A Protargol Method for Staining Nerve Fibers in Frozen or Celloidin Sections

Extensive experimentation with protargol staining of neurons in celloidin and frozen sections of organs has resulted in the following technic: Fix tissue in 10% aqueous formalin. Cut celloidin sections IS to 25 μ, frozen sections 25 to 40 μ. Place sections for 24 hours in 50% alcohol to which 1% by volume of NH₄OH has been added. Transfer the sections directly into a 1% aqueous solution of protargol, containing 0.2 to 0.3 g. of electrolytic copper foil which has been coated with a 0.5% solution of celloidin, and allow to stand for 6 to 8 hours at 37° C. Caution: In this and the succeeding step the sections must not be allowed to come in contact with the copper. From aqueous protargol, place the sections for 24 to 48 hours at 37° C. directly into a pyridinated solution of alcoholic protargol (1.0% aqueous solution protargol, 50 ml.; 95% alcohol, 50 ml.; pyridine, 0.5 to 2.0 ml.), containing 0.2 to 0.3 g. of coated copper. Rinse briefly in 50% alcohol and reduce 10 min. in an alkaline hydroquinone reducer (H₃BO₃, 1.4 g.; Na₂SO₃, anhydrous, 2.0 g.; hydroquinone, 0.3 g.; distilled water, 85 cc; acetone, 15 ml.). Wash thoroly in water and tone for 10 min. in 0.2% aqueous gold chloride, acidified with acetic acid. Wash in distilled water and reduce for 1 to 3 min. in 2% aqueous oxalic acid. Quickly rinse in distilled water and treat the sections 3 to 5 min. with 5% aqueous Na₂S₂O₃+5H₂O. Wash in water and stain overnight in Einarson's gallocyanin. Wash thoroly in water and place in 5% aqueous phosphotungstic acid for 30 min. From phosphotungstic acid transfer directly to a dilution (stock solution, 20 ml.; distilled water, 30 ml.) of the following stock staining solution: anilin blue, 0.01 g.; fast green FCF, 0.5 g.; orange G, 2.0 g.; distilled water, 92.0 ml.; glacial acetic acid, 8 ml.) and stain for 1 hour. Differentiate with 70% and 95% alcohol; pass the sections thru butyl alcohol and cedar oil; mount.     

Silver Staining of Nerve Fibers in Cardiac Tissue

Fresh hearts of dog were perfused through the coronary vessels with 1000 ml. of fixative (chloral hydrate, 5 g. per 100 ml. of 70% ethyl alcohol) and blocks of tissue 2 × 5 mm. from epicardium to endocardium fixed 48 hours in the same fixative. The blocks were placed in 95% alcohol containing 0.3% addition of strong ammonia for 4 hours, followed by 2 changes of plain 95% alcohol of 1 hour each, then cleared and infiltrated with paraffin. Mounted sections 12-15 µ thick were incubated in 1% silver proteinate (obtained from Serumvertrieb, Marburg, Germany)² at 38° C. for 48 hours in the presence of 10 g. of 15 gauge copper wire per 200 ml. of solution. The slides were rinsed gently in 3 changes of distilled water for 2 minutes, 1 minute and 1 minute, respectively, and reduced in 1% hydroquinone and 5% sodium sulfite for 5 minutes. They were washed 5 minutes in tap water and 5 minutes in 2 changes of distilled water and toned 3-5 minutes in 0.25% gold chloride, rinsed in distilled water 10 seconds, reduced 10 seconds in 1 % oxalic acid, rinsed 1 minute, fixed in 5% sodium thiosulfate 5 minutes, washed in tap water through 3 changes, dehydrated, cleared and covered. All solutions were made with distilled water except where otherwise specified. The results gave good impregnation of fine nerve fibers without the usual confusing staining of reticular tissue.     

Staining Nerve Fibers with Silver in Tissue Fixed with Bouin's Fluid

Nerve fibers, in organs fixed with Bouin's fluid, are usually refractive to the Davenport silver technic. The axons, however, can be successfully stained if the sections, on slides, are given a preliminary treatment with concentrated pyridine (1 hour), then a 24-hour bath of ammoniated alcohol (99 cc. 80% alcohol, 1 cc 28% ammonium hydroxide) and an interval in 40% aqueous silver nitrate (6-8 hours) before being immersed in the acidified alcoholic silver solution of Davenport. Following the silvering, reduction and toning of the axons, according to the procedure of Davenport, the surrounding non-nervous tissue elements can be counterstained with a combination of either azocarmine, light green and orange G, or azocarmine, aniline blue and orange G.     

Staining of Nerve Fibers with Methylene Blue Factors Improving the Staining

Several factors influencing the staining of nerve fibers with methylene blue, especially the influence of chloralhydrate and carbamylcholine chloride (as parasympathicotonics), and of some anesthetics were studied. The intestines of mouse, rat, and guinea pig were used. The following immersion technic is suggested: Tissue from animals anesthetised by chloralhydrate is immersed in: zinc free methylene blue, 0.03%; sodium tartrate, 0.5%; sodium pyruvate, 0.05% carbamylcholine, 0.00005%; 0.2 M Na₂HPO₄, 0.77%; 0.1 M citric acid, 0.18%; NACl, 0.79%; also an anesthetic which varies with the animal selected. Air is kept bubbling through the staining solution and microscopic examination is made at 6 min. intervals. After 0.5-1 hr. the tissue is fixed in: ammonium molyb-date, 10 g.; sucrose, 35 g.; distilled water, 100 ml.; to which is added just before use, 1% platinum chloride, 3 ml.; 2% osmic acid, 3 drops. Washing is in ice cold water and dehydration at 0°C. in Lang's fluids (varying mixtures of ethanol and n-butanol). The tissues thus prepared are stored in liquid paraffin.     

Staining Paraffin Sections with Protargol 6. Impregnation and Differentiation of Nerve Fibers in Adrenal Glands of Mammals

A series of experiments with protargol staining of nerve fibers in mammalian adrenal glands has yielded the following procedure: Fix-1-2 days in a mixture of formamide (Eastman Kodak Company) 10 cc, chloral hydrate 5 g., and 50% ethyl alcohol 90 cc. Wash, dehydrate and embed in paraffin. Cut sections about 15 and mount on slides. Remove the paraffin and run down to distilled water. Mordant 1-2 days in a 1% aqueous solution of thallous (or lead) nitrate at 56-60°C. Wash thru several changes of distilled water and impregnate in 1% aqueous protargol (Winthrop Chemical Company) at 37-40°C. for 1 to 2 days. Rinse quickly in distilled water and differentiate 7-15 seconds in a 0.1% aqueous solution of oxalic acid. Rinse thru several changes of distilled water for a total time of 0.5 to 1.0 rain. Reduce 3-5 rain, in Bodian's reducer: hydroquinone 1 g., sodium sulfite 5 g., distilled water 100 cc. Wash in running water 3-5 min. and tone 5-10 min. in a 0.2% gold chloride solution. Wash 0.5 min. or more and reduce in a 2% oxalic acid solution to which has been added strong formalin, 1 cc. per 100. (Caution. This last reduction is critical and over-reduction can spoil an otherwise good stain; 15-30 seconds usually suffices, and the sections should show only the beginning of darkening to a purplish or gray color.) Wash, fix in hypo, wash, dehydrate and cover.     

Silver Staining of Ultrathin Sections of Tissues Embedded in Polyester Resin

Specimens 1 mm³ from rat liver and kidney were fixed for 50 min in cold (0-2° C) 1% OsO₄ in veronal-acetate buffer, pH 7.7, and containing 0.1% MgCl₂; then dehydrated and embedded in Vestopal-W. Sections were cut in two ranges, 0.1-2 µ and 60-90 mµ thick, and attached to slides by floating on water and drying at 60° C. The thicker ones, for light microscopy, were soaked in acetone 1.5-3 hr; the thinner, for electron microscopy, 20-30 min. Both kinds were stained by Wilder's (1935) method for reticulum. Those for light microscopy were finished by dehydrating, clearing and covering in the customary manner; those for electron microscopy, by coating with 1% parlodion, drying, cutting the film about 2 mm² around the section, and freeing the section by soaking in water. The section was then mounted on a grid. The structures stained are: nuclei, basement membrane of capillaries, reticulum fibers of the liver and kidney, and in addition, the basement membrane of the kidney tubules. The mitochondria, vesicles, endoplasmic reticulum and cell membranes were not defined.     

A Controllable Silver Stain for Nerve Fibers and Nerve Endings

A paraffin section method is described with a yellow-brown-black color range comparable to that of Ranson's pyridine silver block stain. After impregnation with activated protargol and reduction with a fine grain photographic developer, silver nitrate impregnation and reduction are repeated as often as necessary. The procedure is as follows:

Place hydrated sections of tissue fixed in chloral hydrate (25 g. in 100 ml. of 50% alcohol) in 1% aqueous protargol (Winthrop Chemical Co.) containing 5-6 g. metallic copper for 12-24 hours. After rinsing in 2 changes of distilled water, reduce 5 to 10 minutes in: Elon (Eastman Kodak Co.) 0.2 g., Na₂SO₃, dessicated, 10 g., hydroquinone 0.5 g., sodium borate powder 0.1 g., distilled water 100 ml. Wash thoroly in 4 or 5 changes of distilled water and place in 1% aqueous AgNO₃ for 10-20 minutes at 28°-50° C. Rinse in 2 or 3 changes of distilled water and reduce in the elon-hydroquinone solution. After thoroly washing in 4 or 5 changes of distilled water, examine under microscope.

If too pale, treat again in silver nitrate for 10-20 minutes, rinse, reduce 5-10 minutes and wash thoroly until nerve fibers show distinct microscopic differentiation, then dehydrate, clear and mount.     

Staining Nerve Fibers After Sublimate-Acetic and After Bouin'S Fluid

A silver staining method for paraffin sections of material fixed in HgCl₂, sat. aq., with 5% acetic acid is as follows. Process the sections through the usual sequence of reagents, and including I-KI in 70% alcohol, thiosulfate (5% aq.), washing and back to 70% alcohol containing 5% of NH₄OH (conc. aq.). After 3 minutes in the ammoniated alcohol, wash through tap water and 2 changes of distilled water and silver 5-10 minutes at 25°C. in 15% AgNO₃ aq. to which 0.02 ml. of pyridine per 100 ml. has been added. Blot the slide, but not the section and do not rinse. Reduce at 45°C. in 0.1% pyrogallol in 55% alcohol, then rinse in 55% alcohol and wash in water. The remainder of the process consists of gold toning, intensifying in oxalic acid, fixing in 5% Na₂S₂O₃, washing, dehydrating, clearing and covering. When the specimen contains much smooth muscle, the I-KI solution is acidified before use by adding 2 ml. of 1N nitric acid per 100 ml., and the sections treated for 3 minutes instead of the usual 2 minutes. Formalin should not be added to sublimate-acetic, but specimens that do not contain strongly argyrophilic nonneural tissue may be fixed in formalin or, preferably, Bouin's fluid. Sections of tissue after the latter type of fixation will not require the I-KI and thiosulfate but can go from 95% alcohol to the ammoniated alcohol. The advantages of fixing in HgCl₂-acetic acid are suppression of the staining of connective tissue and intensifying the staining of nerve fibers.     

Controlled Differentiation of Cells and Connective Tissue Fibers in Silver Staining

Controlled silver staining of connective tissue fibers and sometimes of these fibers and cells simultaneously can be obtained. 1. Fix in 10% formalin. Embed in paraffin and cut sections as usual, but do not mount them on slides. Deparaffinize and hydrate through xylene, alcohols and distilled water and henceforth treat them the same as frozen sections. Real frozen sections can also be used. 2. Treat with a freshly prepared 1% solution of KMnO₄, usually 15-60 sec, sometimes up to 10 min. 3. Wash in distilled water, 5-10 sec. 4. Decolorize in 2% potassium metabisulfite, 10-20 sec. 5. Place in distilled water, 1 min. 6. Sensitize with 2% iron alum, 1 min. 7. Place in distilled water, 1 min. 8. Impregnate in Gomori's silver oxide solution, 2 min. 9. Wash in a 1.5% aqueous solution of pyridine, about 15 sec. 10. Reduce in a mixture containing 0.25% gelatin and 2% formalin 1 min. 11. Repeat steps 7 to 10 once or several times until the connective tissue fibers are completely stained. For cell staining (which may fail) proceed as follows: After the first insufficient staining of the connective tissue fibers, rinse in distilled water, dip for 1 sec in Gomori's solution and reduce immediately in gelatin-formalin without previous washing in pyridined water. This step can be repeated. 12. If the staining is too strong, decolorize as needed in 2% iron alum. 13. Toning in 0.2% gold chloride, 5 min or more, followed by fixation in 5% sodium thiosulfate, 1 min, is optional. Counterstain as desired. 14. Wash in tap water, dehydrate, clear in xylene and mount in balsam. The same technique applied to sections attached to slides gives good results but inferior to that obtained in paraffin sections processed in the loose, unmounted condition.     

A Urea Silver Nitrate Method for Nerve Fibers and Nerve Endings

A silver nitrate stain for nerve fibers and endings applicable to paraffin sections on the slide utilizes the properties of urea to accelerate the procedure and improve the specificity of the stain. After removal of the paraffin the sections are run through absolute, 95% and 80% alcohol and placed for 60-90 minutes at 50-60°C. in: 1% aqueous silver nitrate, 100 ml.; urea, 20-30 g.; 1g. mercuric cyanide and 1 g. picric acid in 100 ml. of distilled water, 1-3 drops. After the silver bath they are rinsed quickly in 2 changes of distilled water and reduced for 3-5 minutes at 25-30°C. in: water, 100 ml.; sodium sulfite, anhydrous, 10g.; hydroquinone, 1-2g.; urea, 20-30g. They are then washed thoroughly in 4-5 changes of distilled water, passed through graded alcohols into 80% alcohol and examined under the microscope. If nerve fibers are not distinct, the sections are returned to the same urea-silver-nitrate bath for 10-15 minutes, rinsed, reduced, washed and dehydrated as before. This process may be repeated until staining is adequate; then they are dehydrated, cleared, and mounted.

Nerve fibers show a color range from brown to black; nerve cells from yellow to brown; and the background, depending on the type of tissue and its fixation, from yellow to light brown.     

The Use of Protein Silver for Staining Protozoa

When commercially prepared silver products suitable for staining protozoa by the Bodian silver technic apparently became unavailable, a substitute for Protargol was prepared as follows: 0.9 g. of gelatin is dissolved by heat in 100 ml. of distilled water; to this 0.1 g. of silver nitrate is added at 60°C; this solution is poured into Columbia staining dishes (10 ml.) in which one or two drops of M/10 sodium hydroxide have been added. Copper is not used in the impregnating bath. Smears fixed in Hollande's or Schaudinn's fixatives are bleached and impregnated for 36 hours or more at 35°C. Impregnated smears are reduced with a mixture of hydroquinone and sodium sulfite, and toned with gold chloride as recommended by Kirby (1945).     

Staining Myelin Sheaths of Optic Nerve Fibers with Osmium Tetroxide Vapor

OsO₄ solution in water, long regarded as the best fixing and staining agent for myelin sheaths, has poor penetrating power. This peculiarity has limited its use to very small pieces of tissue. The vapor from an aqueous solution is known to have a much greater penetrating power for non-neural tissues than the solution itself but nothing has been recorded about its advantages for fixing and staining myelin sheaths of nerve fibers. Difficulties in securing adequate staining of the myelin sheaths in vertebrate optic nerves were overcome largely by the use of the vapor of OsO₄. The technic is carried out as follows: 1) suspend a portion of the nerve above a 2% solution of OsO₄ for 12-24 hours in an air-tight container at room temperature; 2) wash 4-6 hours in distilled water, dehydrate in ethyl alcohol (50% for 2 hours, 70% for 2 hours, and finally 95% overnight), and transfer to n butyl alcohol (2 changes of 2 hours each); 3) embed in paraffin, section, mount and cover in balsam in the customary manner.     

Silver Methenamine Staining for Scanning Electron Microscopy of Bone Sections Containing Biomaterials

Sections of tissue containing orthopedic materials are currently used to study the compatibility of those materials and to perform electron probe microanalysis at the material-tissue interface. Identification of the cells in contact with the material by Scanning electron microscopy (SEM) is of interest. We have developed a method for staining cells and tissue structures embedded in polymethyl methacrylate with silver methenamine once the sections have been obtained. Sections were prepared by grinding, and the silver methenamine was applied after oxidation with periodic acid. The procedure was carried out in a microwave oven. Backscatter SEM showed staining of the cell nucleus membrane, chromatin, the nuclear organizers, and the chromosomes of dividing cells. The cytoplasm and the cytoplasmic membrane were also stained. Collagen fibers of the extracellular matrix and the mineralized matrix of bone were labeled. Material particles in the macrophages were easily recognizable and Energy-Dispersive Spectrometer were not impaired by the presence of silver in the preparation.     

Foot's Silver and Acridine-Orange Fluorescence Staining of Pneumocystis Carinii in Smears and in Sections

Pneumocystis carinii was stained intensely by the modification of Hortega's silver carbonate method for reticulum. Paraffin sections and smears were fixed in formalin, then processed through all the steps of the staining technique as given in McClung's Handbook (Jones 1950), p. 258. Fluorescence microscopy was also very helpful in disclosing the parasite in air-dried smears. These, were processed through descending grades of ethanol and then stained in 0.01% Acridine orange in phosphate buffer, pH 6.0, for 2 min. The microorganism appeared in a brownish to red range of fluorescence, whereas disintegrated cellular nuclei ranged from green to yellow. A standard binocular microscope equipped with a high-pressure 200-watt mercury vapor burner (HBO 200, Osram) and the necessary filters (BG 12 as exciting and OG 5 or OG 4 as barrier filters) were used.     

Silver Staining of Bone Prior to Decalcification for Quantitative Determination of Osteoid in Sections

Slices, 1-2 mm thick, of alcohol-fixed bone are immersed in 2% aqueous AgNO₃ in the dark for 48 hr. After thorough washing in running tap water, the silver phosphate formed at the interface of osteoid and calcified bone is reduced to a black deposit by 5% aqueous sodium hypophosphite containing 0.1 N NaOH, 0.2 ml/100 ml. The blocks are then immersed in 5% aqueous Na₂S₂O₃ and after further washing pass through a routine formic acid decalcification and paraffin wax embedding schedule. Sections cut at 5 μ thickness and counterstained with Van Gieson's picrofuchsin show a clear differentiation between osteoid tissue and the outer limit of calcification in trabecular or cortical bone, thus making them suitable for quantitative studies. The main advantage of the method is the production of intact stained sections without specialised embedding or cutting techniques.