Kodela Vani scite author profile

Despite the popularity of antigen-retrieval techniques, the precise molecular mechanism underlying the process remains enigmatic. We examined the molecular features underlying the loss of immunoreactivity following formalin fixation, with subsequent recovery by antigen retrieval. To do this, we first created a molecular model using short peptides that mimic the antibody-binding site of common clinical protein targets. The advantage of this model is that we know the amino acid sequence in and around the antibody-binding site. We observed that some, not all, of the peptides exhibited the formalin-fixation and antigen-retrieval phenomenon. Other peptides did not lose their ability to be recognized by antibody, even after prolonged incubation in formalin. A third, intermediate group exhibited the formalin-fixation and antigen-retrieval phenomenon only if another irrelevant protein was mixed with the peptide before fixation. Amino acid sequence analysis indicates that fixation and antigen retrieval are associated with a tyrosine in or near the antibody-binding site and with an arginine elsewhere, implicating the Mannich reaction as important in fixation and antigen retrieval.

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A Molecular Mechanism of Formalin Fixation and Antigen Retrieval

Sompuram

et al. 2004

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Molecular mechanisms of antigen retrieval: antigen retrieval reverses steric interference caused by formalin-induced cross-links

Bogen

Vani

Sompuram

2009

Biotechnic & Histochemistry

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The overwhelming majority of antibodies useful for formalin fixed, paraffin embedded (FFPE) tissues require antigen retrieval to reverse the effect of formalin fixation and re-establish immunoreactivity. How this reversal happens is poorly understood. We developed a new experimental model for studying the mechanism of formalin fixation and antigen retrieval. Epitope mapping studies on nine antibodies useful for FFPE tissues revealed that each consisted of a contiguous stretch of amino acids in the native protein (“linear epitope”). Small peptides representing the epitopes of antibodies to HER2, estrogen and progesterone receptors were attached covalently to glass microscope slides in a peptide array. Most peptides retained immunoreactivity after formalin fixation. Immunoreactivity was completely abrogated for all peptides, however, if an irrelevant large protein was present during formalin-induced cross-linking. We hypothesize that cross-linking the irrelevant protein to the peptide epitopes sterically blocked antibodies from bonding. Antigen retrieval dissociates irrelevant proteins and restores immunoreactivity. Because the epitopes for clinical antibodies require only primary protein structure, the fact that antigen retrieval probably denatures the secondary and tertiary structure of the protein is irrelevant. The same mechanism may occur in tissue samples subjected to formalin fixation and antigen retrieval.

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A Novel Quality Control Slide for Quantitative Immunohistochemistry Testing

Sompuram

Vani

Zhang

et al. 2002

J Histochem Cytochem.

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We introduce a novel quality control technology that may improve intra- and interlaboratory immunohistochemistry (IHC) standardization. The technology involves the creation of standardized antibody targets that are attached to the same slides as the patient sample. After IHC staining, the targets turn the same color as the stained cells or tissue elements. Unlike current clinical practice, our proposed targets are neither cells nor tissue sections. To create reproducible standards that are available in unlimited supply, we use short constrained peptides as antibody targets. These peptides are attached directly to the glass slide. We show that these peptides simulate the portion of the native antigen to which the antibody binds. They are useful in detecting subtle changes in IHC staining efficacy. Moreover, the peptides do not degrade after deparaffinization or antigen retrieval treatments. This technology may be valuable in creating nationally standardized controls to quantify IHC analytical variability.

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Antibodies Immunoreactive With Formalin-Fixed Tissue Antigens Recognize Linear Protein Epitopes

Sompuram

Vani

Hafer

et al. 2006

American Journal of Clinical Pathology

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It is not clearly understood why some monoclonal antibodies bind to their antigens informalin-fixed, paraffin-embedded tissue sections but others do not. To address this question, we analyzed the protein epitopes of 9 monoclonal antibodies that are immunoreactive after formalin fixation and antigen retrieval. We identified the antibody contact sites by using phage display and synthesized corresponding peptides derived from the GenBank database sequence that contain the predicted antibody binding sites. Our data indicate that all 9 antibodies bind to linear epitopes, ie, composed of contiguous amino acids. In addition, the amino acids proline, tyrosine, glutamine, and leucine are highly represented in these antibody contact sites. The epitopes tend to be mildly to moderately hydrophilic. These findings are the first detailed studies of antibody epitopes associated with antigen retrieval and suggest that antibodies must recognize linear sequences to bind after formalin fixation and antigen retrieval.

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Kodela Vani

A Molecular Mechanism of Formalin Fixation and Antigen Retrieval

A Molecular Mechanism of Formalin Fixation and Antigen Retrieval

Molecular mechanisms of antigen retrieval: antigen retrieval reverses steric interference caused by formalin-induced cross-links

A Novel Quality Control Slide for Quantitative Immunohistochemistry Testing

Antibodies Immunoreactive With Formalin-Fixed Tissue Antigens Recognize Linear Protein Epitopes

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