Nonspecific (“pseudo-plasmal”) dye-binding in the Feulgen nuclear stain and its blocking by azocarmin G

Summary In Feulgen nuclear staining nonspecific dye-binding due to the pseudo-plasmal reaction is intensified in isolated cells with intact cytoplasm, and cannot be eliminated by the post-irradiation method. Fluorescence intensity in the cytoplasm sometimes exceeds that of specific nuclear fluorescence, especially in brain and heart muscle cells, and it was almost impossible to perform cytofluorometric DNA quantification on such specimens. Various kinds of aldehyde-blocking agents such as sodium borohydride, 2,4-dinitrophenylhydrazine, aniline, and sodium pyrosulfite were effective in reducing the pseudo-plasmal reaction. But the blocking effects were not complete because of additional release of reactive aldehyde groups during subsequent Feulgen hydrolysis. Acidic azocarmin G produces a complete block of all pseudo-plasmal reaction in acriflavine-Feulgen nuclear staining, allowing accurate DNA-cytofluorometry to be carried out.     

Cytofluorometry on cells isolated from paraffin sections after blocking of the background fluorescence by azocarmin G

Summary A technique for isolation of cells from paraffin embedded tissue is indispensable for the performance of Feulgen-DNA cytofluorometry in parallel with the definition of histological characteristics. Background fluorescence due to nonspecific dye-binding by a pseudo-plasmal reaction is usually found to be so intense on cells isolated from formalin-fixed tissues, that we are often forced to abandon quantitative DNA determinations. In the present work, we report that fixation of tissues with Carnoy's fixative for 12 h at 5° C not only reduces nonspecific dye-binding but also facilitates the process of cell isolation. Furthermore, we find that pre-treatment of cells isolated from Carnoy-fixed tissues with acidic azocarmin G solution completely blocks nonspecific dye-binding in subsequent acriflavine Feulgen nuclear staining. This combination of techniques for specimen preparation enables us to carry out Feulgen-DNA cytofluorometry on cells isolated from histological sections with satisfactorily low coefficients of variation (less than 8%). The techniques should be widely applicable for parallel DNA determinations and histology.     

Fluorescence fading and stabilization in cytofluorometry

The factors affecting fluorescence fading in cytofluorometry were investigated using different kinds of nuclear staining, mounting media, and procedure of specimen preparation. Acceleration of fluorescence fading was observed in smear specimens treated with RNase, trypsin, or hypotonic solution before pararosaniline Feulgen nuclear staining. Similar effect was found for other DNA-stainings such as "33258 Hoechst" and Feulgen reactions with different Schiff-type dyes, such as acriflavine-SO2 and cresyl-violet-SO2, when chemically pure DNA was used. Fluorescence decay was rapid for all fluorochromes examined, when glycerin or buffer solution was used as mounting medium. Marked stabilization of fluorescence emission was induced in specimen mounted in non-fluorescent resin, Entellan (Merck), after post-staining fixation with absolute methanol for all tested fluorochromes. The same treatment induced almost complete fluorescence stabilization of fluorescein isothiocyanate (FITC); no detectable fluorescence fading was observed in a specimen stained with indirect immunofluorescence reaction using anti-UV-DNA antibody, during storage for 2 years at room temperature without special protection against light. These observations suggest that factors which bring about conformational stability of macromolecule-dye complexes generally induce fluorescence stabilization.     

INTRAMITOCHONDRIAL FIBERS WITH DNA CHARACTERISTICS : II. Enzymatic and Other Hydrolytic Treatments

The effects of proteolytic enzymes, ribonuclease, and deoxyribonuclease upon a fibrous component of chick embryo mitochondria, which was previously shown to have many fixation and staining properties characteristic of the bacterial nucleoplasm, are reported. Pepsin digestion of formaldehyde-fixed tissues removed the membranes and matrices of mitochondria, but a pepsin-resistant fibrous material remained which was heavily stained by uranyl and lead ions. Experiments on a DNA "model system" showed that DNA treated with osmium tetroxide can be depolymerized by deoxyribonuclease. Zinc ions strongly inhibited the depolymerization of DNA. Digestion of osmium tetroxide-fixed tissues (fixed only briefly) with deoxyribonuclease for 1 hour greatly reduced the Feulgen staining of the nuclei, and after 4 hours the Feulgen reaction was completely abolished. The reduction and the disappearance of the Feulgen reaction in nuclei was paralleled by partial to complete digestion of the mitochondrial fibers in the regions studied (after 1 and 4 hours, respectively), without any other obvious changes in cellular structures. When deoxyribonuclease was inhibited by the addition of zinc ions, the nuclear Feulgen reaction was not diminished, nor were the mitochondrial fibers removed. Buffer control incubations for deoxyribonuclease and ribonuclease did not alter the structure or staining properties of the mitochondrial fibers, nor did incubation with ribonuclease. The latter reaction digested the cytoplasmic and nucleolar ribosomes after a 4-hour incubation period, in parallel with the abolishment of toluidine blue staining. The results contribute further evidence that these mitochondria contain deoxyribonucleic acid.     

The Specificity of the Feulgen Reaction for Thymonucleic Acid

The results of experiments on the specificity of the Feulgen reaction for thymonucleic acid do not substantiate the observations of Carr. The staining is not localized in the nucleus because of the destruction of cytoplasmic constituents following acid hydrolysis or because of the absorbing power of chromatin, since the cytoplasm and nucleolus can still be stained by numerous dyes. The effects of factors such as the acid hydrolysis and sulfurous acid washing baths upon the cytologic distribution of dye were studied on tissues stained with (1) fuchsin-sulfurous-acid (Feulgen) reagent, (2) fuchsin-sulfurous-acid reagent colorized by the addition of formaldehyde, (3) basic fuchsin in one-tenth normal HCl, and (4) basic fuchsin in distilled water. Under comparable conditions, important differences between these stains were found in the effects of preliminary hydrolysis; rapidity of staining and destaining; extractability of dye from tissues by water, alcohol, and sulfurous acid solution; rate of fading from exposure to light; localization of stain in tissues; and differences in hue. After treating tissues with desoxyribonuclease, an enzyme which acts only upon thymonucleic acid, cells do not stain with the Feulgen technic. Following removal of nucleic acid from chromatin by hydrolysis, attempts to demonstrate an absorption of thymonucleic acid upon the residual nuclear protein were unsuccessful.

The evidence for and against the specificity is discussed. In agreement with most other investigators, on the basis of the evidence in the literature as well as these experiments, it is concluded that when properly controlled the Feulgen reaction is relatively specific for thymonucleic acid.     

Some Evidence for the Specificity of the Feulgen Reaction

Carr has attacked the specificity of the Feulgen reaction on three grounds: that the chromosomes are adsorbents capable of regenerating the color of the Schiff reagent; that selectivity for the nucleus depends on destruction of cytoplasm by acid hydrolysis preceding staining; and that the reaction is not blocked by SO₂ water, as he says it should be if staining occurs by a chemical reaction. The first point was tested by staining chromosomes treated with nuclease. They were Feulgen negative, but their protein basis remained intact. The second point was tested by hydrolyzing fixed tissues, washing off solutes, drying, and comparing weight loss with controls. As differences were negligible, the fixed cytoplasm must not have been made soluble by hydrolysis. Carr's third point was not tested experimentally. It is concluded that these objections to specificity of the Feulgen reaction are not valid.     

EVIDENCE FROM ELECTRON MICROGRAPHS FOR THE PASSAGE OF MATERIAL THROUGH PORES OF THE NUCLEAR MEMBRANE

1. The nurse cells of Rhodnius possess nucleoli that stain with Heidenhain's hematoxylin but give a negative Feulgen reaction. In localized positions adjacent to the nuclear membrane are seen masses of material both within the nucleus and the adjoining cytoplasm that stain with Heidenhain's hematoxylin, but, like the nucleolus, give a negative Feulgen reaction. 2. Electron micrographs of the nurse cells of Rhodnius reveal the nuclear membrane to contain pores approximately 400 A in diameter. 3. In electron micrographs the nucleolus is seen to be composed of a reticulum containing tightly packed granules. Between the centrally located nucleolus and the nuclear membrane are observed relatively small bunches of granules of the same relative size as those occurring in the nucleolus. Aggregated at certain positions adjacent to the nuclear membrane both within the nucleus and in the adjoining cytoplasm are irregularly shaped masses of granules. Certain of these masses within the nucleus are seen to be continuous with those in the cytoplasm through narrow isthmuses of material extending through pores of the nuclear membrane. Other masses of granules show evidence of preparing to enter the pores by projecting tongues of material toward and into them. In the adjacent cytoplasm pear-shaped masses of granules are seen in front of and in contact with the pores which suggests that they were fixed in the process of or just after completing passage through the pores.     

Prestaining of membrane markers to identify specific areas for Feulgen cytophotometric determinations in a single section

In cytospectrophotometric determinations of the nuclear DNA content in tissues, two consecutive sections are commonly employed: one stoichiometrically stained (as with the Feulgen reaction) for the actual measurements and a second routinely stained (as with hematoxylin and eosin) to define the limits of abnormal areas. This paper proposes the use of stainable cell membrane markers to identify the boundaries of such areas in only the one section in which DNA measurements are to be performed. The use of this procedure for the analysis of enzyme-altered foci and preneoplastic nodules in the rat liver is described. The membrane marker staining, which does not affect the nucleus or cytoplasm, does not interfere with the nuclear DNA determinations.     

Fluorescence fading and stabilization in cytofluorometry

Summary The factors affecting fluorescence fading in cytofluorometry were investigated using different kinds of nuclear staining, mounting media, and procedure of specimen preparation. Acceleration of fluorescence fading was observed in smear specimens treated with RNase, trypsin, or hypotonic solution before pararosaniline Feulgen nuclear staining. Similar effect was found for other DNA-stainings such as 33258 Hoechst and Feulgen reactions with different Schiff-type dyes, such as acriflavine-SO₂ and cresylviolet-SO₂, when chemically pure DNA was used. Fluorescence decay was rapid for all fluorochromes examined, when glycerin or buffer solution was used as mounting medium. Marked stabilization of fluorescence emission was induced in specimen mounted in non-fluorescent resin, Entellan (Merck), after post-staining fixation with absolute methanol for all tested fluorochromes. The same treatment induced almost complete fluorescence stabilization of fluorescein isothiocyanate (FITC); no detectable fluorescence fading was observed in a specimen stained with indirect immunofluorescence reaction using anti-UV-DNA antibody, during storage for 2 years at room temperature without special protection against light. These observations suggest that factors which bring about conformational stability of macromoleculedye complexes generally induce fluorescence stabilization.     

Combined staining procedures for cytophotometry of protein and DNA Feulgen-Naphthol Yellow S and dinitrofluorobenzene-Feulgen

A comparison has been made between dinitrofluorobenzene (DNFB) and Naphthol Yellow S (NYS) as protein stains in combination with the pararosaniline-SO2 Feulgen procedure. Chicken erythrocytes were used as test cells. Cytophotometric measurements were made using a Zeiss scanning stage cytophotometer coupled to a PDP 11/10 minicomputer using the BICOSCAN program to obtain values for protein per cell, protein per "nuclear area' and DNA per nucleus. With 5N HCl as the Feulgen hydrolysis agent, DNFB staining, applied before the Feulgen procedure, was found to be unaffected by hydrolysis conditions required to give optimum Feulgen staining and showed only small losses after longer hydrolysis times. On the other hand measurements of NYS staining, of necessity applied after the Feulgen procedure, seem to be susceptible to the duration of Feulgen hydrolysis. This susceptibility is probably due to the interaction of the DNA phosphates with the basic amino acid residues, potential binding sites for NYS. Since the degree of this interaction may be variable, it is argued that NYS binding will measure the available basicity of proteins at the time of staining but no specific protein fraction. DNFB binding is unaffected by DNA-protein interactions and therefore can give a more reliable measure of "nuclear' protein, particularly in conjunction with Feulgen-DNA measurements.     

Cytological, cytochemical and immuno-fluorescence studies with Dugbe virus - a new Nigerian tick-borne virus.

Dugbe virus, a new tick-borne arbovirus from Nigeria, was propagated in continuous porcine kidney (PS) cells, and the cytopathology studied by various staining techniques such as May-Grunwald-Giemsa, methyl-green pyronine, Feulgen, and immuno-fluorescence. The gross cytopathology was slight and infected cells continued to undergo normal mitotic divisions. The outstanding cytopathologic feature was the presence of large basophilic intracytoplasmic inclusion bodies, which were pyroninophilic and Feulgen negative. By immunofluorescence these inclusions were shown to be depots of viral antigen; specific fluorescence was confined to the cytoplasm throughout the replication of the virus.     

Standardization of the Papanicolaou stain. I. A comparison of five nuclear stains.

The staining characteristics of five nuclear stains used in a Papanicolaou staining procedure were investigated. Alcohol-fixed cervical smears were stained with a modified Papanicolaou procedure using hematoxylin, alcoholic thionin bromide, alcoholic Victoria blue B, gallocyanin or the thionin Feulgen reagent (thionin-SO2) as the nuclear stain. The same anionic counterstain was used for all slides, and the optical densities of cell nuclei and cytoplasm were measured with the IBAS 2000 image analyzer. Alcoholic thionin gave the most intense nuclear stain, with a very high reproducibility of the staining pattern. Hematoxylin showed the highest coefficient of variation of the staining intensity. Both hematoxylin and gallocyanin gave some nonspecific cytoplasmic staining. Thionin-SO2 allowed a quantitative assessment of DNA, but gave a low staining intensity. Staining with the metal complex dyes interfered with subsequent staining with the pararosaniline Feulgen reagent. Alcoholic thioinin is thus recommended as a nuclear stain for cervical cytology in the Papanicolaou procedure, both for image analysis and for visual microscopy.     

Intranuclear differences in the response of Purkinje cell DNA of the rat cerebellum to bleomycin

Summary A single dose of the DNA-binding cytostatic agent bleomycin (100 g/g body weight, subcutaneously) was given to 10-day-old rats to study unscheduled repair DNA synthesis in nucleolar and in bulk nuclear chromatin of postmitotic Purkinje neurons. The Feulgen reaction and Hoechst 33342 staining were used for quantitative evaluation of nuclear DNA content and chromatin structure. The repair synthesis of DNA was detected by ³H-thymidine autoradiography.The data showed a lesser staining of Purkinje as well as granule cell DNA by Hoechst 33342 in bleomycin-treated animals than in controls, but there was no difference in staining with the Feulgen reation. The mechanisms of DNA staining by both cytochemical methods suggest that bleomycin reacted preferentially with AT-rich and single stranded DNA in cerebellar cells in vivo. Weak ³H-thymidine labelling was found in Purkinje cells of both control and treated rats, but in the latter group the labelling was more pronounced near or over the nucleolus. The enhanced unscheduled DNA synthesis in the nucleolar region of Purkinje cells of treated animals may be due to greater damage of DNA in this region or may indicate a greater ability of the nucleolar chromatin to repair its DNA.Dedicated to Professor Dr. Z. Lojda, Dr. Sc., on the occasion of his 60th birthday.     

Staining of interphase nuclei and mitotic figures in cultured cells with alcian blue 8GX

Cultured endothelial cells derived from bovine calf pulmonary artery were subjected to a variety of fixatives and stained with 1% Alcian blue 8GX at pH 2.59 to 3.26. Within this range of pH, interphase nuclei and especially mitotic figures were (a) strongly stained in cells fixed with 10% formalin (phosphate buffered or unbuffered) or 2.5% buffered glutaraldehyde, (b) weakly stained or unstained in cells fixed in formaldehyde containing divalent cations, and (c) unstained in cells fixed in acetic acid-containing fluids. However, optimal nuclear staining with Alcian blue under the conditions of this study was judged to be achieved after fixation with neutral phosphate buffered 10% formalin. Endothelial cell cytoplasm exhibited a similar fixative-dependent staining. At pH 2.59 the cytoplasm of interphase cells fixed in formaldehyde (containing no divalent cations) or glutaraldehyde remained unstained; however, at higher pH cytoplasmic staining did occur and it increased as pH increased. In contrast, when these latter fixatives were employed the cytoplasm of mitotic cells stained at all pH levels tested. In cultured endothelial cells after appropriate fixation, 1% Alcian blue 8GX (pH 2.59) was found to possess the ability to stain nuclei with a selectivity and intensity that compared favorably to those of the Feulgen reaction of Heidenhain iron hematoxylin but without the latters' length and complexity. Therefore, this procedure may provide a rapid, simple, and selective method for visualizing interphase nuclei or mitotic figures, or both in the majority of cultured cells.     

The nuclear DNA content of vulvar skin using Feulgen microspectrophotometry and "four-quarter" analysis

The nuclear DNA contents in subbasal (nonreplicating) cells of 161 vulvar biopsies from 31 patients were studied by Feulgen staining, integrated scanning microspectrophotometry (densitometry) and subsequent "four-quarter" analysis of the measurements. The results showed a constancy of the nuclear DNA content in the nonreplicating cells, regardless of the patient or the biopsy site.     

Cytofluorometric and cytochemical comparisons of normal and abnormal human cells from the female genital tract.

Acridine orange staining of exfoliated cells from epithelial tissues facilitates discrimination between normal and abnormal cells: abnormal cells develop highly elevated nuclear fluorescence. Comparisons of acridine orange (AO) staining with propidium iodide (PI) or Feulgen staining have shown that: (a) PI staining also provides highly elevated nuclear fluorescence from abnormal cells; (b) the distributions of nuclear fluorescence following AO or PI staining were usually not significantly different as judged by the Kolmogorov-Smirnov test; (c) fluorescence emission spectra from AO and PI stained cells are consistent with the hypothesis that both fluorochromes bind to DNA within cell nuclei; (d) DNAse treatment of AO stained normal cells eliminates the nuclear fluorescence peak from slit-scan contours; RNAse treatment has no effect on nuclear fluorescence; (e) the distribution of abnormal cell nuclear fluorescence after AO staining is usually, but not always, significantly different from the distribution of abnormal cell nuclear absorbance after Feulgen staining, with relative nuclear fluorescence being greater than relative nuclear absorbance. The hypothesis currently most consistent with these results is that elevated Feulgen DNA content can account for only part of the discrimination provided by AO staining, and that the chromatin within abnormal cells is altered so as to increase accessibility of DNA to intercalating dyes.     

Quantitative cytochemical aspects of a combined Feulgen-Naphthol Yellow S staining procedure for the simultaneous determination of nuclear and cytoplasmic proteins and DNA in mammalian cells

The simultaneous cytophotometric determination of nuclear and cytoplasmic proteins and DNA by means of a combined Feulgen-Naphthol Yellow S (NYS) staining procedure was investigated. According to this procedure Feulgen staining is performed prior to NYS staining. The following main results were obtained:

1. 1. After NYS staining alone, the amount of NYS bound to the cell was found to be closely correlated to the cellular dry mass. The correlation coefficient was 0.99 in ethanol-acetone fixed cells and 0.95 in formaldehyde-fixed cells. This close correlation was not significantly altered by the Feulgen staining procedure and was 0.92 in ethanol-acetone and 0.94 in formaldehyde-fixed cells. However, the absolute amount of NYS bound per unit dry mass was affected by the method of fixation and type of Feulgen hydrolysis.

2. 2. The cells lose material during the Feulgen procedure, particularly during the acid hydrolysis stage. The type of hydrolysis most suitable for the Feulgen procedure (5 N HCl, 22 °C, 60 min) resulted in a considerable loss of dry mass in ethanol-acetone fixed cells. This loss was smaller in formaldehyde-fixed cells (15%) and was in addition closely correlated (correlation coefficient 0.99) to the dry mass of the cells prior to hydrolysis. In formaldehyde-fixed cells the dry mass after the Feulgen procedure is thus a good measure of the true cellular dry mass of the fixed cells. This is further demonstrated by the close correlation between NYS binding to Feulgenstained cells and the dry mass of these cells prior to the Feulgen procedure (correlation coefficient 0.95).

3. 3. When using the combined Feulgen-NYS staining procedure under standardized conditions (formaldehyde fixation and acid hydrolysis in 5 N HCl, 22 °C, 60 min) a constant amount of NYS was found to be bound per unit dry weight to nuclear and cytoplasmic proteins in various types of mammalian cells with different proliferative activity.

4. 4. The Feulgen DNA determination was not found to be quantitatively affected by the subsequent NYS staining.

From the results of the present study it seems that, under standardized conditions, the combined Feulgen-NYS staining procedure can be used as a reliable quantitative method for the determination of nuclear and cytoplasmic proteins and DNA in mammalian cells.     

Staining of interphase nuclei and mitotic figures in cultured cells with Alcian blue 8GX

Summary Cultured endothelial cells derived from bovine calf pulmonary artery were subjected to a variety of fixatives and stained with 1% Alcian blue 8GX at pH 2.59 to 3.26. Within this range of pH, interphase nuclei and especially mitotic figures were (a) strongly stained in cells fixed with 10% formalin (phosphate buffered or unbuffered) or 2.5% buffered glutaraldehyde, (b) weakly stained or unstained in cells fixed in formaldehyde containing divalent cations, and (c) unstained in cells fixed in acetic acid-containing fluids. However, optimal nuclear staining with Alcian blue under the conditions of this study was judged to be achieved after fixation with neutral phosphate buffered 10% formalin. Endothelial cell cytoplasm exhibited a similar fixative-dependent staining. At pH 2.59 the cytoplasm of interphase cells fixed in formaldehyde (containing no divalent cations) or glutaraldehyde remained unstained; however, at higher pH cytoplasmic staining did occur and it increased as pH increased. In contrast, when these latter fixatives were employed the cytoplasm of mitotic cells stained at all pH levels tested. In cultured endothelial cells after appropriate fixation, 1% Alcian blue 8GX (pH 2.59) was found to possess the ability to stain nuclei with a selectivity and intensity that compared favorably to those of the Feulgen reaction or Heidenhain iron hematoxylin but without the latters’ length and complexity. Therefore, this procedure may provide a rapid, simple, and selective method for visualizing interphase nuclei or mitotic figures, or both in the majority of cultured cells.     

A cytophotometric comparison of the age-related changes in the DNA and protein content in human atrial cardiomyocytes in heart diseases

A study was performed on the human auricle muscle cells which were isolated from biopsies obtained in clinics during operation on heart. The nuclear DNA and the total protein in the cytoplasm were revealed by means of the two consecutive tests: the Feulgen and naphthol yellow S staining. DNA and protein contents were determined by two wave-length scanning cytophotometry. It is ascertained that under mitral defects the investigated parameters exhibit a tendency to increase with age: the nuclear ploidy and total protein content in the cytoplasm rise simultaneously with the increase in nuclear and cellular volumes, the polyploidy reaching higher levels than in myocardium of people of the same age without heart disease. If a patient suffered from ischemia, the nuclear polyploidy increased more slowly than cell hypertrophy to reach the level near the natural age limits.     

Some observations on the mechanisms of blocking of nuclear staining by cisplatin

Summary The effect of cisplatin (cis-dichloro-diamminoplatinum II) treatment on staining of nuclei with various basic dyes and with the Feulgen reaction has been studied. Although cisplatin is reported to show negligible reaction with DNA phosphates, it has a substantial blocking effect on staining with most dyes. Short treatment with cisplatin results in binding mainly to guanine bases of DNA, causing partial blocking of the Feulgen reaction and almost complete blocking of ethidium intercalation; binding of neutral red and crystal violet is enhanced, apparently as a result of cisplatin-induced denaturation of DNA. Very prolonged cisplatin treatment does not completely block the Feulgen reaction, indicating that reaction of cisplatin with purine bases is not complete. Since attachment of cisplatin to DNA bases is unlikely to prevent binding of most basic dyes, it is suggested that the blocking of their staining may result from steric hindrance caused by formation of DNA-protein cross-links by cisplatin. Whatever the mechanism, it is incapable of producing complete blocking of staining with certain dyes. As a practical tool, it appears that rapid and almost complete blocking of staining by cisplatin may be used as an indicator of intercalative binding of dyes to DNA.