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Antigen and Antibody. By: Thadly Chandra Yestine Yuliantina. Antigen – Definition. Is any substance that causes your immune system to prompts the generation of antibodies
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Antigen and Antibody By: Thadly Chandra Yestine Yuliantina
Antigen – Definition • Is any substance that causes your immune system to prompts the generation of antibodies • Antigens can be proteins, polysaccharides, conjugates of lipids with : proteins (lipoproteins) and polysaccharides (glycolipids) • An antigen may be a foreign substance from the environment such as chemicals, bacteria, viruses, or pollen. • An antigen may also be formed within the body, as with bacterial toxins or tissue cells.
Antigen • The body recognizes antigens by the three-dimensional shapes or regions called antigenic determinants or epitopes. Properties that make molecules more effective antigens include: • Stable molecules, ie, molecules that assume and maintain a definite shape • Larger molecules with molecular masses between 5000 and 100,000 daltons • Molecules that are structurally complex, with distinctive shapes and novel subunit combiniations
Origin of Antigens Antigens can be classified in order of their class • Exogenous antigens • Endogenous antigens • Autoantigens
Exogenous antigens • Exogenous antigens are antigens that have entered the body from the outside, for example by inhalation, ingestion, or injection. • Exogenous antigens (inhaled, ingested, or injected) are taken up by antigen-presenting cells (APCs) • The immune system's response to exogenous antigens is often subclinical by endocytosis or phagocytosis.
Endogenous antigens • Endogenous antigens are antigens that have been generated within cells as a result of normal cell metabolism, or because of viral or intracellular bacterial infection.
Autoantigens • An autoantigen is usually a normal protein or complex of proteins (and sometimes DNA or RNA) that is recognized by the immune system of patients suffering from a specific autoimmune disease. • These antigens under normal conditions, not be targeted of the immune system, but due to mainly genetic and environmental factors, the normal immunological tolerance for such an antigen has been lost in these patients.
Antibody Structure • Antibodies are globular plasma proteins • They have sugar chains added to some of their amino acid residues. In other words, antibodies are glycoprotein • Produced by B-cell • Are antigen-specific • Bind and inactivate foreign particles • The basic functional unit of each antibody is an immunoglobulin
Y-shaped molecule Each antibody consists of four polypeptides - two heavy chains and two light chains connected by disulfide bonds, joined to form a "Y" shaped molecule.
Although the general structure of all antibodies is very similar, a small region at the tip of the “Y” varies greatly among different antibodies • This variable region, composed of 110-130 amino acids, allowing millions of antibodies with slightly different tip structures, or antigen binding sites • The variable region includes the ends of the light and heavy chains.
Each antibody binds to a specific antigen; an interaction similar to a lock and key
Antibody Isotypes • Antibodies can come in different varieties known as isotypes or classes. In placental mammals, there are five antibody isotypes known as IgA, IgD, IgE, IgG and IgM, based on their constant region structure and immune function
The antibody isotype of a B cell changes during cell development and activation • Immature B cells, which have never been exposed to an antigen, express only the IgM isotype in a cell surface bound form. • B cells begin to express both IgM and IgD when they reach maturity—the co-expression of both these immunoglobulin isotypes renders the B cell 'mature' and ready to respond to antigen • B cell activation follows engagement of the cell bound antibody molecule with an antigen, causing the cell to divide and differentiate into an antibody producing cell called a plasma cell • In this activated form, the B cell starts to produce antibody in a secreted form rather than a membrane-bound form. • Some daughter cells of the activated B cells undergo isotype switching, a mechanism that causes the production of antibodies to change from IgM or IgD to the other antibody isotypes, IgE, IgA or IgG, that have defined roles in the immune system.
Heavy Chain • Each heavy chain has two regions, the constant region and the variable region • The constant region is identical in all antibodies of the same isotype, but differs in antibodies of different isotypes. • The variable region of the heavy chain differs in antibodies produced by different B cells, but is the same for all antibodies produced by a single B cell
Light Chain • A light chain has two successive domains: one constant domain and one variable domain • Each antibody contains two light chains that are always identical
CDRs, Fv, Fab, ad Fc Regions • Some parts of an antibody have unique functions. The tips of the Y, for example, contain the site that bind antigen and, therefore, recognize specific foreign objects. This region of the antibody is called the Fab (fragment, antigen binding) • It is composed of one constant and one variable domain from each heavy and light chain of the antibody. The paratope is shaped at the amino terminal end of the antibody monomer by the variable domains from the heavy and light chains. • The part of an antibody that recognizes the epitope is called a paratope • The variable domain is also referred to as the FV region and is the most important region for binding to antigens. More specifically variable loops, each on the light (VL) and heavy (VH) chains are responsible for binding to the antigen. These loops are referred to as the Complementarity Determining Regions (CDRs) • The base of the Y plays a role in modulating immune cell activity. This region is called the Fc (Fragment, crystallizable) region, and is composed of two heavy chains that contribute two or three constant domains depending on the class of the antibody. • By binding to specific proteins the Fc region ensures that each antibody generates an appropriate immune response for a given antigen. • The Fc region also binds to various cell receptors, such as Fc receptors, and other immune molecules, such as complement proteins.
1. Fab region2. Fc region3. Heavy chain with one variable (VH) domain followed by a constant domain (CH1), a hinge region, and two more constant (CH2 and CH3) domains.4. Light chain with one variable (VL) and one constant (CL) domain5. Antigen binding site (paratope)6. Hinge regions.
Function • Antibodies contribute to immunity in three ways: • they prevent pathogens from entering or damaging cells by binding to them • they stimulate removal of pathogens by macrophages and other cells by coating the pathogen • they trigger destruction of pathogens by stimulating other immune responses such as the complement pathway
Antibody-Antigen Interaction • The interaction of the antibody with an antigen causes a change in shape of the antibody • May cause the exposure of another site which then is responsible for the various reactions elicited by the antibody to destroy the foreign substance. • The interaction of antibodies and antigens may produce a network type complex.
The variable regions shown as black or gray in the picture are the areas of the receptor site for the antigen.
NATURE OF ANTIGEN-ANTIBODY REACTIONS • Lock and Key Concept • The combining site of an antibody is located in the Fab portion of the molecule and is constructed from the hypervariable regions of the heavy and light chains • Non-covalent Bonds • The bonds that hold the antigen to the antibody combining site are all non-covalent in nature. These include hydrogen bonds, electrostatic bonds, Van der Waals forces and hydrophobic bonds. • Reversibility • Since antigen-antibody reactions occur via non-covalent bonds, they are by their nature reversible.