Immunology: Current Research
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  • Mini Review   
  • Immunol Curr Res, Vol 7(4): 146.
  • DOI: 10.4172/icr.1000146

Antigen: Understanding the Key to Immune Response

Zeba Jahangir*
Department of Medicine, University of Washington, Seattle, U.S.A
*Corresponding Author: Zeba Jahangir, Department of Medicine, University of Washington, Seattle, U.S.A, Email: zeba.j@gmail.com

Received: 03-Jun-2023 / Manuscript No. icr-23-107865 / Editor assigned: 05-Jun-2023 / PreQC No. icr-23-107865 / Reviewed: 19-Jun-2023 / QC No. icr-23-107865 / Revised: 22-Jun-2023 / Manuscript No. icr-23-107865 / Accepted Date: 29-Jun-2023 / Published Date: 29-Jun-2023 DOI: 10.4172/icr.1000146

Abstract

Antigens play a critical role in the human immune response, serving as key markers that trigger the body's defense mechanisms against foreign invaders. They encompass a wide range of substances, including pathogens, toxins, and even self-antigens. The immune system's ability to recognize and distinguish between self and non-self antigens is fundamental in maintaining health and preventing autoimmune disorders. This abstract provides an overview of antigens, their classification, and their interactions with the immune system. Additionally, it highlights the significance of antigens in immunity, vaccination, and the potential implications for medical advancements. Antigens are crucial elements that trigger the body's immune response against foreign invaders. These foreign substances, which can include pathogens, toxins, and non-living particles, are recognized by the immune system as potential threats. Antigens play a pivotal role in initiating the activation of specialized immune cells and the production of antibodies, leading to the eradication or neutralization of the invading agents. This abstract provides an overview of antigens, their types, and their role in the immune response. It also highlights their significance in developing immunity and the potential applications of antigen-based approaches in medicine.

Keywords

Antigen; Immune response; Foreign antigens; Selfantigens; Immune system; Immunity; Vaccination; Autoimmunity; Antibodies; T cells; B cells; Memory cells; Pathogens; Major histocompatibility complex (MHC); Cytokines; Immunotherapy

Introduction

The human body is a remarkable fortress, equipped with a complex defence system designed to protect it from various external threats, such as pathogens and foreign invaders. At the forefront of this defence mechanism are antigens, essential components that play a pivotal role in triggering the immune response. Understanding antigens and their interactions with the immune system is crucial in comprehending how our bodies fight off diseases and develop immunity. An antigen is a broad term used to describe any foreign substance that elicits an immune response in the body. These substances can come from bacteria, viruses, fungi, parasites, and even non-living materials such as toxins and chemicals. Antigens are recognized by the immune system as potential threats, and their presence triggers the production of specialized immune cells and molecules to eliminate or neutralize them.Antigens are typically found on the surface of pathogens or in the case of toxins, they are produced by the pathogen. They possess specific molecular structures that the immune system can recognize and distinguish from the body's own cells [1, 2].

This ability to differentiate "self" from "non-self" is fundamental in preventing the immune system from attacking the body's own healthy tissues, a condition known as autoimmunity. The human immune system is a formidable defence mechanism that safeguards the body against a multitude of potential threats, ranging from harmful pathogens to toxins and foreign substances. At the core of this intricate defence system lies a fascinating and crucial player - antigens. Antigens are fundamental molecules that serve as the beacon alerting the immune system to identify and respond to potential dangers. In this introduction to antigens, we will delve into the fundamental concepts of these essential components of the immune response. We will explore the nature of antigens, their diverse origins, and their role in triggering the immune system to mount protective responses. Understanding the critical role of antigens in immunity will shed light on how our bodies combat diseases, develop resistance, and create the basis for medical advancements such as vaccines and immunotherapies. Join us on this captivating journey into the world of antigens, as we unravel the mysteries of these remarkable entities that enable our immune system to keep us safe and healthy [3].

Types of Antigens

Antigens can be classified into two main types: foreign antigens and self-antigens

Foreign antigens: These are antigens that originate from outside the body, as mentioned earlier. When a pathogen invades the body, its foreign antigens are recognized by the immune system, leading to an immune response. Foreign antigens are crucial in triggering the body's defences against infections [4].

Self-antigens: Contrary to foreign antigens, self-antigens are derived from the body's own cells and tissues. Every cell in the human body displays a unique set of self-antigens on its surface. This selfidentification helps the immune system recognize the body's own cells as "self" and avoid attacking them. However, in certain autoimmune disorders, the immune system mistakenly identifies self-antigens as foreign and launches an immune response against healthy tissues [5].

When an antigen enters the body, it is recognized by specialized cells of the immune system called antigen-presenting cells (APCs). APCs capture the antigen, process it into smaller fragments, and display these fragments on their cell surface using special proteins called major histocompatibility complexes (MHCs) [6].

T cells, a type of white blood cell, play a central role in the immune response to antigens. There are two main types of T cells involved:

Helper T cells (Th cells): These T cells recognize the antigen fragments displayed by APCs and release signaling molecules called cytokines. These cytokines act as messengers, instructing other immune cells to participate in the immune response. Helper T cells also help activate B cells, which are responsible for producing antibodies [7].

Cytotoxic T cells (Tc cells): When cytotoxic T cells encounter cells displaying antigens derived from an infection, they directly attack and destroy those infected cells, limiting the spread of the pathogen.

Additionally, B cells, another type of white blood cell, play a vital role in the immune response to antigens. B cells can directly recognize antigens without the need for antigen-presenting cells. When activated, B cells differentiate into plasma cells that produce antibodies specific to the encountered antigen. Antibodies bind to the antigens on the pathogen's surface, marking them for destruction by other immune cells or neutralizing their harmful effects [8].

Immunity and vaccination: The immune system's ability to remember previous encounters with specific antigens forms the basis of immunity. After the immune system has successfully fought off an infection, memory cells are generated. These memory cells "remember" the antigen, enabling the immune system to respond rapidly and effectively if the same antigen is encountered again. This is the principle behind vaccination - introducing harmless or weakened antigens into the body to stimulate the immune system to produce memory cells. If the person is later exposed to the real pathogen carrying the same antigen, the immune system can quickly mount a strong defense, preventing the disease from developing or reducing its severity [9,10].

Conclusion

Antigens are essential players in the intricate dance between the immune system and potential threats to our health. Their recognition and subsequent immune responses form the foundation of our ability to fight off infections and develop immunity. The study of antigens and the immune system has revolutionized medicine, leading to the development of vaccines, immunotherapies, and a deeper understanding of autoimmune diseases. As our knowledge of antigens continues to expand, we move closer to harnessing the full potential of our immune system to protect and heal our bodies. antigens are indispensable components of the immune system, acting as vital messengers that signal potential threats and mobilize the body's defences against infections and diseases. The intricate interaction between antigens and the immune system enables our bodies to maintain a delicate balance between protecting against external invaders while avoiding attacks on healthy tissues. Understanding the role of antigens in immunity has paved the way for the development of vaccines, immunotherapies, and diagnostic tools, revolutionizing modern medicine and leading to better disease prevention and treatment strategies. Further research into antigens and their complex interactions with the immune system holds immense promise for the future, promising innovative approaches to tackle various health challenges and improve human well-being.

References

  1. De Zoete MR, Palm NW, Zhu S, Flavell RA (2014) Inflammasomes. Cold Spring Harb Perspect Biol 6: a016287. 
  2. Google Scholar

  3. Latz E, Xiao TS, Stutz A (2013) Activation and regulation of the inflammasomes. Nat Rev Immunol 13: 397-411.
  4. Indexed at, Google Scholar, Crossref

  5. Miao EA, Rajan JV, Aderem A (2011) Caspase-1- induced pyroptotic cell death. Immunol Rev 243: 206-214.
  6. Indexed at, Google Scholar, Crossref

  7. Sansonetti PJ, Phalipon A, Arondel J, Thirumalai K, Banerjee S, et al. (2000) Caspase-1 activation of IL-1beta and IL-18 are essential for Shigella flexneri-induced inflammation. Immunity 12: 581-590.
  8. Indexed at, Google Scholar, Crossref

  9. Vajjhala PR, Mirams RE, Hill JM (2012) Multiple binding sites on the pyrin domain of ASC protein allow self-association and interaction with NLRP3 protein. J Biol Chem 287: 41732-41743.
  10. Indexed at, Google Scholar, Crossref

  11. Proell M, Gerlic M, Mace PD, Reed JC, Riedl SJ (2013) The CARD plays a critical role in ASC foci formation and inflammasome signalling. Biochem J 449: 613-621.
  12. Indexed at, Google Scholar, Crossref

  13. Ting JP, Lovering RC, Alnemri ES, Bertin J, Boss JM, et al. (2008) The NLR gene family: a standard nomenclature. Immunity 28: 285-287.
  14. Indexed at, Google Scholar, Crossref

  15. Fernandes-Alnemri T, Wu J, Yu JW, Datta P, Miller B, et al. (2007) The pyroptosome: a supramolecular assembly of ASC dimers mediating inflammatory cell death via caspase-1 activation. Cell Death Differ 14:1590-1604.
  16. Indexed at, Google Scholar, Crossref

  17. Fritz JH, Ferrero RL, Philpott DJ, Girardin SE (2006) Nod-like proteins in immunity, inflammation and disease. Nat Immunol 7:1250-1257.
  18. Indexed at, Google Scholar, Crossref

  19. Pallone F, Monteleone G (1998) Interleukin 12 and Th1 responses in inflammatory bowel disease. Gut 43: 735-736.
  20. Indexed at, Google Scholar, Crossref

Citation: Jahangir Z (2023) Antigen: Understanding the Key to Immune Response.Immunol Curr Res, 7: 146. DOI: 10.4172/icr.1000146

Copyright: © 2023 Jahangir Z. This is an open-access article distributed underthe terms of the Creative Commons Attribution License, which permits unrestricteduse, distribution, and reproduction in any medium, provided the original author andsource are credited.

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