Patricia T. Donaldson

Hematoxylin Substitutes: A Survey of Mordant Dyes Tested and Consideration of the Relation of Their Structure to Performance as Nuclear Stains

In the search for hematoxylin substitutes 26 dyes were more or less extensively tested for performance as nuclear stains, usually in combination with aluminum, chronic, ferrous and ferric salts. Reports from the literature on hematoxylin substitutes were also considered, and efforts were made to obtain samples of favorably reported dyes and test them. The reports on anthocyanins include isolated reports on several berry juices and a considerable number of studies on Sambucus niger and Vaccinium myrtillus. None of these have so far been tested by us. Otherwise favorable reports have appeared on eleven synthetic dyes and on carmine, brazilin, and hematin. Except for one of the synthetics, naphthazarin, which is no longer fractured, we had samples of all of these. In addition, more or less unsuccessful trials were made on twelve dyestuffs, some of which were new syntheses designed to combine chelating capacity with nucleophilia. Following Fygs report of blue nuclear staining with chrome alum carmine, trial was made to change the red nuclear stain of kernechtrot by altering the metal mordant. The most successful dyes were phenocyanin TC, gallein, fluorone black, alizarin cyanin BB and alizarin blue S. Celestin blue B with an iron mordant is quite successful if properly handled to prevent gelling of solutions.

Reduction and azo coupling of quinones

SummaryCutaneous melanin in formol fixed skin and adrenochrome in dichromate fixed monkey adrenal after adequate bisulfite or dithonite reduction were found to give definite azo coupling reactions. Weaker reactions were obtained on unreduced material, and these disappeared on ferric chloride oxidation. Both cutaneous melanin and adrenochrome appear to exist in a quinhydrone status. Prolongation of dichromate treatment weakens or abolishes azo coupling capacity of adrenochrome. The findings support the concept of quinonization and reduction to prevent and restore azo coupling of enterochromaffin cells and noradrenaline islets of the adrenal.The most effective diazos for melanin werep-nitrodiazobenzene, fast black K and the diazosulfanilic acid, pH 1 pyronin B procedure, for adrenochrome. Diazosafranin and 2-chloro-4-nitrodiazobenzene were also useful. Blue and violet coupling products from toluidine blue and methylene violet RR fail to yield sufficient contrast to be convincing.

The effect of graded 60°C 1N nitric acid extraction and of deoxyribonuclease digestion on nuclear staining by metachrome mordant dye metal salt mixtures

SummaryWe can divide metachrome mordant staining of nuclei after graded 60°C 1N nitric acid extraction into three groups. The feulgen nucleal reaction and dilute cationic dye staining of nuclei are abolished in about 30 minutes. With one group of metachrome dyes nuclear staining is lost with acid exposures of one hour or less. In a second group nuclear staining is weakened by 30–60 minute extractions, but persists in recognizable grade for 4–6 hours. In the third group nuclear staining remains almost unimpaired for 4–6 hours.In the first group the nuclear staining seems clearly assignable to the nucleic acids and to DNA in particular. In the second group loss of part of the reactivity on short exposure indicates some participation of DNA in the control staining result, as well as participation of basic nucleoprotein. In the third group staining seems assignable largely to basic nucleoprotein.The five gallocyanin group dyes, all in group1, all possess a dialkylamino group, probably functioning as an ammonium chloride. Hematoxylin, the fluorone blacks and gallein all present ano-hydroxysemiquinone group which probably acts as a weak acid, in addition to the carboxyl group of gallein which gives the strongest staining of nuclei at the longest acid exposure.Dexyribonuclease digestion (2 hours, 37°C) separated sharply a class in which nuclear staining failed completely, a class in which nuclear staining was fully equal to that in the control preparations and an intermediate group in which slight, moderate, or severa impairment was present. Generally there was good agreement between the two methods of nucleic acid removal, despite the fixation difference. In each case, however, the extraction procedure was one worked out for the fixation on which it was used.

Lower Azure B Methylene Blue Ratios in Giemsa Type Blood and Malaria Stains

Starting from ancient reports that rare samples of methylene blue were apparently sufficiently contaminated with azures to give red plasmodial and red purple nuclear chromatin in Chenzinsky type methylene blue eosin stains, it was decided to determine how little azure B would suffice for such staining in methylene blue eosin stains. The traditional 1902 Giemsa had an azure : methylene blue : eosin ratio of about 6 : 3 : 6.3 : 10; Lillies 1943 formula had a 5 : 7 : 10 ratio. In the current series of tests 5 : 7 : 10 (I), 4 : 8 : 10 (II), 3 : 9 : 10 (III), 2 : 10 : 10 (IV), 1 : 11 : 10 (V), and 0 : 12 : 10 (VI) were used. Malaria and blood stains were better than the standard 5 : 7 : 10 (I) in III, IV and II in that order. Normal and leukemic human blood, mouse blood with Plasmodium berghei, and monkey blood with the CDC strain of Pl. falciparum were used as test materials. The staining mixtures were made from highly purified samples of azure B and methylene blue. Staining mixtures contained 12 ml 0.1% thiazin dye, 10 ml 0.1% eosin, 2 ml each of glycerol, methanol and 0.1 M phosphate buffer pH 6.5, 3 ml acetone as accelerator, and distilled water to make 40 ml; staining times of 10--30 min were used.

Iron and Aluminum Lakes of Gallo Blue E As Nuclear and Metachromatic Mucin Stains

Gallo blue E, C. I. No. 51040, Mordant Violet 54, furnishes a blue black nuclear stain when applied to tissue sections in the form of its moderately stable iron lakes. This coloring combined well with such counterstains as orange G and eosin B. The Van Gieson stain tends to decolorize mucins, cartilage, and mast cells previously stained with this dye. Its aluminum lake solutions tend to gel in a few minutes to 24 hours depending on the solvent used and the amount of Al3+ present. Aluminum lake solutions give a moderately good blue to dark blue nuclear stain and a brilliant purplish red to dark purple stain to a variety of epithelial and connective tissue mucins. Acid dye counterstains are poorly tolerated. With either lake, nuclear staining is abolished by deoxyribonuclease digestion or relatively short mineral acid extraction of DNA.

Hematoxylin Substitutes: Fluorone Black and Methyl Fluorone Black (9-Phenyl- and 9-Methyl-2, 3, 7-Trihydroxy-6-Fluorone) as Metachrome Iron Alum Mordant Dyes

The phenyl and methyl trihydroxyfluorones, hitherto used histologically only in the rather difficult and unreliable Turchini technics for discriminating deoxyribonucleic from ribonucleic acid, find a new use as iron mordant metachrome dyes which act as nuclear stains. Nuclear staining is unaffected by acid extraction of nucleic acids, as with hematoxylin lakes. The two dyes, named by Liebermann and Lindenbaum 9-phenyl-2, 3, 7-trihydroxy-6-fluorone, have also acquired (illustrating with the phenyl homolog) longer chemical names of the form 2,6,7-trihydroxy-9-phenylisoxanthene-3-one (Eastman). Aldrich and Pfalz-Bauer adhere to the Liebermann-Lindenbaum nomenclature. The trivial name fluorone black is proposed for the phenyl homolog and methyl fluorone black for the methyl homolog. The iron lake of fluorone black appears to be a useful substitute for iron hematoxylin, methyl flurone black less useful. Neither dye has the diverse capability of hematoxylin.

Borax Methylene Blue: A Spectroscopic And Staining Study

Borax methylene blue is quite stable at room temperatures of 22-25 C. At 30 C polychroming is slow; during 50 days in a water bath at this temperature the absorption peak moves from 665 to 656 nm. At 35 C, the absorption peak reaches 660 nm in 7 days, 654 nm in 14. At 60 C polychroming is rapid, the absorption peak reaching 640-620 nm in 3 days. When the pH of the borax methylene blue solutions, normally about 9.0, is adjusted to pH 6.5, the absorption peak remains at 665 nm even when incubated at 60 C for extended periods. When used as a blood stain 0.4 ml borax methylene blue (1% methylene blue in 1% borax), 4 ml acetone, 2 ml borax-acid phosphate buffer to bring the solution to pH 6.5, and distilled water to make 40 ml, with 0.2 ml 1% eosin added just before using, an excellent Nocht-Giemsa type stain is achieved after 30 minutes staining. The material plasmodia P. falciparum, P. vivax, and P. berghei stain moderate blue with dark red chromatin and green to black pigment granules. The study confirms Malachowskis 1891 results and explains Gautiers 1896-98 failure to duplicate it.

Zinc Chloride Methylene Blue. I. Biological Stain History, Physical Characteristics and Approximation of Azure B Content of Commercial Samples

Zinc chloride methylene blue appeared on the market almost contemporaneously with the zinc-free medicinal form. The former has rarely been reported as being used in blood stains. Recent suspension of manufacture of medicinal methylene blue by it. principal American producer has excited interest in the use of the zinc chloride form for the preparation of blood stains. According to Lillie (1944a,b) the azure B content of zinc chloride methylene blue may have varied from 5 to 30% in the samples studied. Taking the Merck Index (1968, 1976) figures for the spectroscopic absorption maximum (λmax) of 667.8 and 668 nm as standard, recent samples of zinc chloride methylene blue are calculated to contain 6-8% azure B. These figures are baaed on 1) the shift of λmax after exhaustive pH 9.5 chloroform extraction, 2) evaluation of the actual ratio of the observed TiCl2 dye content to the theoretical for pure zinc chloride methylene blue, 3) comparison of spectroscopic and staining effects of graded hot dichromate oxid...

Preparation of Eosinates and Giemsa Stains of Low Azure B Content from Hot Acid Dichromate Oxidized Commercial Medicinal Methylene Blue

Hot acid potassium dichromate (K2Cr2O7) oxidation acts stoichiometrically on methylene blue to produce azure B with 1/2 mol per mol methylene blue, and azure A with 2/2 mol per mol methylene blue. For methylene blue to azure B the milliequivalency is 306.577 mg for 1 g of methylene blue. Proportionally lower amounts of K2Cr2O7 yield less azure B.Assuming that certified methylene blue was a relatively pure substance, two lots of methylene blue, CA-39 and LA-51, were oxidized 15 min at 100 C in 10 g amounts in 600 ml 0.1 M H2SO4, neutralized with NaHCOs, and prepared as chlorides and eosinates. Lot CA-39 (batch 109) azure B 75.5%, methylene blue 24.5%, gave excellent stains with 120 mg chloride/600 mg eosinate (the Roe et al 1940, 1941 proportion), better at 160/600 (the Giemsa 1902 ratio) and inferior at 200 mg chloride/600 mg eosinate. Lot CA-39 with methylene blue added at 200 mg per 1 g eosinate gave inferior results at 12% azure B/88% methylene blue ratios, excellent at 14.5% azure B and above. With lo...

Zinc Chloride Methylene Blue, Ii. Preparation of Giesma and Wright Type Low Azure B Blood Stains from Dichromate Oxidized Commercial Dye

TO determine the amount of K2Cr2O7 required to produce optimal Giemsa type staining, six 1 g amounts (corrected for dye content) of zinc methylene blue were oxidized with graded quantities of K2Cr2O7 to produce 4, 8, 12, 16, 20 and 24% conversion of methylene blue to azure B. These were heated with a blank control 15 minutes at 100 C in 60-65 ml 0.4 N HCI. cooled, and adjusted to 50 ml to give 20 mg original dye/ml. Aliquots were then diluted to 1% and stains were made by the “Wet Giemsa” technic (Lillie and Donaldson 1979) using 6 ml 1% polychrome methylene blue, 4 ml 1% cosin (corrected for dye content), 2 ml 0.1 M pH 6.3 phosphate buffer, 5 ml acetone, and 23 ml distilled water. The main is added last and methanol fixed blood films are stained immediately for 20-40 min.For methylene blue supplied by MCB 12-H-29, optimal stains were obtained with preparations containing 20 and 24% conversion of methylene blue to azure B. With methylene blue supplied by Aldrich (080787), 16% conversion of methylene blue ...