General principle of immunoassay Theoretical basis and optimization of immunoassay.pptx
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Unlock the mysteries of immunoassays with this comprehensive PowerPoint presentation. Delve into the fundamental principles that underpin immunoassay techniques, exploring the theoretical foundations and key concepts. From antigen-antibody interactions to signal amplification strategies, this presen...
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General principle of immunoassay : Theoretical basis and optimization of immunoassay Presented by : Gadage Ashish Rambhau Guided by : Dr. Santosh Dighe F. Y. M. Pharm(Pharmacology) Head of Department(Pharmacology )
Content Introduction D efination Principle Component required for immunoassay Antibody Antigen Signal-generating lable (labelled)antigen Separation matrices General principle of immunoassay Classification of immunoassay Optimization of immunoassay Application
Introdution :- An immunoassay is a test that uses antibody complexes as a means of generating a measurable result. An antibody : antigen complex is also known as an immuno-complex. Immuno" referes to an immune response that causes the body to generate antibodies and "assay" referes to a test. Thus ; an immunoassay is test that utilizes immuno- complexing when antibodies and antigens are brought together.
Defination :- An immunoassay is a biochemical test that measures the presence or concentration of a macro molecule or a micro molecule in a solution through the use of an antibody or an antigen. The molecule to be detected by the Immunoassay is often referred as an "analyte”. Analytes in biological liquids such as serum or urine are Frequently measured using immunoassays for medical and research purposes.
Principle :- Immunoassays rely on the ability of an antibody to recognize and bind a specific macromolecule. In immunology the particular macromolecule bound by an antibody is referred to as an antigen and the area on an antigen to which the antibody binds are called an epitope. In some cases, an immunoassay may use an antigen to detect for the presence of antibodies, which recognize that antigen, in a Solution. In other word in some immunoassays, , the analyte may be an antibody rather than an antigen. In addition to the binding of an antibody to its antigen, the other key feature of all immunoassays is a means to produce a measurable signal in response to the binding.
Components Required for immunoaasy Antibodies Antigen signal-generating labels (labelled) antigen separation matrices
Antibody :- Antibody (Ab) also known as immuno globulin (Ig) is the large Y Shaped Protein produced by the body's immune system when it detects harmful substance called antigens like bacteria and viruses. The production of antibodies is a major Function of the immune system and is carried out by a type of white blood cell called a B cell (B lymphocyte). Structure of antibody: There are four polypeptide chains two identical heavy chains and two identical light chains connected by disulfide bonds. Light chain (L) Consists Polypeptides of about 22,000 Da and Heavy chain (H) Consists larger polypeptides of around 50.000 Da or more. An antibody is made up of a variable region and a constant region, and the region that changes to various structures depending on differences in antigens is the varible region, and region that has a constant structure is called the constant region.
Fig. Antibody
Paratope A Paratope also called an antigen-binding site, is a past of an antibody which recognizes and binds to an antigen. Epitope: The past of the antigen to which the paratope binds is called an epitope.
Types of antibody :- Polycolnal antibody Monoclonal antibody For immunoassay development, monoclonal antibodies are more Advantageous than polyclonal ones because they differ from polyclonal antibodies in that they are highly specific For a single epitope on a monovalent antigen. Antibody production - Polyclonal antibodies : If the agent is a Foreign to the animal the animal will develop antibodies to the agent and release these antibodies into its blood. After a few months, blood is removed from the animal and the antibodies produced are collected for use.
Antibodies produced in this Fashion are typically very heterogeneous and known as polyclonal antibodies. Recognize a number of different sites on the analyte (antigen) binding with a range of affinities Arise from several different lines of antibody-producing cells within the animal.
Antibody Production- monoclonal antibodies (m Ab) : Monoclonal antibodies differ Form polyclonal antibodies in that they are produced by a single cell line within the body. All monoclonal antibodies from the same cell line recognize the same site on an analyte and bind with an Identical binding affinity.
Antigen :- Antigen is a substance capable of Causing on immune response leading to the production of antibodies and are also the target to Which antibodies will bind. The area on an antigen to which the antibody binds is called an epitope . Signal Generating Labels :- A label is a molecule that will react as part of assay, so a change in signal can be measured in the blood : Reagent solution. All immunoassay requires the Use of labeled material in order to measure the amount of antigen or antibody Present. Example of Label include a radioactive compound that produce radiation, an enzyme that cause a changes of color in solution or a substance that produce light. The label can be applied during the manufacture of reagent to either the antibody or antigen
Separation matrices :- They are used for separation of the immune complexes that Formed as a result of immuno analytical (ag-ab) reactions Include Polyethylene glycol, charcoal, second antibody, microbeads or the most useful 96-well microwell plate. each well of the plate serves as a separate reaction tube. one compound of the reaction (ab or ag) is coated onto the Surface of the bottom of the Plate wells and the immune Complex is Formed on the surface of the wells.
General procedure for immunoassay :- When these immuno- analytical reagents are mixed and incubated the analyte is bound to the antibody Forming an immune complex. This complex is separated from the unbound reagent fraction by physical or chemical separation technique. Analysis is achieved by measuring the label activity (eg radiation, Fluoresence of enzyme) in either bound of Free reaction .
Classification of immunoassay :- Competative immunoassay Homogeneous Heterogenous 2. Non-competitive immunoassay
1. Competitive Immunoassay : These are reagent (Ag) excess Immunoassay. In this assay a fixed amount antibody and fixed amount labelled antigen and unlabeled antigen variable amount was taken. Here labelled and unlabeled antigen both competes with each other for binding to a fixed amount antibody. Homogeneous competitive Immunoassay In this, unlabeled antigen in a sample competes with labelled antigen to bind an antibody. Unbound ag do not need to be separated prior to measurement. The amount of unbound labelled antigen is measured. The amount of labelled unbound antigen is proportional to the amount of analyte in the sample. E.g. Enzyme multiplied immunoassay
b) H eterogeneous competitive Immunoassay : In this assay , Unlabeled antigen in a sample competes with labelled antigen to bind an antibody. The unbound antigen is separated or washed away, and the remaining labelled, bound analyte is measured E.g . ELISA
2. Non-competitive Immunoassay : These are antibody excess Immunossay. In this, fixed amount of antigen and a variable amount of unlabeled antibody and fixed amount of labelled antibody was taken. The unkown analyte in the sample bind with labelled antibodies. The unbound labelled antibodies are washed measured away and the bound labelled antibodies are measured. The intensity of the signal is directly Proportional to the amount unknown analyte. The amount of labelled antibody on the site is then measured It will be to the directly proportional Concentration of the analyte because labelled antibody will not bind if analyte is not Present in the unknown sample .
Optimization of immunoassay : Minimize background noise and promote higher specific signal There are variety of methods to promote a strong signal while minimizing nonspecific binding the background noise. use an efficient plate coating buffer to provide a stabilized coating of the antibody of antigen on the microtiters plate. use a blocking buffer to block assay wells. This blocking of unoccupied space in the plate well prevents nonspecific binding of sample and assay components and reduces the overall background signal. Using the proper sample diluents samples will dilute the samples to read within the Functional range, block nonspecific Conjugate binding .
Improve precision It is necessary to reduce plate to plate variability when prepared Immunoassay. Protein stabilizing buffers allow plates to be prepared in batches to be used over time. which increases consistency and Provides increased plate to Plate precision over extensive storage periods.
Increase assay reproducibility To increase the reproducibility of any custom ELISA or immunoassay, it is important to source reagents From a consistent and reliable supplier. Stabilize protein conjugates Stabilizing conjugates enables us to Store conjugated proteins and antibodies For Future use, prepare batches, ready-to use conjugate aliquots and reconstitute. lyophilized conjugates while preserving native protein Configuration and activity.
Increase shelf-life Using dependable stabilizing and blocking buffers to stabilize protein, allow us to store prepared microtiter plates. Depending on the type of protein properly prepared plates can be Stored under proper conditions For several months of even years if prepared using reliable reagents.
Application of immunoassay : These measures the presence or Concentration of macromolecule of a small molecule in a solution through the use of an antibody or an antigen. For example in analyte fluid urine and serum. These are used in analysis of metabolites which indicate disease diagnosis. These are used in sports anti-doping laboratories to test athletes. used in measurement of very low concentration of low molecular weight drugs. Drugs testing. used in bioequivalence studies drug discovery and pharmaceutical industries. Hormone testing (insulin in diabetic patients). Bacterial of viral testing. environmental testing (herbicides, Pesticides).
Reference :- Hans-Gerhard Vogel; Drug discovery and evaluation; pharmacology assay; volume 2, edition; pg. no. 1157 Robert A. Turner, Screening Methods on Pharmacology; Volume 2
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