Summary
Polymerase chain reaction (PCR) in situ is a new technique which promises to enhance considerably our ability to detect a few copies of target nucleic acid sequences in fixed tissues and cells. It has an enormous potential for application in diagnostic histopathology of viral diseases and in the study of gene expression. PCR in situ is, however, technically difficult, and amplification of the target DNA is only 30–300 fold. In this article we present an overview of PCR in situ techniques used to amplify both DNA and RNA targets (RT-PCR in situ). We also identify problems which can reduce the efficiency of the technique or which can give rise to false-positive results. They include (1) the inhibitory effects of cross-linking of histones to DNA or PCR amplification, (2) abstraction of PCR reagents by tissue-bonding agents which are used to coat glass slides, (3) poor denaturation of target DNA and subsequent DNA renaturation due to extensive cross-linking of histones to DNA, or because of incorrect temperature regulation of thermal cyclers, (4) false-positive results which arise from end-labelling of DNA strand breaks by Taq polymerase, and (5) diffusion of PCR products into and out of cells leading to false-positive results.
We present some of the approaches that have been used to overcome some of these difficulties and suggest new avenues for investigation to improve this technique further.
This is a preview of subscription content, log in via an institution to check access.
Similar content being viewed by others
References
ansari, b., cates, p. j., greenstein, d. & hall, p.a. (1993) In-situ end-labelling detects DNA strand breaks in apoptosis and other physiological and pathological states. J. Pathol. 170, 1–8.
bagasara, o., hauptman, s. p., lischner, h. w., sachs, m. & pomerantz, r. j. (1992) The detection by in situ polymerase chain reaction of provirus in mononuclear cells of certain individuals infected with HIV-1. N. Engl. J. Med. 326, 1385–91.
bagasara, O., Seshamma, T., Oakes, J. W. & pomerantz, R. J. (1993a) High percentage of CD4 positive lymphocytes harbour the HIV-provirus in the blood of certain infected individuals. AIDS 7, 1419–25.
bagasara, o., seshamma, t. & pomerantz, r. j. (1993b) Polymerase chain reaction in situ: intracellular amplification and detection of HIV-1 proviral DNA and other specific genes. J.Immunol. Meth. 158, 131–45.
braga, v. m. m. & gendler, s. j. (1994) Co-amplification of two cDNAs in RT-PCR can alter the yield of both products. Biotechniques 17, 228–30.
ben-Ezra, j., johnson, d. a., rossi, j., cook, n. & Wu, a. (1991) Effect of fixation on the amplification of nucleic acids from paraffin-embedded material by the polymerase chain reaction. J. Histochem. Cytochem. 39, 351–4.
chen, r. h. & fuggle, s. v. (1993) In-situ cDNA polymerase chain reaction. A novel technique for detecting mRNA expression. Am. J. Pathol. 143, 1527–34.
chiu, k. p., cohen, s. h., morris, d. w. & jordan, g. w. (1992) Intracellular amplification of proviral DNA in tissue sections using the polymerase chain reaction. J. Histochem. Cytochem. 40, 333–41.
chou, q., russell, m., birch, d. e., raymond, j. & block, w. (1992) Prevention of pre-PCR mis-priming and primer dimerization improves low-copynumber amplifications. Nucleic Acids Res. 20, 1717–23.
crisan, d. & mattson, j. c. (1993) Retrospective DNA analysis using fixed tissue specimens. DNA Cell Biol. 12, 455–64.
cox, m. m. & lehman, i. r. (1981) Renaturation of DNA: a novel reaction of histones. Nucleic Acids Res. 9, 389–400.
dayton, m. a., nahreini, p. & srivastava, a. (1989) Augmented nuclease activity during cellular senescence in-vitro. J. Cell Biochem. 39, 75–85.
d'Aquila, r. t., bechtel, l. j., videler, j. a., eron, j. j., gorczyca, p. & kaflan, j. c. (1991) Maximizing sensitivity and specificity of PCR by pre-amplification heating. Nucleic Acids Res. 19, 3749.
doenecke, d. (1978) Digestion of chromosomal proteins in formaldehyde treated chromatin. Hoppe Seylers Z. Physiol. Chem. 359, 1343–52.
embleton, m. j., gorochov, g., jones, p. t. & Winter, g. (1992) In-cell PCR from mRNA: and linking the rearranged immunoglobin heavy and light V-genes within single cells. Nucleic Acids Res. 20, 3831–7.
embretson, j., zupancic, m., beneke, j., till, m., Wolinsky, s., ribas, j. l., burke, a. & haase, a. t. (1993) Analysis of human immunodeficiency virus-infected tissues by amplification and in situ hybridization reveals latent and permissive infections at single-cell resolution. Proc. Natl Acad. Sci. USA 90, 357–61.
enright, h. u., millar, w. j. & hebbel, r. p. (1992) Nucleosomal histone protein protects DNA from iron-mediated damage. Nucleic Acids Res. 20, 3341–6.
forsthoefal, K. F., Papp, A. C., Snyder, P. J. & prio, T. W. (1992) Optimization of DNA extraction from formalin fixed tissue and its clinical application in Duchenne muscular dystrophy. Am. J. Clin. Pathol. 98, 98–104.
fehsel, k., kolb-Bachofen, v. & kolb, h. (1992) Analysis of TNF-alpha-induced DNA strand breaks at the single cell level. Am. J. Pathol. 139, 251–4.
gosden, j. & hanratty, d. (1993) PCR in situ: a rapid alternative to in situ hybridization for mapping short, low copy number sequences without isotopes. Biotechniques 15, 78–80.
grafstrom, r. c., fornace, a. j. r. & harris, c. c. (1984) Repair of DNA damage caused by formaldehyde in human cells. Cancer Res. 44, 4323–7.
greer, c. e., peterson, s. l., kiviat, n. b. & manos, m. m. (1991a) PCR amplification from paraffin-embedded tissues. Effects of fixative and fixation time. Am. J. Clin. Pathol. 95, 117–24.
greer, c. e., lund, j. k. & manos, m. m. (1991b) PCR amplification from paraffin-embedded tissues: recommendations on fixatives for long-term storage and prospective studies. PCR Meth. Appl. 1, 46–50.
gustafson, c. e., alm, r. a. & trust, t. j. (1993) Effect of heat denaturation of target DNA on the PCR amplification. Gene 123, 241–4.
haase, a. t., retzel, e. f. & staskus, k. a. (1990) Amplification and detection of lentiviral DNA inside cells. Proc. Natl Acad. Sci. USA 87, 4971–5.
herrington, c. s. & mcgee, j. o. d. (1992) Diagnostic Molecular Pathology. A Practical Approach, Vol 1, pp. 205–19. Oxford: IRL Press.
iseki, s. (1986) DNA strand breaks in rat tissues as detected by in situ nick translation. Exp. Cell Res. 167, 311–26.
jackson, v. (1978) Studies on histone organization in the nucleosome using formaldehyde as a reversible cross-linking agent. Cell 15, 945–54.
jackson, v. (1988) Deposition of newly synthesized histones: hybrid nucleosomes are not tandemly arranged on daughter strands. Biochemistry, 27, 2109–20.
jackson, d. p., lewis, f. a., taylor, g. r., boylston, a. w. & quirke, p. (1990) Tissue extraction of DNA and RNA and analysis by the polmerase chain reaction. J. Clin. Pathol. 43, 499–504.
jinno, y., yoshiura, k. & niikawa, n. (1990) Use of psoralen as extinguisher of contaminated DNA in PCR. Nucleic Acids Res. 18, 6739.
kaplan, j. g., brown, d. l., chaly, n., greer, w. l., prasad, k. v., severini, a. & sahai, b. m. (1987) Structural and evolutionary implications of the packaging of DNA for differentiation and proliferation in the lymphocyte. J. Mol. Evol. 26, 173–9.
kellogg, d. e., rybalkin, i., chen, s., mukhamedong, n., vlasik, t., siebert, p.d. & chenchik, a. (1994) Taq Start Antibody. ‘Hot Start’ PCR facilitated by a neutralizing monoclonal antibody directed against Taq DNA polymerase. Biotechniques 16, 1134–7.
koch, j., hindkjaer, j., mogensen, j., kolvraa, s. & bolund, l. (1991) An improved method for chromosome-specific labelling of alpha satellite DNA in situ by using denatured double-stranded DNA probes as primers in a primed in situ labelling (PRINS) procedure. Genet. Anal. Tech. Appl. 8, 171–8.
komminoth, p. & long, a. a. (1993) In-situ polymerease chain reaction. An overview of methods, applications and limitations of a new molecular technique. Virchows Arch B Cell Pathol. 64, 67–73.
komminoth, p., long, a. a., ray, r. & Wolfe, h. j. (1992) In situ polymerase chain reaction detection of viral DNA, single-copy genes, and gene rearrangements in cell suspensions and cytospins. Diagn. Mol. Pathol. 1, 85–97.
labrecque, l. g. (1992) In situ hybridisation of EBV DNA-DNA hybrids using wet heat in polypropylene containers. J. Clin. Pathol. 45, 1099–104.
lew, a. m. & kelly, j. (1991) Capture of chromosomal DNA by anti-histone antibodies for PCR. Nucleic Acids Res. 19, 3459.
long, a. a., komminoth, p., lee, e. & Wolfe, h. j. (1993) Comparison of indirect in situ polymerase chain reaction in cell preparations and tissue sections. Histochemistry 99, 151–62.
marguet, e. & forterre, p. (1994) DNA stability at temperatures typical for hyperthermophiles. Nucleic Acids Res. 22, 1681–6.
moerkerk, p. t., kessels, h. j., ten-Kate, j., de-Goeij, a. f. p.mm. & bosman, f. t. (1990) Southern and dot blot analysis of DNA from formalin-fixed, paraffin-embedded tissue samples from colonic carcinomas. Virchows Arch. B Cell. Pathol. 58, 351–5.
moran, r., darzynkiewicz, z., staiano-Coico, l. & melamed, m. r. (1985) Detection of 5-bromodeoxyuridine (BrdUrd) incorporation by monoclonal antibodies: role of the DNA denaturation step. J. Histochem. Cytochem. 33, 821–7.
nuovo, g. j. (1992) PCR in-situ Hybridization, Protocols and Applications. New York: Raven Press.
nuovo, g. j., gallery, f. & macconnell, p. (1992) Detection of amplified HPV 6 and 11 DNA in vulvar lesions by hot start PCR in situ hybridization. Mod. Pathol. 5, 444–8.
nuovo, g. j., gallery, f. & macconnell, p. & bloch, w. (1993) Importance of different variables for enhancing in situ detection of PCR-amplified DNA. PCR Meth. Appl. 2, 305–12.
nuovo, g. j., gallery, f. & macconnell, p. & braun, a. (1994) In-situ detection of polymerase chain reaction amplified HIV-1 nucleic acids and tumour necrosis factor - α RNA in the central nervous system. Am. J. Pathol. 144, 659–66.
panaccio, m., georgesz, m. & lew, a. m. (1993) FoLT PCR: a simple PCR protocol for amplifying DNA directly from whole blood. Biotechniques 14, 238–43.
patel, v. g., shum-Siu, a., heniford, b. w., Wieman, t. j. & hendler, f. j. (1994) Detection of epidermal growth factor receptor mRNA in tissue sections from biopsy specimens using in-situ polymerase chain reaction. Am. J. Pathol 144, 7–14.
patterson, b. k., till, m., otto, p., goolsby, c., furtado, m. r., mcbride, l. j. & Wolinsky, s. m. (1993) Detection of HIV-1 DNA and messenger RNA in individual cells by PCR-driven in situ hybridization and flow cytometry. Science260, 976–9.
pearse, a. g. e. (1980) Histochemistry: Theoretical and Applied, Vol.1, 4th edn, pp. 97–157. Edinburgh: Churchill Livingstone.
puchtler, h. & meloan, s. n. (1985) On the chemistry of formaldehyde fixation and its effects in immunohistochemical reactions. Histochemistry 82, 201–4.
raap, a. k., marijnen, j. g. j., vrolijk, j. & van Derploeg, m. (1986) Denaturation, renaturation, and loss of DNA during in situ hybridization procedures. Cytometry 7, 235–42.
sallstrom, j. f., zehbe, i., alemi, m. & Wilander, e. (1993) Pitfalls of in-situ polymerase chain reaction (PCR) using direct incorporation of labelled nucleotides. Anticancer Res. 13, 1153.
snyder, r. d. & vanhouten, b. (1986) Genotoxicity of formaldehyde and an evaluation of its effects on the DNA repair process in human diploid fibroblasts. Mutat. Res. 165, 21–30.
solomon, m. j. & varshavsky, a. (1985) Formaldehyde-mediated DNA-protein crosslinking: a probe for in-vivo chromatin structures. Proc. Natl Acad. Sci. USA 82, 6470–4.
spann, w., pachmann, k., zabnienska, h. & pielmeier, a. (1991) In situ amplification of single copy gene segments in individual cells by the polymerase chain reaction. Infection 19, 242–4.
staeker, h., cammer, m., rubinstein, r., & van DeWater, t. (1994) A procedure for RT-PCR amplification of mRNAs on histological specimens. Biotechniques 16, 76–80.
staskus, k. a., couch, l., bitterman, p., retzel, e. f., zupancic, m., list, j. & haase, a. t. (1991) In situ amplification of visna virus DNA in tissue sections reveals a reservoir of latently infected cells. Microb. Pathog. 11, 67–6.
teo, c. g. & griffin, b. e. (1990) Visualization of single copies of the Epstein-Barr virus genome by in situ hybridization. Anal. Biochem. 186, 78–85.
tokuda, y., nakamura, t., satonaka, k., maeda, s., dol, k., baba, s. & sugiyama, t. (1990) Fundamental study on the mechanism of DNA degradation in tissues fixed in formaldehyde. J. Clin. Pathol 43, 748–51.
unger, e. r., budgeon, l. r., myerson, d. & brigati, d. j. (1986) Viral diagnosis by in-situ hybridization. Description of a rapid simplified colorimetric method. Am. J. Surg. Pathol. 10, 1–8.
Wijsman, j. h., jonker, r. r., keijzer, r., van-De-velde, c. j., cornelisse, c. j. & van-Dierendonck, j. h. (1993) A new method to detect apoptosis in paraffin sections: in-situ end-labeling of fragmented DNA. J. Histochem. Cytochem. 41, 7–12.
yap, e. p. & mcgee, j. o. (1991) Slide PCR: DNA amplification from cell samples on microscopic glass slides. Nucleic Acids Res. 19, 4294.
zaki, s. r., heneire, w., lotheld, l. m., greer, p. w., sinha, s. d. & folks, t. m. (1994) In-situ polymerase chain reaction amplification: applications and current limitations. AIDS 8, 1186–7.
zehbe, i., hacker, g. w., rylander, e., sallstrom, j. & Wilander, e. (1992) Detection of single HPV copies in SiHa cells by in-situ polymerase chain reaction (in-situ PCR) combined with immunoperoxidase and immunogold-silver staining (IGSS) techniques. Anticancer Res. 12, 2165–8.
Author information
Authors and Affiliations
Rights and permissions
About this article
Cite this article
Teo, I.A., Shaunak, S. Polymerase chain reaction in situ: an appraisal of an emerging technique. Histochem J 27, 647–659 (1995). https://doi.org/10.1007/BF00216678
Received:
Revised:
Issue Date:
DOI: https://doi.org/10.1007/BF00216678