Epidermal feet in pupal segment morphogenesis

Epidermal cells in insect integumental epithelia develop branched cytoskeletal extensions or feet at their base that are similar in appearance to the processes put out by cells in tissue culture. We have developed a procedure to show the feet that gives an effect as if thousands of cells randomly arranged in the epithelium had each been injected with a lead salt visualized as black lead sulphide. The procedure depends upon the fact that after brief glutaraldehyde fixation, tannic acid only penetrates some cells where it mordants lead ions and binds osmium. Individual cells visualized in this manner show their outlines as if they are separate in a tissue culture although they are part of a closely packed epithelium. The feet are metamorphic structures formed after pupal commitment and are necessary for metamorphic changes in segment shape. In Calpodes larvae the feet are orientated axially in the direction of the segmentally repeating gradient and may extend for several cell diameters. They extend under the influence of low titres of 20-hydroxyecdysone such as those occurring in the intermoult. When stimulated by high titres like those in pre-pupae, the feet contract at the same time as the segments shorten to pupal proportions. We believe that cell processes like the epidermal feet are ubiquitous but that they have often been overlooked because of the difficulty of demonstrating the outlines of single cells that are united in epithelia.     

Microwave Stimulation for Commonly Used Mordants

Mordants are frequently used in histologic staining techniques. Standard procedures for mordants typically require long incubations of 1 hr or more at 60 C. This paper reports the use of microwave stimulation of mordants to shorten mordant time, minimize tissue loss or damage and improve the quality of the tissue staining.     

Molybdic and tungstic heteropolyanions for "ionic fixation" of acetylcholine in cholinergic motor nerve terminals

The treatment of neuromuscular junctions with phosphomolybdic acid (PMA) and silicotungstic acid (STA) heteropolyanions permits the visualization of electron dense precipitates in the synaptic vesicles of the cholinergic motor nerve terminals. At the light microscopic level, the uncolored molybdenum salt is visualized after reduction to molybdenum blue. The blue coloration is confined to the nerve terminals. Since PMA and STA are known as strong precipitating agents of quaternary ammonium compounds (cations) it is supposed that they have insolubilized in situ the acetylcholine (Ach) of the synaptic vesicles by means of a rapid ionic interaction. Furthermore, in spite of the strong acidity of PMA and STA solutions, the ultrastructure of the treated tissue is not significantly altered but on the contrary seems to be well preserved. The ionic insolubilization of Ach, added to the good preservation of the ultrastructure prompted us to use the term "ionic fixation".     

The role of phosphotungstic and phosphomolybdic acids in connective tissue staining I. Histochemical studies

Synopsis An investigation of the role of phosphotungstic and phosphomolybdic acids in Mallory-like trichrome methods showed unexpectedly that, rather than acting as mordants to anionic dyes, these polyacids selectively blocked staining of all tissue components other than connective tissue fibres to Aniline Blue and other similar fibrereactive dyes. Connective tissue components were found to contain residues resembling histidine that are easily accessible to anionic dyes. Blocking towards typical anionic dyes for demonstrating plasma proteins, such as Biebrich Scarlet, was also demonstrated but was less complete. The blockade of both types of dye was labile if the staining times were extended; plasma dyes were more sensitive than fibre dyes in this respect. Histochemical reactions for tyrosine residues were blocked. In connective tissue, phosphotungstic acid did not block histidine residues demonstrable by the coupled tetrazonium reaction with previous iodination. Thus it is postulated that differential trichrome staining occurs by binding of Aniline Blue to basic residues in the connective tissue not blocked by phosphotungstic acid and subsequent replacement of the blocking agent by an anionic dye. The binding of phosphotungstic acid to both epithelium and connective tissue was demonstrated by the quenching of autofluorescence in these regions and by the reduction of the bound PTA to blue coloured products with titanium trichloride.     

Gallocyanin-Chrome Alum: I. Technique and Specificity

Certain technical aspects of gallocyanin-chrome alum were examined relative to its supposed specificity for nucleic acids. Five different lake formulae were prepared using four different batches of gallocyanin. Spectrophotometric curves were made of each lake and of each dye in a simple water solution. Paraffin sections 6-8 μ thick of spinal cords from albino rats and from cats fixed in CaCl₂-formalin or plain formalin were stained 10 min to 48 hr with gallocyanin lakes made with chrome alum, ferric alum, strontium chloride and copper nitrate. Similar sections were treated with ribonuclease or perochloric acid and stained in the same manner. The spectrophotometric data indicates considerable variation in dye content between different batches and different lakes. Chrome alum was the best of the 4 mordants and a 12-15 hr staining time with Einarson's 1932 preparation was optimal. Neither perchloric acid nor ribonuclease destroyed cytoplasmic basophilia as revealed by gallocyaninchrome alum. Staining was more intense after CaCl₂-formalin fixation than after plain formalin. Variation of the dye content in the different batches of dyes, the poorly understood role of boiling in preparing the lakes, and the inability of ribonuclease or perchloric acid to destroy cytoplasmic basophilia indicates that we are not dealing with a histochemically specific reagent for nucleic acid, but only a desirable nuclear stain.     

Activity,stability and enantioselectivity of lipase-coated microcrystals of inorganic salts in organic solvents

Lipase-coated microcrystals of inorganic salts were prepared by dissolving enzymes in buffers and then mixing with 3 volumes of saturated salt solutions followed by drop-wise addition into polar precipitating organic solvents. The Mucor javanicus lipase-coated microcrystals did not show any activity for esterification of lauric acid with 1-propanol in isooctane when NaCl and Na₂SO₄ were used as the salts but showed much higher activity than the enzyme powder when KCl (10.0 times) and K₂SO₄ (5.8 times) were used as the salts and precipitated in 1-propanol. Acetonitrile was found to be the best precipitating solvent for preparing M. javanicus lipase-coated microcrystals, with enzyme activities 26.2 and 22.4 times higher than that of the enzyme powder when KCl and K₂SO₄ were used as precipitating salts, respectively. The presence of water in the precipitating solvents markedly decreased the enzyme activity. The M. javanicus lipase-coated microcrystals prepared using K₂SO₄ as the salt and acetonitrile as the precipitating solvent was as active at 80°C as at 40°C. No significant improvement in enantioselectivity of Candida rugosa lipase-coated microcrystals was observed for transesterification of 1-phenylethanol with vinyl acetate in hexane when the microcrystals were prepared by dissolving the enzymes in salt solutions containing 25% (v/v) of acetone or 2-propanol before precipitating in polar solvents.     

Alkaline and Acid Phosphatase Demonstration in Human Bone and Cartilage: Effects of Fixation Interval and Methacrylate Embedments

Human bone and cartilage specimens were evaluated for acid and alkaline phosphatase localization following varying fixation periods for fresh or frozen tissue. Formalin fixations of up to 183 hr were followed by embedment in methyl methacrylate; frozen tissue was examined either without fixation or following fixation for up to 1 hr and subsequent glycol or methyl methacrylate embedding. The humeral epiphysis of a young patient with osteogenic sarcoma showed optimum acid and alkaline phosphatase localization following fixation for periods up to 15 hr and embedding in methyl methacrylate. Frozen costochondral junction from a newborn with osteogenesis imperfecta type II showed optimum acid and alkaline phosphatase localization following 30 min fixation in formalin and embedding in methyl methacrylate or after 5 min fixation and embedding in glycol methacrylate.     

Alkaline and acid phosphatase demonstration in human bone and cartilage: effects of fixation interval and methacrylate embedments

Human bone and cartilage specimens were evaluated for acid and alkaline phosphatase localization following varying fixation periods for fresh or frozen tissue. Formalin fixations of up to 183 hr were followed by embedment in methyl methacrylate; frozen tissue was examined either without fixation or following fixation for up to 1 hr and subsequent glycol or methyl methacrylate embedding. The humeral epiphysis of a young patient with osteogenic sarcoma showed optimum acid and alkaline phosphatase localization following fixation for periods up to 15 hr and embedding in methyl methacrylate. Frozen costochondral junction from a newborn with osteogenesis imperfecta type II showed optimum acid and alkaline phosphatase localization following 30 min fixation in formalin and embedding in methyl methacrylate or after 5 min fixation and embedding in glycol methacrylate.     

A new method for the preparation of solid-phase immunoadsorbents

A solid-phase immunoadsorbent was prepared by insolubilization of antibody during precipitation with Na₂SO₄. The polyaldehyde macromolecule created by periodate oxidation of dextran (macrofixative) served as the insolubilizing, crosslinking agent. After appropriate fixation, the precipitate was stable to removal of the precipitating salt, to washing, and, to a large extent, to heating in the denaturing detergent, sodium dodecyl sulfate. Under proper conditions, the precipitate retained satisfactory antibody activity, although very high molecular weight antigens were apparently excluded from the internal active sites of the solid-phase matrix. This method provides the advantage of insolubilization of the primary antibody in a small volume; for analytical work, the entire precipitate, with bound antigen, may be quantitatively applied to a polyacrylamide gel (tube or slab) and electrophoresed without overloading by the binding antibody. This method might also be extended for use in immunoisolation procedures employing standard eluting agents, as well as insolubilization of proteins other than immunoglobulin.     

Phase-partition fixation and staining of Drosophila eggs.

Aqueous solutions of alcohol-acetic acid-formalin or glutaraldehyde-acrolein were shaken with heptane and heptane phase used for fixation. Phase-partition fixation is akin to fixation with vapor. The organic solvent, immiscible with water, penetrates hydrophobic membranes and carries the fixative in contact with water phase of the tissue. Only the fixative enters the tissue, without changing the ionic and water-soluble substance concentrations in the tissue. The quality of this fixation for optical or electron microscopy was as good as that of any conventional fixation method. Staining with basic fuchsin after 2 N HCl hydrolysis gave brilliant staining of nuclei, more intense than that with Feulgen reagent, while cytoplasm remained nearly colorless. Fixing and staining procedures for Drosophila eggs are given.     

Effects of fixation for immunohistochemistry on tissue concentrations of substance P and somatostatin determined by radioimmunoassay

Concentrations of substance P and somatostatin were measured in preparations of the myenteric plexus (plus longitudinal muscle) of the guinea-pig ileum after fixation and processing for immunohistochemistry and compared with concentrations measured in fresh tissue. Two fixative solutions were used: (i) 4% formalin in phosphate buffer (0.1 M, pH 7.0); and (ii) a mixture of aqueous picric acid with 2% formalin in phosphate buffer (0.1 M, pH 7.0). Tissues were extracted in boiling aqueous acetic acid (2.0 M) either immediately after fixation and processing or after storage for up to four weeks in phosphate-buffered saline (PBS) with or without sodium azide. The concentrations of substance P and somatostatin in these extracts were measured by radioimmunoassay and compared to the concentrations in extracts of fresh tissue. The concentration of substance P in fixed tissue was the same as that found in fresh tissue, whereas the concentration of somatostatin in fixed tissue was half that found in fresh tissue (P<0.01). If the tissue was not subjected to the extensive washing for immunohistochemistry, somatostatin concentrations in fresh and fixed tissue were not significantly different. The concentration of substance P did not change on storage of the fixed tissue in PBS, either with or without sodium azide. The concentration of somatostatin decreased on storage of the fixed tissue in PBS over four weeks to 40% of its original value, but the presence of sodium azide maintained the concentration at 60% at four weeks. Neither fixative solution interfered with the radioimmunoassay except at very high concentrations. Fixation for 24h gave the highest estimates of each of the peptides. It is concluded that fixation can be a useful alternative to freezing for preservation of peptides in tissue for radioimmunoassay.     

Porcine Intestinal Mast Cells. Evaluation of Different Fixatives for Histochemical Staining Techniques Considering Tissue Shrinkage

Staining of mast cells (MCs), including porcine ones, is critically dependent upon the fixation and staining technique. In the pig, mucosal and submucosal MCs do not stain or stain only faintly after formalin fixation. Some fixation methods are particularly recommended for MC staining, for example the fixation with Carnoy or lead salts. Zinc salt fixation (ZSF) has been reported to work excellently for the preservation of fixation-sensitive antigens. The aim of this study was to establish a reliable histological method for counting of MCs in the porcine intestinum. For this purpose, different tissue fixation and staining methods that also allow potential subsequent immunohistochemical investigations were evaluated in the porcine mucosa, as well as submucosa of small and large intestine. Tissues were fixed in Carnoy, lead acetate, lead nitrate, Zamboni and ZSF and stained subsequently with either polychromatic methylene blue, alcian blue or toluidine blue. For the first time our study reveals that ZSF, a heavy metal fixative, preserves metachromatic staining of porcine MCs. Zamboni fixation was not suitable for histochemical visualization of MCs in the pig intestine. All other tested fixatives were suitable. Alcian blue and toluidine blue co-stained intestinal goblet cells which made a prima facie identification of MCs difficult. The polychromatic methylene blue proved to be the optimal staining. In order to compare MC counting results of the different fixation methods, tissue shrinkage was taken into account. As even the same fixation caused shrinkagedifferences between tissue from small and large intestine, different factors for each single fixation and intestinal localization had to be calculated. Tissue shrinkage varied between 19% and 57%, the highest tissue shrinkage was found after fixation with ZSF in the large intestine, the lowest one in the small intestine after lead acetate fixation. Our study emphasizes that MC counting results from data using different fixation techniques can only be compared if the respective studyimmanent shrinkage factor has been determined and quantification results are adjusted accordingly.Key words: mast cell, swine, fixation, tissue shrinkage factor     

Fixation requirements for the immunohistochemical reactivity of PCNA antibody PC10 on cryostat sections

Summary In contrast to that in paraffin-embedded tissue, the reactivity of monoclonal PCNA antibody PC10 on cryostat sections requires a special fixation procedure as the target epitope is seemingly not accessible to its antibody. A panel of 18 fixation protocols was investigated. Chilled methanol or acetone, or PLP (paraformaldehyde-lysine-periodate) was found to be unsuitable for skin preparations. A two-step fixation protocol was developed for normal skin and basal cell carcinomas. They were fixed first in 3.4% buffered formaldehyde, followed by fixation in 2:1 v/v ethanol-acetic acid. Following this fixation regime, cryostat sections displayed the same PCNA/PC10 labelling pattern as paraffin sections of formalin-fixed tissue.     

Some effects of salts on staining: Use of the Donnan Equilibrium to describe staining of tissue sections with acid and basic dyes

Summary Using a wide variety of acid and basic dyes, and dyebaths of various pH’s and salt contents, it was shown that various effects of neutral inorganic salts on the staining of tissue sections could be explained by the Donnan Membrane Equilibrium. Thus the simultaneous increases in staining of some tissue components and decreases in staining of others, which occur on adding salt to the dyebaths, are often explicable in terms of the Donnan Equilibrium. The variation in staining intensity with dye charge, seen with a number of acid dyes, also agreed with the predictions of the Donnan Equilibrium. The Donnan Equilibrium was applied to understanding the mode of action of various biological staining methods requiring salt in the dyebaths; namely the Best’s Carmine glycogen stain, the Alcian Blue and Congo Red methods for amyloid, and the salty periodic acid-Schiff procedure for anionic mucosubstances.     

Neuron Staining by Basic Dyes Versus Basic Metal-Dye Complexes; Differences Shown by Histochemical Blocking Reactions

Various blocking procedures were applied to sections of paraffin-embedded, formalin-fixed cat spinal cord. Treated sections and untreated controls were stained with cresyl violet acetate or gallocyanine-chrome alum. Although both dyes have been said to stain by simple salt formation it was found that staining was affected differently for each dye by the blocking procedures, and also that staining of neuron nuclei differed in the controls. In these, the cresyl violet acetate stained only the nucleoli within the nucleoplasm whereas gallocyanine-chrome alum stained much more material of unknown composition and function. It is proposed that if cresyl violet acetate and other basic dyes stain by salt linkage, and can be specific for nucleic acid and other highly acid materials, then gallocyanine and other basic metal dye complexes can not be specific for nucleic acid and do not stain by a simple salt linkage.     

Simultaneous demonstration of bone alkaline and acid phosphatase activities in plastic-embedded sections and differential inhibition of the activities

Summary Bone alkaline (AlP) and acid phosphatase (AcP) activities were simultaneusly demonstrated in tissue sections obtained from mice, rats, and humans. The method involved tissue fixation in ethanol, embedding in glycol methacrylate (GMA), and demonstration of AlP and AcP activities employing a simultaneous coupling azo dye technique using substituted naphthol phosphate as a substrate. AlP activity was demonstrated first followed by AcP activity. Both enzyme activities were demonstrated in tissue sections from bones fixed and/or stored in acetone or 70% ethanol for up to 14 days or stored in GMA for 2 months. AlP activity in tissue sections from bones fixed in 10% formalin, 2% glutaraldehyde, or formal-calcium, however, was markedly inhibited after 3–7 days and was no longer detectable after 14 days of fixation. Moreover, AlP activity was diminished in tissue sections from bones fixed in 70% ethanol or 10% formalin and subsequently demineralized in 10% EDTA (pH7) for 2 days, and the activity was completely abolished in tissue sections from bones subsequently demineralized in 5% formic acid: 20% sodium citrate (1:1, pH 4.2) for 2 days. Methyl methacrylate (MMA) embedding at concentrations above 66% completely inhibited AlP activity. AcP activity, however, was only partially inhibited by formalin, glutaraldehyde, or formal-calcium after 7 or 14 days of fixation or by MMA embedding and was unaffected by the demineralizing agent formic acid-citrate for 2 days. While AcP activity was preserved in bones fixed in formalin and subsequently demineralized in EDTA, the activity was completely abolished when EDTA demineralization was carried out on bones previously fixed in 70% ethanol. These results indicate that bone AlP and AcP activities can be demonstrated simultaneously in the same section using a simple tissue preparation technique and that the activities are retained in tissues fixed and/or stored in acetone, 70% ethanol or GMA, but are differentially inactivated by other fixatives studied, and by EDTA, formic acid-citrate, and MMA embedding.Abbreviations AcP acid phosphatase - AlP alkaline phosphatase - GMA glycol methacrylate - MMA methyl methacrylate - EDTA ethylenediaminetetraacetic acid     

Staining human lymphocytes and onion root cell nuclei with madder root

We performed staining experiments on cells using natural dyes and different mordants using techniques that are used for wool and silk dyeing. The natural dye sources were madder root, daisy, corn cockle and yellow weed. Ferrous sulfate, copper sulfate, potassium tartrate, urea, potassium aluminum sulfate and potassium dichromate were used as mordants. Distilled water, distilled water plus ethanol, heptane, and distilled water plus methanol were used as solvents. All dye-mordant-solvent combinations were studied at pH 2.4, 3.2 and 4.2. The generic staining procedure was to boil 5–10 onion roots or stimulated human lymphocyte (SHL) preparations in a dye bath on a hot plate. Cells were examined at every half hour. For multicolor staining, madder-dyed lymphocytes were decolorized, then stained with Giemsa. The AgNOR technique was performed following the decolorization of Giemsa stained lymphocytes. Good results were obtained for both onion root cells and lymphocytes that were boiled for 3 h in a dye bath that included 4 g madder root, 4 g ferrous sulfate as mordant in 50 ml of 1:1 (v/v) methanol:distilled water. The pH was adjusted to 4.2 with 6 ml acetic acid. We conclude that madder root has potential as an alternative dye for staining biological materials.     

The effect of fixation on the chemical extraction of glycogen from rat liver

Synopsis Small samples of rat liver, weighing 15 mg or less, were either (a) frozen in liquid nitrogen or (b) fixed at 4°C for 5 min to 2 hr in absolute alcohol, alcoholic picric acid (Rossman's fluid), or aqueous picric acid (Bouin's fluid). The tissue samples were analysed for total glycogen content by a modification of the procedure described by Goodet al. (1933).Comparable yields of glycogen were extracted from freshly frozen and fixed tissue samples. The time of fixation had no apparent effect on the amount of glycogen that could be extracted chemically. Dissolved glycogen was not detectable in the fixatives.It is concluded that (a) the fixatives used in this study do not significantly affect the yield of chemically extractable glycogen from liver; (b) fixation is extremely rapid; and (c) alcoholic fixatives are not significantly superior to aqueous picric acid fixatives for preservation of chemically extractable glycogen in very small samples of tissue.     

Simultaneous demonstration of bone alkaline and acid phosphatase activities in plastic-embedded sections and differential inhibition of the activities

Bone alkaline (AlP) and acid phosphatase (AcP) activities were simultaneously demonstrated in tissue sections obtained from mice, rats, and humans. The method involved tissue fixation in ethanol, embedding in glycol methacrylate (GMA), and demonstration of AlP and AcP activities employing a simultaneous coupling azo dye technique using substituted naphthol phosphate as a substrate. AlP activity was demonstrated first followed by AcP activity. Both enzyme activities were demonstrated in tissue sections from bones fixed and/or stored in acetone or 70% ethanol for up to 14 days or stored in GMA for 2 months. AlP activity in tissue sections from bones fixed in 10% formalin, 2% glutaraldehyde, or formal-calcium, however, was markedly inhibited after 3-7 days and was no longer detectable after 14 days of fixation. Moreover, AlP activity was diminished in tissue sections from bones fixed in 70% ethanol or 10% formalin and subsequently demineralized in 10% EDTA (pH 7) for 2 days, and the activity was completely abolished in tissue sections from bones subsequently demineralized in 5% formic acid: 20% sodium citrate (1:1, pH 4.2) for 2 days. Methyl methacrylate (MMA) embedding at concentrations above 66% completely inhibited AlP activity. AcP activity, however, was only partially inhibited by formalin, glutaraldehyde, or formal-calcium after 7 or 14 days of fixation or by MMA embedding and was unaffected by the demineralizing agent formic acid-citrate for 2 days. While AcP activity was preserved in bones fixed in formalin and subsequently demineralized in EDTA, the activity was completely abolished when EDTA demineralization was carried out on bones previously fixed in 70% ethanol.(ABSTRACT TRUNCATED AT 250 WORDS)     

Ultrastructural visualization of the transmembranous and cytomatrix-related part of nicotinic acetylcholine receptor of frog motor endplate by means of an immunochemical avidity of IgG for d-tubocurarine

In the present study, a fine ultrastructural localization of nicotinic acetylcholine receptor (nAChR) was attempted, using d-tubocurarine (d-TC), a quaternary ammonium compound binding to nAChR. The localization was based on the binding avidity of immunoglobulin G (IgG) for acetylcholine (ACh) and other quaternary ammonium compounds, such as d-TC. d-TC was applied to the frog neuromuscular preparation and caused a blockade of neuromuscular transmission. Then, d-TC was rendered insoluble in situ by silicotungstic acid (STA), a precipitating agent of soluble proteins and quaternary ammonium compounds. After tissue fixation, a normal rabbit serum was applied to the fine precipitate of the insoluble salt of d-TC silicotungstate (quaternary ammonium radical of d-TC) to form the immunochemical complex d-TC- rabbit IgG at ACh binding sites. The IgG of the complex was revealed by means of the conventional immunoperoxidase procedure used for ultrastructural localization. Under the electron microscope, fine diaminobenzidine (DAB) precipitates appeared as regular rod-like structures oriented to cytoplasmic side of the horizontal part (crest) of the postsynaptic membrane (between the junctional folds) which is known to be endowed with nAChR. The rod-like precipitates were not observed in the postsynaptic junctional folds which are devoid of nAChR. The distance separating the rods each other was rather constant (12 - 15 nm), while the length of the rods was variable and exceeded the usual length of nAChR. The present work indicates that the rod-like structures, already observed in association with sarcoplasmic side of the postsynaptic membrane, did correspond to the intramembranous and intracytoplasmic part of nAChR and related proteins. These cytochemical results confirm that d-TC binds to ACh binding sites in the pore of nAChR, and raise the question of DAB staining of cytoskeletal proteins related to the nAChR complex.