King Abdulaziz University Faculty of Science Department of Biochemistry Girls Section Immunochemistry Lab BIOC 446 Organized by lecturers: Omima Niazy and Wedam Alghazzawi Contents Lab # Experiment Page Immunochemistry history 1 2,3 Immunological Tests 2 Human Blood groups 5 3 Standard Curve of Immunoglobulin 7 Quantitative Perception Test 4 9,11 Immunochemical Assays 5 Determination of Fibrinogen 14 Purification of Immunoglobulin by Ion Exchange 6 17 Chromatography hCG Pregnancy test and Human Immunodeficiency Virus 7 24,25 Test 8 Enzyme-Linked Immunosorbent Assay 26 Ouchterlony Double Diffusion for Antigen and Antibody 9 29 Patterns 1 Definition: Immunochemistry (chemoimmunology) is studying the chemical reaction between antigens and antibodies that occur in immune system. History of immunoassays:  In 1884, Ilya Metchnikoff suggested that cells involved in defense of the body.  In 1940, evolution of diagnostic tests begun with measurements of enzymes in biological fluids by colorimetric using agglutination reaction and chemistry methods.  In the 1950s, Rosalyn Yalow and Solomon Berson developed the radio- immunoassay (RIA).  In the 1960s, using enzyme instead radio-isotopes for color generation. It called enzyme immunoassay (EIA). 2 It is involve the measurement of one or other of the components of the antibody- antigen system, namely, antibody, antigen and the immune complex. There are a very large number of assays possible with a given combination of antibody and antigen and some examples of those involving the quantitation of the immune complex are given below: 1) Recovery of immune complex A. Assay by weight B. Assay of volume (Immunocrit) C. Measurement of protein or nitrogen 2) Precipitation reactions in gel: A. Immuno single diffusion B. One dimension (Oudin ) C. Two dimension (Single radial immunodiffusion ) - Immuno double diffusion (Ouchterloni) - Immuno electrophoresis Immuno double diffusion ---- Voltage  Countercurrent electrophoresis Single radial immunodiffusion ---- Voltage Rocket electrophoresis 3) Complement fixation 4) Labelled antigen or antibody A. Radioimmunoassay Radioallergosorbent test :RAST Measure antigen-specific IgE in radioimmunoassay B. Agglutination Cells Haemaglutination Bacteria Latex 3 5) Enzyme linked immunoabsorbent assay Enzyme-linked immunoabsorbent Assay: ELISA Uses antigens & antibody Advantages: 1. Sensitive. 2. Economic. 3. Large numbers of tests are done in short time. 6) Light scattering A. Immunonephelometry B. Immunoturbidimetry C. Flow cytometry 7) Other A. Changes in viscosity B. Changes in sedimentation Direct C. Immunofluorescence Indirect Uses: detection of autoantibodies and antibodies to antigens of tissues & cells. Disadvantages: Cumbersome Advantages: A. Identify antibodies to several deferent antigens in a single test. B. Identify antigens on live cells. Fluorescent Activated Cell Sorter: FACS Measure fluorescence intensity of each (live stained) cell which are separated accordingly to their particular fluorescent brightness. The major differences between the assays are the sensitivities and the time taken to carry them out. As expected, the most sensitive methods are usually the most difficult technically and therefore the ones that can give the greatest error. Immunochemical are now used extensively in the biological sciences and some examples of those currently in use are given in the following series of experiments. 4 Principle: Blood consists of different types of cells floating in plasma. The types of cells are the red blood cells contain hemoglobin binding with oxygen; the white blood cells defending the body against infection; the platelets help the blood clotting and the plasma contains dissolved protein and salt. The differences in human blood type or blood group are based on the presence or absence of specific protein molecules called antigens and antibodies on red blood cells. Antigens are located on the surface of the red blood cells and the antibodies exist in the blood plasma. The blood groups in persons depend on what the persons inherited from their parents. In blood transfusions, the process of receiving blood from another type leads to the antibodies bind to the foreign antigens, causing dangerous clumping or agglutination of the blood. Therefore, the successful transfusion depends on matching antigens on the surface of the red blood cells between two persons. Rhesus factor (Rh factor). It was first discovered in the blood of Rhesus monkeys. The persons who have the antigen in their blood are called Rh positive and the persons who lack that protein are called Rh negative. For example, the Rh factor is an important in mother whose is Rh negative and her fetus whose blood is Rh positive that lead to the mother blood attack the fetus blood. AB0 blood grouping system There are four different kinds of blood groups: A, B, AB or 0 (null). Blood group A The person has A antigens on the surface of red blood cells and B antibodies generated in blood plasma. Receive from A and O blood groups Give to A and AB blood groups 5 Blood group B The person has B antigens on the surface of red blood cells and A antibodies generated in blood plasma. Receive from B and O blood groups Give to A and AB blood groups Blood group AB The person has A and B antigens on the surface of red blood cells and no A or B antibodies in blood plasma. Receive from all blood groups Give to AB blood group Blood group 0 The person does not have A and B antigens on the surface of red blood cells and A and B antibodies generated in blood plasma. Receive from O blood groups Give to all blood groups Rh+ blood The person has Rh+ antigens on the surface of red blood cells and no Rh- antibodies generated in blood plasma. Receive from Rh+ and Rh- blood groups Give to Rh+ blood group Rh- blood does not have antigens on the surface of red blood cells but it has Rh+ antibodies generated in blood plasma. Receive from Rh- blood group Give to Rh+ and Rh- blood groups Material:  Clean microscopic slide  Blood drops  Marker  Ani-A, Anti B and Anti-D antibodies reagents Methods: 1. Mark one end for A, other end for B, and the last end for D on the slide. 2. Add one drop of blood on each position of the marked. 3. Add one drop of Ani-A, Anti B and Anti-D antibodies reagents on each side respectively. 4. Mix each side with a toothpick and spread each mixture slightly. 5. Observe if any agglutination for red blood cells. 6 Principle: Immunoglobulins (Ig) are a glycoprotein produced by B-cells in immune system in response to bacteria, viruses, or cancer cells. The five major types of Immunoglobulins are IgA, IgG, IgM, IgE, and IgD. Gamma globulin (IgG) is a type of immunoglobulin can be isolated from human blood and injected for passive immunization against some diseases like hepatitis. Here in this experiment, we will quantify the protein by Biuret reagent. Increasing quantities of γ-globulin are assayed by measuring the extinction at 540 nm. Materials (Preparation for 100 students):  Isolated γ-globulin.  D.W.  Biuret reagent  Spectrophotometer  Vortex  Incubator  Five test tubes  Pipette (1ml) Procedure: Tube Blank 1 2 3 4 γ-globulin (ml) - 0.25 0.5 0.75 1 H O (ml) 1 0.75 0.5 0.25 - 2 Biuret (ml) 1.5 1.5 1.5 1.5 1.5 Vortex all tubes and incubate at 37°C for 15 min. Read the absorbance of each tube at 540 nm. 7 Result Sheet Lab partners: ------------------------------- Standard concentration: _____________ A. Calculate the different concentrations of proteins and read the absorbance at 540 nm for each one. _____________________________________________________________________ _____________________________________________________________________ _____________________________________________________________________ _____________________________________________________________________ _____________________________________________________________________ _____________________________________________________________________ B. Fill the below table Concentration Tube # Absorbance (mg/ml) C. Plot a standard curve of the absorbance against the concentration of γ-globulin. 8 Functional assays: Biological fluids contain a complex mixture of proteins. There are many assay systems for assaying a specific protein by reacting with that protein such as antibodies that react with specific protein so that immunochemical techniques are accurate and highly specific. Currently there are a number of assay systems depend on the formation of an immune complex between the antibody and the antigen. All antigen-antibody reaction is reversible and a typical 'titration curve' refers to increasing amount of antigen added to a fixed concentration of antibody as below figures. Be clearly to identify the antigen excess region if the results are not to be misinterpreted. Figure 1: A precipitation curve for a system of one antigen and its antibodies. 9