Herman Volkers

Simultaneous application of in situ DNA hybridization and immunohistochemistry on one tissue section.

SummaryCombined application of a non-radioactivein situ DNA hybridization procedure and the immunoperoxidase technique on one tissue section is described. Of six potential protocols, only one proved to be successful. First, the immunohistochemical procedure including visualization of enzyme activity is performed; thein situ DNA hybridization protocol is then applied. Using this protocol, several antigens, detected with monoclonal antibodies, and target DNAs, detected by using biotinylated human cytomegalovirus or human papilloma virus type 16 DNA probes, could be distinguished by their peroxidase activity (brown precipitate) and alkaline phosphatase activity (purple—blue precipitate) respectively. The method allows immunophenotyping of virus-infected cells as well as simultaneous visualization of two viral parameters. This technique has important implications for research and diagnostic purposes.

Combined beta-galactosidase and immunogold/silver staining for immunohistochemistry and DNA in situ hybridization.

A combination of beta-galactosidase enzyme and the immunogold/silver staining method was studied for evaluation of double-staining experiments. Applications are shown for immunohistochemical double staining using two monoclonal antibodies and for combined immunohistochemistry and DNA in situ hybridization in one tissue section. The following advantages for the present double-staining method were evaluated: superior sensitivity of the immunogold/silver staining method for at least one epitope, which also allows detection of biotinylated DNA probes. The structure of the indolyl precipitate after revelation of beta-galactosidase activity did not show a concealing effect during a sequential double-staining method, as compared with the visualization of peroxidase with diaminobenzidine. These factors, and the sharply contrasting colored reaction products of beta-galactosidase (blue-green) and the immunogold/silver staining method including silver enhancement (brown-black), allow clear distinction of mixed-stained cell constituents.

Combined histochemical and biochemical investigation to the reliability of the demonstration of arylsulphatase activity in cryostat sections.

SummaryThe reliability of the enzyme histochemical technique, for the demonstration of arylsulphatase activity, using 6-bromo-2-naphthylsulphate as a substrate, is biochemically tested by using partly purified lysosome and microsome preparations from fresh human placenta tissue. Microsomes from frozen placenta with an arylsulphatase deficiency and lysosomes from rat liver, are also investigated. For the biochemical test methods, 6-bromo-2-naphthylsulphate and p-nitrocatecholsulphate are used as substrates. Under similar reaction conditions, varying the pH of the incubation medium and adding inhibitors or activators, the histochemical and biochemical reactions are compared. The results of this study whow that the enzyme histochemical technique — except for some limitations — is suitable for the demonstration of microsomal arylsulphatase in cryostat sections.

Microwave irradiation in label-detection for diagnostic DNA-in situ hybridization

SummaryA DNA-in situ hybridization protocol was adapted for application to sections of routinely processed paraffin embedded material. This protocol was developed previously for detecting DNA-virus infected cells in whole cell preparations and employs biotinylated DNA as probe. Three different biotin detection methods were optimized and applied. The first uses streptavidin and a biotinylated complex of alkaline phosphatase, the second consists of an immunogold-silver staining, and the third of a peroxidase technique using a silver amplification. The alkaline phosphatase method was the most rapid, and as sensitive as the immunogold-silver staining. The peroxidase method was the most sensitive. Microwave irradiation was applied to the different incubation steps of these three detection methods. Short incubations with microwave irradiation gave very poor results when peroxidase labelled antibodies were used. Short incubation with microwave irradiation gave results comparable to those obtained with conventional incubations, when streptavidin, antibiotin, complexed alkaline phosphatase, or gold labelled goat antirabbit were used. It was thus shown that microwave irradiation creates the possibility of a very rapid label-detection for nonradioactive DNA-in situ hybridization.