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Principle of Immunohistochemistry

Principle of Immunohistochemistry. Immunohistochemical staining light microscope Imaged by color development Cryosection or paraffin-embedded section Immunofluorescent staining immunofluorescent microscope Imaged by flourochrome excitation Cryosection or cultured cells .

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Principle of Immunohistochemistry

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  1. Principle of Immunohistochemistry • Immunohistochemical staining • light microscope • Imaged by color development • Cryosection or paraffin-embedded section • Immunofluorescent staining • immunofluorescent microscope • Imaged by flourochrome excitation • Cryosection or cultured cells

  2. J Histochem. Cytochem. 2006 54:371-74 Carnoy’s solution Glutaraldehyde 1day 336 days 1day 336 days Glutaraldehyde: 15.5ml 25% GA+12.5ml phosphate buffer +dH20 to 100ml Carnoy’s solution: 60ml aboslute ETOH+30ml CHCl4+ 10ml 100% Acetic acid

  3. Effect of fixation on tissues 4% phosphate buffered formalin FGA 28days Mt DNA TC11 56days TC11 84 days

  4. Effect of fixation on tissues

  5. Specificity control for IHCControls for the specificity of an antibody are most important for the correct interpretation of its localization in cells and tissues • Absorption control antibody mixed with the protein or peptide used to generate the antibody, with the objective of eliminating the binding of the antibody to the protein in the tissue Drawback: determines only the specificity of the antibody for the incubating protein or peptide and does not prove the specificity of the antibody for the protein in the tissue

  6. Specificity control for IHCControls for the specificity of an antibody are most important for the correct interpretation of its localization in cells and tissues • Specificity of the antibody 1. determined by showing specific reaction with the peptide or protein used for immunization with highly sensitive methods other than IHC → immunoblot →immunoprecipitation 2. details of antibody generation sequence of amino acids used, species from which the immunogen obtained, isotype of immunoglobulin generated

  7. Specificity control for IHCControls for the specificity of an antibody are most important for the correct interpretation of its localization in cells and tissues • Specificity of the IHC method 1. labeling is specifically due to the primary antibody → normal serum control → a known unreactive antibody control → nonspecific binding control 2.confirmation of Ab specificity with tissues (cells) containing the protein of interest

  8. Definition: predominantly (originally) defined as a high-temperature heating method to recover the antigenicity of tissue section that had been masked by formalin fixation • Purpose: amplification in pre-detection phase by reduction of the detection thresholds of immunostaining (increasing sensitivity) and retrieval of some antigens

  9. Mechanism of action 1. release calcium from the cage-like calcium complex formation with proteins in formalin-fixed tissue 2. lossening of breaking of the crosslinkage induced by formalin fixation

  10. Application paraffin-embedded section, plastic embedded tissues, celloidin-embedded tissues, non-embedded tissue slices, cell smear preparations, ISH, Tunnel, FISH • Caution 1. not all antigen modified by formalin can be restroed using conventional AR protocols 2. high temperature may induce a negative result of IHC staining 3. pH value of the AR solution

  11. Microwave Vacuum Histoprocessor

  12. AR for FISH

  13. Principle of Immunohistochemistry • Immunohistochemical staining • light microscope • Imaged by color development • Cryosection or paraffin-embedded section • Immunofluorescent staining • immunofluorescent microscope • Imaged by flourochrome excitation • Cryosection or cultured cells

  14. Light Microscope 1. Bright-field microscope 2. Dark-field microscope It is different form the bright field one in the condenser lens function and is useful for viewing particles far below the limits of bright light resolution by darkening the background. 3. Phase contrast microscope With a specifically designed condenser lens, it can be used to examine living cells and unstained tissue by utilizing differences in the diffraction index of cell or tissue component. 4. Differential interference microscope Using Normaski optics, it is useful for surface examination of the object. 5. Fluorescence microscope It is equipped with an ultraviolet light source to detect tissue autofluorescence or fluorescence-labeled components of the tissue. 6. Confocal scanning microscope It is designed to combine light microscope components, fitted with fluorescence equipment and a scanning system, with a computer system to image the specimen in very thin optical sections by subtracting out-of-focus regions, and even create an 3-D image through stacking a series of images at varying depths. 7. Ultraviolet microscope With UV light source, images are viewed through photographic records rather than an ocular. 8. Polarizing microscope It is useful for detecting crystalline substances and well-ordered fibrous molecules due to the result of birefringence.

  15. Phase contrast microscope

  16. Differential interference microscope

  17. Principle of Immunofluorescent microscopic staining

  18. Double immunofluorescence of Pinin and cytokeratin ( Ouyang and Sugrue, JCB 1996)

  19. Triple immunofluorescent staining of mitotic spindle

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