RNA and DNA content of isolated cell nuclei measured by multiparameter flow cytometry

Abstract

Nuclei were isolated from various cell types including Chinese hamster ovary (CHO) and L1210 leukemia cell lines, primary cultures of fibroblasts, nonstimulated and stimulated human lymphocytes and mouse liver cells, by using different isolation techniques. The isolated nuclei were subsequently stained with acridine orange (AO) and their fluorescence was measured by flow cytometry. Various procedures designed to stain DNA versus RNA differentially with AO were tested, and the staining of isolated nuclei was compared with that of whole cells. Control incubations with RNase and DNase were performed to estimate in whole cells and in nuclei the contribution of DNA and RNA to the fluorescence intensity at the respective wavelength bands of maximum emission for DNA (F₅₃₀) and RNA (F_>600). Depending on the cell type, 10–20% of total cell RNase‐sensitive F_>600 is localized in the nuclei. The RNase‐resistant portion of F_>600 of isolated nuclei represents the stainability of DNA. Suppression of cell proliferation in subconfluent cultures results in a decrease in both whole cell and in nuclear RNA content. Nonstimulated lymphocyte nuclei have considerably lower RNA content than nuclei from lymphocytes stimulated by pokeweed mitogen. Two subpopulations of nuclei having the same (2C) DNA content but differing in RNA content, are present in mouse liver; the cells entering S phase originate from the high RNA population.