Fluorescent in situ hybridisation on tissue sections: a quantitative approach with confocal laser scanning microscopy.

ABSTRACT

The use of fluorescent detection methods in association with digital microscopy technologies is an innovative approach for tissue localisation of messenger RNA. The success of such methods relies on the tissue preservation, local availability of the probe and on the existence of high resolution tridimensional analysis systems. Cryostatic sections, mild denaturation, short oligonucleotide probes (20mer) and confocal laser scanning microscopy allow the fulfillment of all these conditions avoiding photobleaching and tissue autofluorescence. In this paper, we describe in detail a method for in situ hybridisation set up with digoxigenin-coupled oligonucleotide complementary to beta-actin mRNA as a probe and an anti-hapten fluorescent antibody as second step for detecting specific hybridisation. Fluorescence was analysed by means of a confocal laser scanning microscope (CLSM) that provides images with low out-of-focus blurring also with relatively low numerical aperture (NA) objectives. We propose also an easy method to perform semi-quantitative thresholding analysis which allows to discriminate between background and specific signal.