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Antigen

October 10, 2023

In immunology, an antigen (Ag) is a molecule, moiety, foreign particulate matter, or an allergen, such as pollen, that can bind to a specific antibody or T-cell receptor.[1] The presence of antigens in the body may trigger an immune response.[2]

An illustration that shows how antigens induce the immune system response by interacting with an antibody that matches the molecular structure of an antigen

Antigens can be proteins, peptides (amino acid chains), polysaccharides (chains of simple sugars), lipids, or nucleic acids.[3][4] Antigens exist on normal cells, cancer cells, parasites, viruses, fungi, and bacteria.[1][3]

Antigens are recognized by antigen receptors, including antibodies and T-cell receptors.[3] Diverse antigen receptors are made by cells of the immune system so that each cell has a specificity for a single antigen.[3] Upon exposure to an antigen, only the lymphocytes that recognize that antigen are activated and expanded, a process known as clonal selection.[4] In most cases, antibodies are antigen-specific, meaning that an antibody can only react to and bind one specific antigen; in some instances, however, antibodies may cross-react to bind more than one antigen. The reaction between an antigen and an antibody is called the antigen-antibody reaction.

Antigen can originate either from within the body ("self-protein" or "self antigens") or from the external environment ("non-self").[2] The immune system identifies and attacks "non-self" external antigens. Antibodies usually do not react with self-antigens due to negative selection of T cells in the thymus and B cells in the bone marrow.[5] The diseases in which antibodies react with self antigens and damage the body's own cells are called autoimmune diseases.[6]

Vaccines are examples of antigens in an immunogenic form, which are intentionally administered to a recipient to induce the memory function of the adaptive immune system towards antigens of the pathogen invading that recipient. The vaccine for seasonal influenza is a common example.[7]

Etymology Edit

Paul Ehrlich coined the term antibody (German: Antikörper) in his side-chain theory at the end of the 19th century.[8] In 1899, Ladislas Deutsch (László Detre) named the hypothetical substances halfway between bacterial constituents and antibodies "antigenic or immunogenic substances" (French: substances immunogènes ou antigènes). He originally believed those substances to be precursors of antibodies, just as a zymogen is a precursor of an enzyme. But, by 1903, he understood that an antigen induces the production of immune bodies (antibodies) and wrote that the word antigen is a contraction of antisomatogen (Immunkörperbildner). The Oxford English Dictionary indicates that the logical construction should be "anti(body)-gen".[9] The term originally referred to a substance that acts as an antibody generator.[10]

Terminology Edit

  • Epitope – the distinct surface features of an antigen, its antigenic determinant.
    Antigenic molecules, normally "large" biological polymers, usually present surface features that can act as points of interaction for specific antibodies. Any such feature constitutes an epitope. Most antigens have the potential to be bound by multiple antibodies, each of which is specific to one of the antigen's epitopes. Using the "lock and key" metaphor, the antigen can be seen as a string of keys (epitopes) each of which matches a different lock (antibody). Different antibody idiotypes, each have distinctly formed complementarity-determining regions.
  • Allergen – A substance capable of causing an allergic reaction. The (detrimental) reaction may result after exposure via ingestion, inhalation, injection, or contact with skin.
  • Superantigen – A class of antigens that cause non-specific activation of T-cells, resulting in polyclonal T-cell activation and massive cytokine release.
  • Tolerogen – A substance that invokes a specific immune non-responsiveness due to its molecular form. If its molecular form is changed, a tolerogen can become an immunogen.
  • Immunoglobulin-binding protein – Proteins such as protein A, protein G, and protein L that are capable of binding to antibodies at positions outside of the antigen-binding site. While antigens are the "target" of antibodies, immunoglobulin-binding proteins "attack" antibodies.
  • T-dependent antigen – Antigens that require the assistance of T cells to induce the formation of specific antibodies.
  • T-independent antigen – Antigens that stimulate B cells directly.
  • Immunodominant antigens – Antigens that dominate (over all others from a pathogen) in their ability to produce an immune response. T cell responses typically are directed against a relatively few immunodominant epitopes, although in some cases (e.g., infection with the malaria pathogen Plasmodium spp.) it is dispersed over a relatively large number of parasite antigens.[11]

Antigen-presenting cells present antigens in the form of peptides on histocompatibility molecules. The T cells selectively recognize the antigens; depending on the antigen and the type of the histocompatibility molecule, different types of T cells will be activated. For T-cell receptor (TCR) recognition, the peptide must be processed into small fragments inside the cell and presented by a major histocompatibility complex (MHC).[12] The antigen cannot elicit the immune response without the help of an immunologic adjuvant.[13] Similarly, the adjuvant component of vaccines plays an essential role in the activation of the innate immune system.[14][15]

An immunogen is an antigen substance (or adduct) that is able to trigger a humoral (innate) or cell-mediated immune response.[16] It first initiates an innate immune response, which then causes the activation of the adaptive immune response. An antigen binds the highly variable immunoreceptor products (B-cell receptor or T-cell receptor) once these have been generated. Immunogens are those antigens, termed immunogenic, capable of inducing an immune response.[17]

At the molecular level, an antigen can be characterized by its ability to bind to an antibody's paratopes. Different antibodies have the potential to discriminate among specific epitopes present on the antigen surface. A hapten is a small molecule that can only induce an immune response when attached to a larger carrier molecule, such as a protein. Antigens can be proteins, polysaccharides, lipids, nucleic acids or other biomolecules.[4] This includes parts (coats, capsules, cell walls, flagella, fimbriae, and toxins) of bacteria, viruses, and other microorganisms. Non-microbial non-self antigens can include pollen, egg white, and proteins from transplanted tissues and organs or on the surface of transfused blood cells.

Sources Edit

Antigens can be classified according to their source.

Exogenous antigens Edit

Exogenous antigens are antigens that have entered the body from the outside, for example, by inhalation, ingestion or injection. The immune system's response to exogenous antigens is often subclinical. By endocytosis or phagocytosis, exogenous antigens are taken into the antigen-presenting cells (APCs) and processed into fragments. APCs then present the fragments to T helper cells (CD4+) by the use of class II histocompatibility molecules on their surface. Some T cells are specific for the peptide:MHC complex. They become activated and start to secrete cytokines, substances that activate cytotoxic T lymphocytes (CTL), antibody-secreting B cells, macrophages and other particles.

Some antigens start out as exogenous and later become endogenous (for example, intracellular viruses). Intracellular antigens can be returned to circulation upon the destruction of the infected cell.

Endogenous antigens Edit

Endogenous antigens are generated within normal cells as a result of normal cell metabolism, or because of viral or intracellular bacterial infection. The fragments are then presented on the cell surface in the complex with MHC class I molecules. If activated cytotoxic CD8+ T cells recognize them, the T cells secrete various toxins that cause the lysis or apoptosis of the infected cell. In order to keep the cytotoxic cells from killing cells just for presenting self-proteins, the cytotoxic cells (self-reactive T cells) are deleted as a result of tolerance (negative selection). Endogenous antigens include xenogenic (heterologous), autologous and idiotypic or allogenic (homologous) antigens. Sometimes antigens are part of the host itself in an autoimmune disease.[2]

Autoantigens Edit

An autoantigen is usually a self-protein or protein complex (and sometimes DNA or RNA) that is recognized by the immune system of patients with a specific autoimmune disease. Under normal conditions, these self-proteins should not be the target of the immune system, but in autoimmune diseases, their associated T cells are not deleted and instead attack.

Neoantigens Edit

Neoantigens are those that are entirely absent from the normal human genome. As compared with nonmutated self-proteins, neoantigens are of relevance to tumor control, as the quality of the T cell pool that is available for these antigens is not affected by central T cell tolerance. Technology to systematically analyze T cell reactivity against neoantigens became available only recently.[18] Neoantigens can be directly detected and quantified.[19]

Viral antigens Edit

For virus-associated tumors, such as cervical cancer and a subset of head and neck cancers, epitopes derived from viral open reading frames contribute to the pool of neoantigens.[18]

Tumor antigens Edit

Tumor antigens are those antigens that are presented by MHC class I or MHC class II molecules on the surface of tumor cells. Antigens found only on such cells are called tumor-specific antigens (TSAs) and generally result from a tumor-specific mutation. More common are antigens that are presented by tumor cells and normal cells, called tumor-associated antigens (TAAs). Cytotoxic T lymphocytes that recognize these antigens may be able to destroy tumor cells.[18]

Tumor antigens can appear on the surface of the tumor in the form of, for example, a mutated receptor, in which case they are recognized by B cells.[18]

For human tumors without a viral etiology, novel peptides (neo-epitopes) are created by tumor-specific DNA alterations.[18]

Process Edit

A large fraction of human tumor mutations are effectively patient-specific. Therefore, neoantigens may also be based on individual tumor genomes. Deep-sequencing technologies can identify mutations within the protein-coding part of the genome (the exome) and predict potential neoantigens. In mice models, for all novel protein sequences, potential MHC-binding peptides were predicted. The resulting set of potential neoantigens was used to assess T cell reactivity. Exome–based analyses were exploited in a clinical setting, to assess reactivity in patients treated by either tumor-infiltrating lymphocyte (TIL) cell therapy or checkpoint blockade. Neoantigen identification was successful for multiple experimental model systems and human malignancies.[18]

The false-negative rate of cancer exome sequencing is low—i.e.: the majority of neoantigens occur within exonic sequence with sufficient coverage. However, the vast majority of mutations within expressed genes do not produce neoantigens that are recognized by autologous T cells.[18]

As of 2015 mass spectrometry resolution is insufficient to exclude many false positives from the pool of peptides that may be presented by MHC molecules. Instead, algorithms are used to identify the most likely candidates. These algorithms consider factors such as the likelihood of proteasomal processing, transport into the endoplasmic reticulum, affinity for the relevant MHC class I alleles and gene expression or protein translation levels.[18]

The majority of human neoantigens identified in unbiased screens display a high predicted MHC binding affinity. Minor histocompatibility antigens, a conceptually similar antigen class are also correctly identified by MHC binding algorithms. Another potential filter examines whether the mutation is expected to improve MHC binding. The nature of the central TCR-exposed residues of MHC-bound peptides is associated with peptide immunogenicity.[18]

Nativity Edit

A native antigen is an antigen that is not yet processed by an APC to smaller parts. T cells cannot bind native antigens, but require that they be processed by APCs, whereas B cells can be activated by native ones.

Antigenic specificity Edit

Antigenic specificity is the ability of the host cells to recognize an antigen specifically as a unique molecular entity and distinguish it from another with exquisite precision. Antigen specificity is due primarily to the side-chain conformations of the antigen. It is measurable and need not be linear or of a rate-limited step or equation.[2][7] Both T cells and B cells are cellular components of adaptive immunity.[2][4]

See also Edit

References Edit

  1. ^ a b "Antibody". National Human Genome Research Institute, US National Institutes of Health. 2020. Retrieved 13 October 2020.
  2. ^ a b c d e "Immune system and disorders". MedlinePlus, US National Institute of Medicine. 28 September 2020. Retrieved 13 October 2020.
  3. ^ a b c d "Antigen". Cleveland Clinic. 2023. Retrieved 23 May 2023.
  4. ^ a b c d Abbas AK, Lichtman A, Pillai S (2018). "Antibodies and Antigens". Cellular and Molecular Immunology (9th ed.). Philadelphia: Elsevier. ISBN 9780323523240. OCLC 1002110073.
  5. ^ Gallucci S, Lolkema M, Matzinger P (November 1999). "Natural adjuvants: endogenous activators of dendritic cells". Nature Medicine. 5 (11): 1249–1255. doi:10.1038/15200. PMID 10545990. S2CID 29090284.
  6. ^ Janeway Jr CA, Travers P, Walport M, Shlomchik MJ (2001). "Autoimmune responses are directed against self antigens". Immunobiology: The Immune System in Health and Disease (5th ed.). Elsevier España. ISBN 9780815336426. OCLC 45708106.
  7. ^ a b "Antigenic characterization". US Centers for Disease Control and Prevention. 15 October 2019. Retrieved 13 October 2020.
  8. ^ Strebhardt K, Ullrich A (June 2008). "Paul Ehrlich's magic bullet concept: 100 years of progress". Nature Reviews. Cancer. 8 (6): 473–480. doi:10.1038/nrc2394. PMID 18469827. S2CID 30063909.
  9. ^ Lindenmann J (April 1984). "Origin of the terms 'antibody' and 'antigen'". Scandinavian Journal of Immunology. 19 (4): 281–285. doi:10.1111/j.1365-3083.1984.tb00931.x. PMID 6374880. S2CID 222200504.
  10. ^ Male DK, Roitt IM, Brostoff J (2006). Immunology. Elsevier Health Sciences. p. 10. ISBN 978-0323033992.
  11. ^ Doolan DL, Southwood S, Freilich DA, Sidney J, Graber NL, Shatney L, Bebris L, Florens L, Dobano C, Witney AA, Appella E, Hoffman SL, Yates JR, Carucci DJ, Sette A (August 2003). "Identification of Plasmodium falciparum antigens by antigenic analysis of genomic and proteomic data". Proceedings of the National Academy of Sciences of the United States of America. 100 (17): 9952–57. Bibcode:2003PNAS..100.9952D. doi:10.1073/pnas.1633254100. PMC 187898. PMID 12886016.
  12. ^ Parham, Peter. (2009). The Immune System, 3rd Edition, p. G:2, Garland Science, Taylor and Francis Group, LLC.
  13. ^ Gavin AL, Hoebe K, Duong B, Ota T, Martin C, Beutler B, Nemazee D (December 2006). "Adjuvant-enhanced antibody responses in the absence of toll-like receptor signaling". Science. 314 (5807): 1936–1938. Bibcode:2006Sci...314.1936G. doi:10.1126/science.1135299. PMC 1868398. PMID 17185603.
  14. ^ Janeway CA (November 2013). "Pillars article: approaching the asymptote? Evolution and revolution in immunology. Cold spring harb symp quant biol. 1989. 54: 1-13". Journal of Immunology. 191 (9): 4475–4487. PMID 24141854.
  15. ^ Gayed PM (June 2011). "Toward a modern synthesis of immunity: Charles A. Janeway Jr. and the immunologist's dirty little secret". The Yale Journal of Biology and Medicine. 84 (2): 131–138. PMC 3117407. PMID 21698045.
  16. ^ Parham, Peter. (2009). The Immune System, 3rd Edition, p. G:11, Garland Science, Taylor and Francis Group, LLC.
  17. ^ Kuby Immunology (6th ed.). Macmillan. 2006. p. 77. ISBN 978-1-4292-0211-4.
  18. ^ a b c d e f g h i Schumacher TN, Schreiber RD (April 2015). "Neoantigens in cancer immunotherapy". Science. 348 (6230): 69–74. Bibcode:2015Sci...348...69S. doi:10.1126/science.aaa4971. PMID 25838375.
  19. ^ Wang Q, Douglass J, Hwang MS, et al. (November 2019). "Direct Detection and Quantification of Neoantigens". Cancer Immunology Research. 7 (11): 1748–1754. doi:10.1158/2326-6066.CIR-19-0107. PMC 6825591. PMID 31527070.

October 10, 2023
antigen, immunology, antigen, molecule, moiety, foreign, particulate, matter, allergen, such, pollen, that, bind, specific, antibody, cell, receptor, presence, antigens, body, trigger, immune, response, illustration, that, shows, antigens, induce, immune, syst. In immunology an antigen Ag is a molecule moiety foreign particulate matter or an allergen such as pollen that can bind to a specific antibody or T cell receptor 1 The presence of antigens in the body may trigger an immune response 2 An illustration that shows how antigens induce the immune system response by interacting with an antibody that matches the molecular structure of an antigenAntigens can be proteins peptides amino acid chains polysaccharides chains of simple sugars lipids or nucleic acids 3 4 Antigens exist on normal cells cancer cells parasites viruses fungi and bacteria 1 3 Antigens are recognized by antigen receptors including antibodies and T cell receptors 3 Diverse antigen receptors are made by cells of the immune system so that each cell has a specificity for a single antigen 3 Upon exposure to an antigen only the lymphocytes that recognize that antigen are activated and expanded a process known as clonal selection 4 In most cases antibodies are antigen specific meaning that an antibody can only react to and bind one specific antigen in some instances however antibodies may cross react to bind more than one antigen The reaction between an antigen and an antibody is called the antigen antibody reaction Antigen can originate either from within the body self protein or self antigens or from the external environment non self 2 The immune system identifies and attacks non self external antigens Antibodies usually do not react with self antigens due to negative selection of T cells in the thymus and B cells in the bone marrow 5 The diseases in which antibodies react with self antigens and damage the body s own cells are called autoimmune diseases 6 Vaccines are examples of antigens in an immunogenic form which are intentionally administered to a recipient to induce the memory function of the adaptive immune system towards antigens of the pathogen invading that recipient The vaccine for seasonal influenza is a common example 7 Contents 1 Etymology 2 Terminology 3 Sources 3 1 Exogenous antigens 3 2 Endogenous antigens 3 3 Autoantigens 3 4 Neoantigens 3 4 1 Viral antigens 3 4 2 Tumor antigens 3 4 2 1 Process 3 5 Nativity 4 Antigenic specificity 5 See also 6 ReferencesEtymology EditPaul Ehrlich coined the term antibody German Antikorper in his side chain theory at the end of the 19th century 8 In 1899 Ladislas Deutsch Laszlo Detre named the hypothetical substances halfway between bacterial constituents and antibodies antigenic or immunogenic substances French substances immunogenes ou antigenes He originally believed those substances to be precursors of antibodies just as a zymogen is a precursor of an enzyme But by 1903 he understood that an antigen induces the production of immune bodies antibodies and wrote that the word antigen is a contraction of antisomatogen Immunkorperbildner The Oxford English Dictionary indicates that the logical construction should be anti body gen 9 The term originally referred to a substance that acts as an antibody generator 10 Terminology EditEpitope the distinct surface features of an antigen its antigenic determinant Antigenic molecules normally large biological polymers usually present surface features that can act as points of interaction for specific antibodies Any such feature constitutes an epitope Most antigens have the potential to be bound by multiple antibodies each of which is specific to one of the antigen s epitopes Using the lock and key metaphor the antigen can be seen as a string of keys epitopes each of which matches a different lock antibody Different antibody idiotypes each have distinctly formed complementarity determining regions Allergen A substance capable of causing an allergic reaction The detrimental reaction may result after exposure via ingestion inhalation injection or contact with skin Superantigen A class of antigens that cause non specific activation of T cells resulting in polyclonal T cell activation and massive cytokine release Tolerogen A substance that invokes a specific immune non responsiveness due to its molecular form If its molecular form is changed a tolerogen can become an immunogen Immunoglobulin binding protein Proteins such as protein A protein G and protein L that are capable of binding to antibodies at positions outside of the antigen binding site While antigens are the target of antibodies immunoglobulin binding proteins attack antibodies T dependent antigen Antigens that require the assistance of T cells to induce the formation of specific antibodies T independent antigen Antigens that stimulate B cells directly Immunodominant antigens Antigens that dominate over all others from a pathogen in their ability to produce an immune response T cell responses typically are directed against a relatively few immunodominant epitopes although in some cases e g infection with the malaria pathogen Plasmodium spp it is dispersed over a relatively large number of parasite antigens 11 Antigen presenting cells present antigens in the form of peptides on histocompatibility molecules The T cells selectively recognize the antigens depending on the antigen and the type of the histocompatibility molecule different types of T cells will be activated For T cell receptor TCR recognition the peptide must be processed into small fragments inside the cell and presented by a major histocompatibility complex MHC 12 The antigen cannot elicit the immune response without the help of an immunologic adjuvant 13 Similarly the adjuvant component of vaccines plays an essential role in the activation of the innate immune system 14 15 An immunogen is an antigen substance or adduct that is able to trigger a humoral innate or cell mediated immune response 16 It first initiates an innate immune response which then causes the activation of the adaptive immune response An antigen binds the highly variable immunoreceptor products B cell receptor or T cell receptor once these have been generated Immunogens are those antigens termed immunogenic capable of inducing an immune response 17 At the molecular level an antigen can be characterized by its ability to bind to an antibody s paratopes Different antibodies have the potential to discriminate among specific epitopes present on the antigen surface A hapten is a small molecule that can only induce an immune response when attached to a larger carrier molecule such as a protein Antigens can be proteins polysaccharides lipids nucleic acids or other biomolecules 4 This includes parts coats capsules cell walls flagella fimbriae and toxins of bacteria viruses and other microorganisms Non microbial non self antigens can include pollen egg white and proteins from transplanted tissues and organs or on the surface of transfused blood cells Sources EditAntigens can be classified according to their source Exogenous antigens Edit Exogenous antigens are antigens that have entered the body from the outside for example by inhalation ingestion or injection The immune system s response to exogenous antigens is often subclinical By endocytosis or phagocytosis exogenous antigens are taken into the antigen presenting cells APCs and processed into fragments APCs then present the fragments to T helper cells CD4 by the use of class II histocompatibility molecules on their surface Some T cells are specific for the peptide MHC complex They become activated and start to secrete cytokines substances that activate cytotoxic T lymphocytes CTL antibody secreting B cells macrophages and other particles Some antigens start out as exogenous and later become endogenous for example intracellular viruses Intracellular antigens can be returned to circulation upon the destruction of the infected cell Endogenous antigens Edit Endogenous antigens are generated within normal cells as a result of normal cell metabolism or because of viral or intracellular bacterial infection The fragments are then presented on the cell surface in the complex with MHC class I molecules If activated cytotoxic CD8 T cells recognize them the T cells secrete various toxins that cause the lysis or apoptosis of the infected cell In order to keep the cytotoxic cells from killing cells just for presenting self proteins the cytotoxic cells self reactive T cells are deleted as a result of tolerance negative selection Endogenous antigens include xenogenic heterologous autologous and idiotypic or allogenic homologous antigens Sometimes antigens are part of the host itself in an autoimmune disease 2 Autoantigens Edit An autoantigen is usually a self protein or protein complex and sometimes DNA or RNA that is recognized by the immune system of patients with a specific autoimmune disease Under normal conditions these self proteins should not be the target of the immune system but in autoimmune diseases their associated T cells are not deleted and instead attack Neoantigens Edit Neoantigens are those that are entirely absent from the normal human genome As compared with nonmutated self proteins neoantigens are of relevance to tumor control as the quality of the T cell pool that is available for these antigens is not affected by central T cell tolerance Technology to systematically analyze T cell reactivity against neoantigens became available only recently 18 Neoantigens can be directly detected and quantified 19 Viral antigens Edit For virus associated tumors such as cervical cancer and a subset of head and neck cancers epitopes derived from viral open reading frames contribute to the pool of neoantigens 18 Tumor antigens Edit Tumor antigens are those antigens that are presented by MHC class I or MHC class II molecules on the surface of tumor cells Antigens found only on such cells are called tumor specific antigens TSAs and generally result from a tumor specific mutation More common are antigens that are presented by tumor cells and normal cells called tumor associated antigens TAAs Cytotoxic T lymphocytes that recognize these antigens may be able to destroy tumor cells 18 Tumor antigens can appear on the surface of the tumor in the form of for example a mutated receptor in which case they are recognized by B cells 18 For human tumors without a viral etiology novel peptides neo epitopes are created by tumor specific DNA alterations 18 Process Edit A large fraction of human tumor mutations are effectively patient specific Therefore neoantigens may also be based on individual tumor genomes Deep sequencing technologies can identify mutations within the protein coding part of the genome the exome and predict potential neoantigens In mice models for all novel protein sequences potential MHC binding peptides were predicted The resulting set of potential neoantigens was used to assess T cell reactivity Exome based analyses were exploited in a clinical setting to assess reactivity in patients treated by either tumor infiltrating lymphocyte TIL cell therapy or checkpoint blockade Neoantigen identification was successful for multiple experimental model systems and human malignancies 18 The false negative rate of cancer exome sequencing is low i e the majority of neoantigens occur within exonic sequence with sufficient coverage However the vast majority of mutations within expressed genes do not produce neoantigens that are recognized by autologous T cells 18 As of 2015 mass spectrometry resolution is insufficient to exclude many false positives from the pool of peptides that may be presented by MHC molecules Instead algorithms are used to identify the most likely candidates These algorithms consider factors such as the likelihood of proteasomal processing transport into the endoplasmic reticulum affinity for the relevant MHC class I alleles and gene expression or protein translation levels 18 The majority of human neoantigens identified in unbiased screens display a high predicted MHC binding affinity Minor histocompatibility antigens a conceptually similar antigen class are also correctly identified by MHC binding algorithms Another potential filter examines whether the mutation is expected to improve MHC binding The nature of the central TCR exposed residues of MHC bound peptides is associated with peptide immunogenicity 18 Nativity Edit A native antigen is an antigen that is not yet processed by an APC to smaller parts T cells cannot bind native antigens but require that they be processed by APCs whereas B cells can be activated by native ones Antigenic specificity EditAntigenic specificity is the ability of the host cells to recognize an antigen specifically as a unique molecular entity and distinguish it from another with exquisite precision Antigen specificity is due primarily to the side chain conformations of the antigen It is measurable and need not be linear or of a rate limited step or equation 2 7 Both T cells and B cells are cellular components of adaptive immunity 2 4 See also EditAntigenic escape Antitoxin Conformational epitope Epitope Linear epitope Magnetic immunoassay Neutralizing antibody Original antigenic sin Paul Ehrlich Magic Bullet Polyclonal B cell response Priming immunology References Edit a b Antibody National Human Genome Research Institute US National Institutes of Health 2020 Retrieved 13 October 2020 a b c d e Immune system and disorders MedlinePlus US National Institute of Medicine 28 September 2020 Retrieved 13 October 2020 a b c d Antigen Cleveland Clinic 2023 Retrieved 23 May 2023 a b c d Abbas AK Lichtman A Pillai S 2018 Antibodies and Antigens Cellular and Molecular Immunology 9th ed Philadelphia Elsevier ISBN 9780323523240 OCLC 1002110073 Gallucci S Lolkema M Matzinger P November 1999 Natural adjuvants endogenous activators of dendritic cells Nature Medicine 5 11 1249 1255 doi 10 1038 15200 PMID 10545990 S2CID 29090284 Janeway Jr CA Travers P Walport M Shlomchik MJ 2001 Autoimmune responses are directed against self antigens Immunobiology The Immune System in Health and Disease 5th ed Elsevier Espana ISBN 9780815336426 OCLC 45708106 a b Antigenic characterization US Centers for Disease Control and Prevention 15 October 2019 Retrieved 13 October 2020 Strebhardt K Ullrich A June 2008 Paul Ehrlich s magic bullet concept 100 years of progress Nature Reviews Cancer 8 6 473 480 doi 10 1038 nrc2394 PMID 18469827 S2CID 30063909 Lindenmann J April 1984 Origin of the terms antibody and antigen Scandinavian Journal of Immunology 19 4 281 285 doi 10 1111 j 1365 3083 1984 tb00931 x PMID 6374880 S2CID 222200504 Male DK Roitt IM Brostoff J 2006 Immunology Elsevier Health Sciences p 10 ISBN 978 0323033992 Doolan DL Southwood S Freilich DA Sidney J Graber NL Shatney L Bebris L Florens L Dobano C Witney AA Appella E Hoffman SL Yates JR Carucci DJ Sette A August 2003 Identification of Plasmodium falciparum antigens by antigenic analysis of genomic and proteomic data Proceedings of the National Academy of Sciences of the United States of America 100 17 9952 57 Bibcode 2003PNAS 100 9952D doi 10 1073 pnas 1633254100 PMC 187898 PMID 12886016 Parham Peter 2009 The Immune System 3rd Edition p G 2 Garland Science Taylor and Francis Group LLC Gavin AL Hoebe K Duong B Ota T Martin C Beutler B Nemazee D December 2006 Adjuvant enhanced antibody responses in the absence of toll like receptor signaling Science 314 5807 1936 1938 Bibcode 2006Sci 314 1936G doi 10 1126 science 1135299 PMC 1868398 PMID 17185603 Janeway CA November 2013 Pillars article approaching the asymptote Evolution and revolution in immunology Cold spring harb symp quant biol 1989 54 1 13 Journal of Immunology 191 9 4475 4487 PMID 24141854 Gayed PM June 2011 Toward a modern synthesis of immunity Charles A Janeway Jr and the immunologist s dirty little secret The Yale Journal of Biology and Medicine 84 2 131 138 PMC 3117407 PMID 21698045 Parham Peter 2009 The Immune System 3rd Edition p G 11 Garland Science Taylor and Francis Group LLC Kuby Immunology 6th ed Macmillan 2006 p 77 ISBN 978 1 4292 0211 4 a b c d e f g h i Schumacher TN Schreiber RD April 2015 Neoantigens in cancer immunotherapy Science 348 6230 69 74 Bibcode 2015Sci 348 69S doi 10 1126 science aaa4971 PMID 25838375 Wang Q Douglass J Hwang MS et al November 2019 Direct Detection and Quantification of Neoantigens Cancer Immunology Research 7 11 1748 1754 doi 10 1158 2326 6066 CIR 19 0107 PMC 6825591 PMID 31527070 Retrieved from https en wikipedia org w index php title Antigen amp oldid 1173116906, wikipedia, wiki, book, books, library,

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