Studies on isolated cell components III. A cytological study of the effects of heparin on isolated nuclei

Abstract

The gel released from isolated rat liver nuclei in response to heparin treatment has been found to stain with methylene blue, azure A, and methyl green when the dyes were added to the salt-sucrose nuclear isolation medium. Azure A and methylene blue caused rapid nuclear shrinkage to as little as 1 4 the original nuclear volume. Subsequent treatment with heparin caused the nuclei to fade rapidly and swell to approximately 5 4 of the original volume. With methylene blue stained nuclei heparin caused the extrusion of deeply stained, slightly birefringent rods through apertures on the nuclear surface. Methyl green also caused nuclear shrinkage, but to a lesser degree. Studies with the Feulgen reaction demonstrated structural damage in isolated rat liver nuclei as a result of heparin action. The viscous material released by heparin was shown to be Feulgen positive by resort to hydrolysis without prior fixation, since after customary fixatives the presence of a Feulgen positive reaction outside the nucleus could not be clearly demonstrated. The possibility is suggested that the Feulgen reaction following the customary fixatives depends in part on the manner in which the DNA is bound. The nuclei of leucocytes with visually intact cell membranes included in the nuclear preparations failed to show structural damage due to heparin and it is suggested that either the cell membrane provides some protection against heparin action or that damaged cells are more susceptible to this action. Observations made provide additional basis for the conclusion that heparin replaces DNA in the nucleo-histone of the nucleus, resulting in the structural damage observed, and releasing DNA in the form of a soluble viscous protein containing complex.