10.1038/ni986. PMID 14556004. ^ Delneste Y, Beauvillain C, Jeannin P 2007. Innate immunity: structure and function of TLRs. Med Sci Paris 23 1: 67-73. PMID 17212934. ^ Baylor N, Egan W, Richman P 2002. Aluminum salts in vaccines--US perspective. Vaccine 20 Suppl 3: S18-23. doi:10.1016/S0264-410X0200166-4. PMID 12184360. ^ Petrik MS, Wong MC, Tabata RC, Garry RF, Shaw CA 2007. Aluminum adjuvant linked to gulf war illness induces motor neuron death in mice. Neuromolecular Med 9 1: 83-100. doi:10.1385/NMM:9:1:83. PMID 17114826. ^ Feline Post-Vaccinal Sarcoma - A Literature Review, Shane Ryan, Singapore Veterinary Journal, 1998 22: 65-73. ^ Wickelgren I 2006. Immunology. Mouse studies question importance of toll-like receptors to vaccines. Science 314 5807: 1859-60. doi:10.1126/science.314.5807.1859a. PMID 17185572. v d e Vaccines, Vaccination, Immunization, and Inoculation see also artificial induction of immunity Development Adjuvants Cancer vaccines DNA vaccination HIV Live vector vaccine Models Timeline Trial Administration Global: GAVI Policy Schedule Vaccine injury USA: ACIP VAERS VSD Vaccine court Vaccines live Anthrax BCG tuberculosis Flu MMR MMRV PolioOPV Rotavirus Smallpox Varicella Yellow fever Inactivated/toxoid inactivated virus: Flu HAV PolioIPV inactivated bacteria/toxoid: DTwP conjugate: Hib PCV Other subunit: Anthrax DTaP HPV recombinant DNA: HBV other: Anthrax PPV Controversy General A-CHAMP MMR NCVIA Pox party Safe Minds Thiomersal See also List of vaccine topics Epidemiology Eradication of infectious diseases Retrieved from http://en..org/wiki/Immunologic_adjuvant Hidden categories: All articles with statements | Articles with statements since November 2007 Views Article Discussion this page History Personal tools Log in / create account Navigation Main page Contents Featured content Current events Random article Search Go Search Interaction Community portal Recent changes Contact Donate to Help Toolbox What links here Related changes Upload file Special pages Printable version Permanent link Cite this page Languages Nederlands Polski This page was last modified on 10 August 2008, at 20:29
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