Summary
Laminin immunoreactivity is thought to be masked in formalin-fixed sections since proteolytic treatment is required to unmask it. We analyzed this masking with frozen and formalin-fixed human autopsy brains obtained at various postmortem periods. In unfixed, frozen sections, intense immunoreactivity was invariably detected in vascular walls of entire sections. When such sections were postfixed in formalin, immunoreactivity was not diminished even after prolonged fixation. In vibratome sections of brain fixed in formalin in situ, immunoreactivity varied with postmortem delay: in most cases, immunoreactivity was weak and restricted to superficial cortical layers. However, the extent of immunoreactivity increased with postmortem delay. Two cases fixed after prolonged postmortem periods revealed moderate immunoreactivity throughout the sections. We also investigated rat brains processed without postmortem delay. In unfixed frozen sections, immunoreactivity again was observed throughout the sections, independent of the length of any postfixation. In vibratome sections of fixed rat brain, immunoreactivity was restricted to the cutting margins of the brain blocks and around a trauma-induced cortical lesion, regardless of how long the blocks had been kept in fixative. Our data suggest that postmortem proteolysis accomplishes similar unmasking of laminin antigen as digestion on paraffin sections and that such unmasking can also be effected by proteolysis induced by damaging tissue during cryostat sectioning of fresh tissue.
This is a preview of subscription content, log in via an institution to check access.
Similar content being viewed by others
References
Borzman M (1978) Immunohistochemical analysis of formaldehyde- and trypsin- or pepsin-treated material. Acta Histochem (Jena) 63:251–260
Burns J, Dixon AJ, Woods JC (1980) Immunoperoxidase localization of fibronectin in glomeruli of formalin fixed paraffin processed renal tissue. Histochemistry 67:73–78
Ekblom P, Mittinen M, Rapola J, Foidart JM (1982) Demonstration of laminin, a basement membrane glycoprotein, in routinely processed formalin-fixed human tissue. Histochemistry 75:301–307
Foidart JM, Bere EW, Yaar M, Rennard SI, Gullino M, Martin GR, Katz SI (1980) Distribution and immunoelectron microscopic localization of laminin, a noncollagenous basement membrane glycoprotein. Lab Invest 42:336–342
Fox CH, Johnson FB, Whiting J, Roller PP (1985) Formaldehyde fixation. J Histochem Cytochem 33:845–853
Katz SI, Hertz KC, Yaoita H (1976) Herpes gestationis: immunopathology and characterization of the HG factor. J Clin Invest 57:1434–1441
McComb RD, Jones TR, Pizzo SV, Binger DD (1982) Specificity and sensitivity of immunohistochemical detection of factor VIII/von Willebrand factor antigen in formalin-fixed, paraffin-embedded tissue. J Histochem Cytochem 30:371–377
Mori S, Sternberger NH, Herman MM, Sternberger LA (1991) Leakage and neuronal uptake of serum protein in aged and Alzheimer brain: a postmortem phenomenon with antemortem etiology. Lab Invest 64:345–351
Sternberger LA (1986) Immunocytochemistry, 3rd edn. John Wilely & Sons, New York
Timple R, Rohde H, Gehron Roby P, Rennard SI, Foidart JM, Martin GR (1979) Laminin — a glycoprotein from basement membranes. J Biol Chem 254:9933–9937
Author information
Authors and Affiliations
Rights and permissions
About this article
Cite this article
Mori, S., Sternberger, N.H., Herman, M.M. et al. Variability of laminin immunoreactivity in human autopsy brain. Histochemistry 97, 237–241 (1992). https://doi.org/10.1007/BF00267633
Accepted:
Issue Date:
DOI: https://doi.org/10.1007/BF00267633