A Department Devoted to Abstracts of Books and Papers from Other Journals Dealing With Stains and Microscopic Technic in General

TO enable staining of insoluble calcium salts with glyoxal bis(2-hydroxyanil) (GBHA), the original solution containing 2 ml of 0.4% GBHA in absolute ethanol, and 0.3 ml of aqueous 5% NaOH, and limited to staining only soluble calcium salts, was modified as follows: 1, 2 ml of 0.4% GBHA in absolute ethanol in 0.6 ml of 10% aqueous NaOH; 11, 0.1 gm GBHA in 2 ml of 3.4% NaOH in 75% ethanol. To prevent diffusion and loss of calcium, the tissues were processed by the freeze-substitution or freeze-dry method and sections stained without removing the paraffin. Modification I is effective only when 1 or 2 drops placed on the section are evaporated gradually to dryness, concentrating the GBHA and NaOH on the insoluble calcium salts. Modification II is effective when dried or poured on the the section and allowed to stain for 5 min. The stained slides are immersed for 15 min in 90% ethanol saturated with KCN and Na₂CO₃ for specificity to calcium; rinsed and counterstained in 95% ethanol containing 0.1% each of fast green FCF and methylene blue; rinsed and dehydrated in ethanol; deparaffinized and cleared in xylene; and mounted in neutral synthetic resin. Although the modified methods tested on models failed to stain reagent grade CaCO₃ and Ca₃(PO₄)₂ crystals completely, apatite in developing vertebrae and calcified plaques in soft tissues were stained intensely red. The distribution of gross deposits of insoluble calcium salt in tissue sections corresponded with that shown in adjacent sections by the alizarin red S, ferrocyanide, and von Kossa methods. The modified GBHA method revealed smaller quantities of insoluble as well as soluble calcium salts discretely within cells where the other methods failed; also, calcium in cytoplasm of hypertrophied cartilage cells of developing vertebrae, and in cytoplasm of renal tubular cells of magnesium-deficient rats, not described previously, was demonstrated.     

Comparative study of procedures for histological detection of lectin binding by use of Griffonia simplicifolia agglutinin I and gastrointestinal mucosa of the rat

Summary The histological localisation of -D-galactopyranosyl residues in glycoconjugates of rat stomach and duodenal mucosae was studied by use of Griffonia simplicifolia agglutinin I, i.e. the isolectin mixture (A+B) and the isolectin B₄ (B₄). Cryostat sections which were either unfixed or acetone fixed and paraffin sections from both ethanolacetic acid and formaldehyde fixed tissue blocks were compared. Cellular details were better preserved in paraffin than in cryostat sections. Reactivity of cells binding GS I was less sensitive after formaldehyde than after ethanol-acetic acid fixation inasmuch as higher concentrations of lectins were needed. This drawback could be overcome by trypsinisation of the sections. The binding pattern of GS I (A+B) corresponded with that of GS I (B₄) in either cryostat or paraffin sections. GS I was detected in the cytoplasm of parietal cells and in Brunner's gland cells. In duodenal crypts and villi, lectin was bound to supranuclear regions in the cytoplasm of columnar and goblet cells. The staining efficiency of fluorescein (FITC), horseradish peroxidase (HRP) and colloidal gold particle (CGP) labels in both direct and indirect lectin stainings was compared. Under all experimental conditions, indirect methods required lower concentrations of lectins than direct ones; indirect procedures increased sensitivity about 5–10 fold. CGP labels were always of highest sensitivity when gold particles were further developed by a silver precipitation method. HRP was not as efficient in lectin localisation as CGP, but cytochemical staining was more convenient in routine work. Direct FITC labellings proved to be of lowest sensitivity.     

Post-embedding staining of rat gastric mucous cells with lectins

Summary The mucous cells of the rat stomach were stained with lectins by two post-embedding staining methods for electron microscopy. The mucous granules of surface mucous cells and foveolar mucous cells were stained weakly by Ricinus communis agglutinin-ferritin and wheat germ agglutinin-ferritin. The mucous granules of mucous neck cells were stained by concanavalin A-ferritin, Ricinus communis agglutinin-ferritin and wheat germ agglutinin-ferritin. The mucous granules of pyloric gland cells showed an affinity for wheat germ agglutinin-ferritin and concanavalin A-ferritin, while Ricinuscommunis agglutinin-ferritin only slightly stained the granules. The granules of mucous neck cells and pyloric gland cells were also stained by the concanavalin A-horseradish peroxidase-colloidal gold method, but the granules of surface and foveolar mucous cells were not stained by this method. Periodic acid oxidation of the sections before the standard concanavalin A-ferritin procedure enhanced the staining of the granules of mucous neck cells and pyloric gland cells slightly. Reduction of the sections after the periodic acid oxidation weakened the staining. Similar results were obtained using the concanavalin A-horseradish peroxidase-colloidal gold method. Though the staining with Ricinus communis agglutinin-ferritin was inhibited by periodic acid oxidation of the sections before staining, the staining with wheat germ agglutinin-ferritin was not inhibited by the oxidation. It is suggested that the paradoxical staining is closely related to the position of the concanavalin A-binding sugar residues in the carbohydrate chains.This work was supported in part by a grant-in-aid (No. 457008) from the Ministry of Education, Science and Culture, Japan and a grant-in-aid for cancer research (55-21) from the Ministry of Health and Welfare, Japan     

Localization of ATPase in the endoplasmic reticulum and golgi apparatus of barley aleurone

Summary The cytochemical localization of adenosine triphosphatase (ATPase) was studied in the aleurone layer of barley (Hordeum vulgare L. cv. Himalaya). Isolated barley aleurone layers secrete numerous enzymes having acid phosphatase activity, including ATPase. The secretion of these enzymes was stimulated by incubation of the aleurone layer in gibberellic acid (GA₃). ATPase was localized using the metal-salt method in tissue incubated in CaCl₂ with and without GA₃. In sections of tissue incubated without GA₃, cytochemical staining was confined to a narrow band of cytoplasm adjacent to the starchy endosperm and to the cell wall of the innermost tier of aleurone cells. Cytochemical staining was absent from the organelles of tissues not treated with GA₃. In tissue incubated in the presence of GA₃, cytochemical staining was evident throughout the cytoplasm and cell walls of the tissue. In the cell wall, electron-dense deposits were found only in digested channels. The cell-wall matrix of GA₃-treated aleurone did not stain, indicating that it does not permit diffusion of enzyme. In the cytoplasm of GA₃-treated aleurone, all organelles except microbodies, plastids, and spherosomes stained for ATPase activity; endoplasmic reticulum (ER), Golgi apparatus, and mitochondria showed intense deposits of stain. The ER of the aleurone is a complex system made up of flattened sheets of membrane, which may be associated with both the Golgi apparatus and the plasma membrane. The dictyosome did not stain uniformly for ATPase activity; rather there was a gradation in staining of the cisternae from thecis (lightly stained) to thetrans (heavily stained) face. Vesicles associated with dictyosome cisternae also stained intensely as did the protein bodies of GA₃-treated aleurone cells.     

A post-embedding avidin-biotin peroxidase system to demonstrate the light and electron microscopic localization of lectin binding sites in rat kidney tubules

Summary A post-embedding method for the light and electron microscopic demonstration of lectin binding sites in rat kidney tubules is described. The use of biotinylated lectins, followed by treatment with avidin peroxidase and the DAB—H₂O₂ sequence, produced intense staining of acrylic sections at the electron microscope level: brush borders and associated structures, cytoplasmic granules, basal infoldings and basement membrane—plasmalemmal interfaces of proximal tubules bound erythrophytohaemagglutinin, while distal tubules were mainly unstained. At the light microscope level, epoxy resin sections showed a similar staining pattern after etching, as did acrylic resin sections after intensification of the final reaction product. The binding of wheatgerm agglutinin to cytoplasmic granules and brush border structures in the proximal tubules was abolished, at both the light and electron microscope levels, by the competing sugar tri-N—acetylchitotriose. Epoxy resin ultrathin sections required etching before staining was achieved in the electron microscope, and results were far inferior to those obtained with acrylic resin. This method allows rapid and inexpensive screening of large numbers of lectins, if required, at both the light and electron microscope levels, using reagents that are stable for long periods of time.     

Photosynthetic activity of epilithic algal communities in sections of the Torna stream (Hungary) with natural and modified riparian shading

The photosynthetic activity of epilithon grown in the Torna-stream (Hungary) was studied. Samples were collected from natural sections with closed canopy and natural stream bed and from modified sections with trapezoid river bed and shores lacking riparian vegetation. We assumed that human modifications would have a significant impact on epilithic photosynthesis, and therefore expected to observe corresponding changes in photosynthesis–irradiance (P–I) parametric. The laboratory P–I measurements were carried out monthly between April 2008 and September 2009 with epilithon after 3 weeks of in situ colonization. The maximum rate of the photosynthesis (P _max) correlated positively with the chlorophyll a content of the samples. Natural sites had lower biomass and P _max values than modified sites, and the biomass differed substantially in spring and summer, the P _max differed significantly only in spring. Natural sections had higher biomass-specific photosynthesis values than modified sections in all seasons, but the difference was significant only in summer–autumn: in summer the samples from the natural sections had significantly higher photosynthetic efficiency. In spring and summer, the photoadaptation parameters (I _k ) of communities grown in modified sections were substantially higher than in natural sections. Light availability appeared to be the major factor regulating the seasonal photosynthetic activity of epilithic communities.     

An ultrastructural assessment of mitochondria in the gastric parietal cell with the high iron cliamine method

Summary The ultrastructural densification of mitochondria by the high iron diamine (HID) method has been investigated by staining gastric parietal cells with each component of the HID reagent, alone or in combination, or with an otherwise modified HID solution. The effect of certain chemical treatments prior to staining has also been assessed. These tests provided evidence for at east three cytochemically distinguishable constituents in the mitochondrial matrix. In addition, the results from these tests and observations obtained with a newly introduced diaminobenzidine (DAB)-FeCl₃ staining reagent indicated that the probable mode of action of the HID method in imparting density to mitochondrial matrix entails combination between a complex of iron with polymerized or aggregatedm- andp-diamine and some matrix constituent. Assessment of the cytochemical staining in varied fixation condition revealed that the lucent population of mitochondria recently described in HID-stained parietal cells reflects a failure to stain with the method because of inadequate fixation.The possible nature of the HID-reactive substance in the mitochondrial matrix is discussed in the light of these observations and other cytochemical reactivities.     

Immunocytochemical detection of sulphonylated DNA in tissue sections

Summary We report here on a new sensitive and highly specific DNA staining technique which we have called sulpho-DNA staining. DNA staining is based on a sulphonylation reaction of 2-deoxycytidine or cytidine that takes place in the 6th position of cytosine with ensuing immunodetection of the sulphonylated DNA. The specificity of DNA staining is introduced by the use of an antibody recognizing only modified DNA but not modified RNA, by recourse to an additional acid hydrolysis step which destroys RNA but not DNA. We describe here the optimal conditions for the sulphonylation of DNA using O-methylhydroxylamine and metabisulphite as reactants. The new DNA stain labels all nuclei in either normal human tissue or in tumor cells. For nuclear DNA the staining signal is higher for the sulpho-DNA staining than for the Feulgen staining for nuclear DNA. This new DNA staining technique is suitable for use on tissue sections as well as on cytosmears.     

Redistribution of cell membrane probes following contraction-induced injury of mouse soleus muscle

Our aim was to study how mouse skeletal muscle membranes are altered by eccentric and isometric contractions. A fluorescent dialkyl carbocyanine dye (DiOC₁₈(3)) was used to label muscle membranes, and the membranes accessible to the dye were observed by confocal laser scanning microscopy. Experiments were done on normal mouse soleus muscles and soleus muscles injured by 20 eccentric or 20 isometric contractions. Longitudinal optical sections of control muscle fibers revealed DiOC₁₈(3) staining of the plasmalemma and regularly spaced transverse bands corresponding in location to the T-tubular system. Transverse optical sections showed an extensive reticular network with the DiOC₁₈(3) staining. Injured muscle fibers showed distinctively different staining patterns in both longitudinal and transverse optical sections. Longitudinal optical sections of the injured fibers revealed staining in a longitudinally-oriented pattern. No correlations were found between the abnormal DiOC₁₈(3) staining and the reductions in maximal isometric tetanic force or release of lactate dehydrogenase (P0.32). Additionally, no difference in the extent of abnormal staining was found between muscles performing eccentric contractions and those performing the less damaging isometric contractions. However, many fibers in muscles injured by eccentric contractions showed swollen regions with marked loss of membrane integrity and an elevated free cytosolic calcium concentration as observed in Fluo-3 images. In conclusion, a loss of cell membrane integrity results from contractile activity, enabling DiOC₁₈(3) staining of internal membranes. The resulting staining pattern is striking and fibers with damaged cell membranes are easily distinguished from uninjured ones.     

A modification of the amidoblack-TCA-staining for quantitative microspectrometrical determination of proteins in tissue sections

Summary Conditions are described by which cells and fresh frozen tissues, following fixation with ethanol-ether, and after staining with the amidoblack (AB)-TCA-staining method, show a modified dye/protein ratio of 0.9 moles AB/10⁵ g protein compared to 8.5 moles AB/10⁵ g protein (Schauenstein et al. 1980) as in a previously used method. In contrast to the AB-TCA-method, which leads to extremly high and unmeasurable extinctions in tissue sections, staining with the modified AB-TCA-23st-method with 10 m tissue sections produces easily measurable extinction values.A correlation of the microspectrometrically determined mean total extinction values of different cell types and nuclei after staining with the tetrazonium method (Nöhammer 1978; Nöhammer and Desoye 1981) and on the other hand with the AB-TCA 23st-method has been found. The microspectrometrically determined extinctions after AB-TCA 23st-staining can be calculated; an extinction of 0.04248 corresponds to 1 pgm protein.Dedicated to Prof. Dr. E. Schauenstein on the occasion of his 65th birthday     

DISTRIBUTION OF CALCIUM OXALATE CRYSTAL IDIOBLASTS IN CORMS OF TARO (COLOCASIA ESCULENTA)

The morphology and distribution of intracellular crystals of calcium oxalate in taro (Colocasia esculenta) was studied by light microscopy. The modified Pizzolato (AgNO₃-H₂O₂) method was used to localize crystals in cleared corm cross sections. Crystals of two forms were found: druses and raphides. The numbers and density of the crystals in corms increase rapidly in early development, then level off, and eventually decrease in older and larger corms. An especially high concentration of druses was observed 2-3 mm from the exterior edge of many corms. This corresponds to a ring of vascular tissue which circumscribes the corm at approximately the same distance from the surface. Observations suggest that the development of these highly specialized cells and the formation of calcium oxalate crystals is a dynamic process.     

Localization of binding sites of Ulex europaeus I,Helix pomatia and Griffonia simplicifolia I-B4 lectins and analysis of their backbone structures by several glycosidases and poly-N-acetyllactosamine-specific lectins in human breast carcinomas

Several studies have shown the deletion of blood group A or B antigens and the accumulation of H antigens in human breast carcinomas. Other studies have independently demonstrated that the binding sites of lectins such asHelix pomatia agglutinin (HPA) andGriffonia simplicifolia agglutinin I-B₄ (GSAI-B₄) are highly expressed in these cells. In order to clarify the molecular mechanisms of malignant transformation and metastasis of carcinoma cells, it is important to understand the relationship between such phenotypically distinct events. For this purpose, we examined whether the binding sites of these lectins andUlex europaeus agglutinin I (UEA-I) are expressed concomitantly in the same carcinoma cells and analyzed their backbone structures. The expression of the binding sites of these lectins was observed independently of the blood group (ABO) of the patients and was not affected by the histological type of the carcinomas. Observation of serial sections stained with these lectins revealed that the distribution of HPA binding sites was almost identical to that of GSAI-B₄ in most cases. Furthermore, in some cases, UEA-I binding patterns were similar to those of HPA and GSAI-B₄ but in other cases, mosaic staining patterns with these lectins were also observed, i.e., some cell clusters were stained with both HPA and GSAI-B₄ but not with UEA-I and adjacent cell clusters were stained only with UEA-I. Digestion with endo-β-galactosidase orN-glycosidase F markedly reduced the staining intensity of these lectins. Together with the reduction of staining by these lectins, reactivity withGriffonia simplicifolia agglutinin II appeared in carcinoma cells following endo-β-galactosidase digestion. Among the lectins specific to poly-N-acetyllactosamine,Lycopersicon esculentum agglutinin (LEA) most vividly and consistently stained the cancer cells. Next to LEA, pokeweed mitogen agglutinin was also effective in staining these cells. Carcinoma cells reactive with these lectins corresponded well to those stained with both HPA and GSAI-B₄, and in some cases, with UEA-I. These results demonstrate that the binding sites of UEA-I, HPA, and GSAI-B₄ are expressed concomitantly in the same carcinoma cells and all carry linear and branched poly-N-acetyllactosamine onN-glycans, suggesting that the synthesis of this complex carbohydrate is one of the most important and basic processes leading to the malignant transformation of cells, invasion, and metastasis of carcinoma cells.     

Cyto- and histochemical demonstration of lignins in plant cell walls: an evaluation of the chlorine water/ethanolamine-silver nitrate method of Coppick and Fowler

Summary The chlorine water/ethanolamine-silver nitrate method introduced by Coppick and Fowler for the detection of lignins was evaluated for cyto- and histochemical work using different reagents and fixatives for specimens embedded in epoxy resin. Fixation schedules tested included ethanol, glutaraldehyde, and glutaraldehyde followed by O_sO₄ as a post-fixative. Chlorine water, sodium hypochlorite, and calcium hypochlorite were the oxidising agents evaluated for their efficacy as part of the Coppick and Fowler procedure. The Coppick and Fowler method was tested against stem woody tissue ofLophomyrtus obcordata, and haustorial xylem tissue of the sucker of its attached dwarf mistletoeKorthalsella lindsayi. The presence of lignins in walls of these cells was indicated in thin sections for transmission electron microscopy by fine electron-dense deposits. Post-staining thin sections did not affect the lignin reaction, but tended to mask its effect due to increased wall contrast. In histological preparations lignified walls stained orange/brown. Counter-staining in methylene blue/azur B caused lignified walls to appear dark green/brown and non-lignified walls blue. Fixation in either ethanol or glutaraldehyde produced identical staining for lignins. Penetration by chlorine water was sometimes irregular, more so with glutaraldehyde fixation, with parts of tissues consequently not responding to the lignin reaction. Post-fixation in osmium tetroxide following primary fixation in glutaraldehyde slightly improved penetration of chlorine water. However, osmium caused greater amounts of extraneous stain deposits compared with other fixative regimes. Chlorine water was confirmed as the most effective oxidising agent for reacting with groups in lignins to produce reducing residues in the Coppick and Fowler method. Sodium hypochlorite caused no reaction. Calcium hypochlorite exhibited limited oxidative capacity resulting in slight staining for lignins. The Coppick and Fowler procedure was concluded to be a suitable method for demonstrating lignins in cyto- and histochemical preparations using material fixed in either ethanol or glutaraldehyde, and with embedding in epoxy resin.     

Histochemistry of glycosaminoglycans in cartilage ground substance

Summary The critical-electrolyte-concentration staining method using Alcian blue (AB) was applied to etched semithin Epon-embedded sections. The distribution of various glycosaminoglycans (GAGs) was studied in hyaline, elastic, cellular and fibrous cartilage obtained from humans and rodents. The staining patterns in semithin sections were found to correspond to those obtained using paraffin-embedded material. Lectin histochemistry was performed on consecutive sections. The following peroxidase-labelled lectins were used: Ricinus communis A I, Arachis hypogaea, Ulex curopaeus A I, Triticum vulgaris, Helix pomatia, Limax flavus, and concanavalin A. The lectin-binding capacity of cartilaginous ground substance was found to be low, as was expected on account of the few free sugar residues of GAGs. Chondroitin sulphate, the most widely distributed GAG, did not exhibit lectin staining. The lectin-binding site (positive staining for all lectins tested except H. pomatia) observed corresponded to areas positive forkeratan sulphate, as shown by AB staining in preceding or following sections. The pronounced lectin binding seen in cellular structures and the inner territorial matrix regions is considered to be due to higher concentrations of oligosaccharides involved in the metabolism of GAGs.Supported by the Hochschuljubiläumsstiftung der Stadt Wien     

CYTOCHEMICAL LOCALIZATION OF PEROXIDATIC ACTIVITY OF CATALASE IN RAT HEPATIC MICROBODIES (PEROXISOMES)

Prominent staining of rat hepatic microbodies was obtained by incubating sections of aldehyde-fixed rat liver in a modified Graham and Karnovsky's medium for ultrastructural demonstration of peroxidase activity. The electron-opaque reaction product was deposited uniformly over the matrix of the microbodies. The microbodies were identified by their size, shape, presence of tubular nucleoids, and other morphologic characteristics, and by their relative numerical counts. The staining reaction was inhibited by the catalase inhibitor, aminotriazole, and by KCN, azide, high concentrations of H₂O₂, and by boiling of sections. These inhibition studies suggest that the peroxidatic activity of microbody catalase is responsible for the staining reaction. In the absence of exogenous H₂O₂ appreciable staining of microbodies was noted only after prolonged incubation. Addition of sodium pyruvate, which inhibits endogenous generation of H₂O₂ by tissue oxidases, or of crystalline catalase, which decomposes such tissue-generated H₂O₂, completely abolished microbody staining in the absence of H₂O₂. Neither diaminobenzidine nor the product of its oxidation had any affinity to bind nonenzymatically to microbody catalase and thus stain these organelles. The staining of microbodies was optimal at alkaline pH of 8.5. The biological significance of this alkaline pH in relation to the similar pH optima of several microbody oxidases is discussed. In addition to staining of microbodies, a heat-resistant peroxidase activity is seen in some of the peribiliary dense bodies. The relation of this reaction to the peroxidase activity of lipofuscin pigment granules is discussed.     

Different instability of nuclear DNA at acid hydrolysis in cancerous and noncancerous cells as revealed by fluorescent staining with acridine orange

Summary Ehrlich cancer cells and inflammatory cells in mouse ascitic fluid were hydrolyzed and stained with acridine orange (AO). The AO hydrolysis curves for G₁/G₂+M phase cancer cells and inflammatory cells were differentially determined using flow cytometry by monitoring the metachromatic red-shifted fluorescence of the fluorochrome bound to the single-stranded DNA produced by acid hydrolysis. By computer fitting of the Bateman function to the hydrolysis curves, the kinetic parameters k ₁ (rate constant for the degradation of the produced single-stranded DNA), and y ₀ (theoretical value of the single-stranded DNA present initially) were determined. It was found that the k ₂ value, which reflects the degree of DNA instability, was much higher for cancer cells in both the G₁ and G₂+M phases than for inflammatory cells. This finding led us to develop a method for the differential AO staining of cancer cells and non-cancerous cells utilizing the different degree of DNA instability at acid hydrolysis. AO staining after hydrolysis with 2N HCl at 30°C for 8.5 min was found to be the optimal method. In the 60 cases of human malignant epithelial and nonepithelial tumors tested, all of the malignant tumor cells emitted metachromatic red fluorescence, while all of the nonmalignant tumor cells (5 cases of benign tumor) and normal cells emitted orthochromatic green fluorescence when observed with a violet excitation light under a fluorescence microscope. This new technique can be a useful tool for the screening of malignancy in exfoliative cytology and also for basic cancer research.In honour of Prof. P. van Duijn     

Myeloperoxidase and elastase are only expressed by neutrophils in normal and in inflammed liver

Myeloperoxidase (MPO) is involved in acute and chronic inflammatory diseases. The source of MPO in acute liver diseases is still a matter of debate. Therefore, we analysed MPO-gene expression on sections from normal and acutely damaged [carbon tetrachloride-(CCl₄) or whole liver γ-Irradiation] rat liver by immunohistochemistry, real time PCR and Western blot analysis of total RNA and protein. Also total RNA and protein from isolated Kupffer cells, hepatic stellate cells, Hepatocytes, endothelial cells and neutrophil granulocytes (NG) was analysed by real time PCR and Western blot, respectively. Sections of acutely injured human liver were prepared for MPO and CD68 immunofluorescence double staining. In normal rat liver MPO was detected immunohistochemically and by immunofluorescence double staining only in single NG. No MPO was detected in isolated parenchymal and non-parenchymal cell populations of the normal rat liver. In acutely damaged rat liver mRNA of MPO increased 2.8-fold at 24 h after administration of CCl₄ and 3.3-fold at 3 h after γ-Irradiation and MPO was detected by immunofluorescence double staining only in elastase (NE) positive NGs but not in macrophages (ED1 or CD68 positive cells). Our results demonstrate that, increased expression of MPO in damaged rat and human liver is due to recruited elastase positive NGs.     

Comparative histochemical localization of secondary metabolites in seed-raised and in vitro propagated plants of Excoecaria agallocha Linn. (Euphorbiaceae), the milky mangrove tree of historical significance

Abstract

Mangroves synthesize novel secondary chemicals that are poorly understood. Among the euphorbiaceous mangrove species, Excoecaria agallocha Linn. produces novel terpenoids and alkaloids of medicinal importance. We conducted a comparative tissue level histochemical study of E. agallocha L. to determine whether in vitro propagation alters the content of phytochemicals within the plant parts. Transverse sections of the root, stem and leaves of seed-raised saplings and in vitro propagated plants stained with 10% vanillin-perchloric acid revealed accumulation of terpenoids in the cork cambium. Alkaloids were localized using Dragendorf's reagent in the cortex of the root sections as brown layers. Methylene blue staining revealed that seed-raised plants possessed more lignified cells, distinct latex ducts and ellipsoidal guard cells compared to the plants propagated in vitro, which revealed abnormal, circular guard cells. The phytochemical content of E. agallocha propagated by the in vitro method was comparable to the seed-raised plants. Phytochemical studies of the species of E. agallocha propagated in vitro would confirm whether the species could be used for its medicinal compounds.     

Anterograde neuroanatomical tracing with Phaseolus vulgaris-leucoagglutinin combined with immunocytochemistry of gamma-amino butyric acid,choline acetyltransferase or serotonin

Summary In order to associate specific fiber projections in the central nervous system with specific target neurons, procedures were developed in which the anterograde neuroanatomical tracing technique utilizing Phaseolus vulgaris-leucoagglutinin (PHA-L) is combined with immunocytochemistry of three (different) neuronal markers: gammaamino butyric acid, choline acetyltransferase, and serotonin. A double, indirect, peroxidase-antiperoxidase staining method is used on free-floating brain sections. The primary antiserum against the PHA-L (first primary antiserum) is mixed with the primary antiserum against the neuronal marker (second primary antiserum). These primary antisera are raised in different animal species. Following the incubation in the cocktail of primary antisera, the sections are incubated in a cocktail of two secondary antisera. The transported PHA-L is then visualized by incubation in a peroxidase-antiperoxidase complex and subsequent reaction with nickel-enhanced diaminobenzidine/H₂O₂ (blue reaction product in PHA-L-labeled neurons and fibers). Incubation is continued with peroxidase-antiperoxidase antibodies raised in the animal species in which the second primary antiserum is developed, and the staining is completed by treatment with diaminobenzidine/H₂O₂ (brown reaction product in the target neurons). The present results suggest that PHA-L-tracing can be combined with immunocytochemistry of a variety of target neuron-related antigens.     

New Rapid Methods for Tissue Diagnosis

Two new methods applicable to the staining of fixed and fresh frozen tissue sections are presented herein. In addition certain improvements are suggested for the technic reported by Geschickter, Walker, Hjort and Moulton (1931). In brief the procedures are as follows:

The thionin eosinate method of Geschickter et al (1931). This procedure has been modified as follows:

A mixture of diethylene glycol, 40 parts, ethylene glycol, 40 parts, and grain alcohol, 20 parts is superior to ethylene glycol, 80 parts, and ethyl alcohol, 20 parts, as a solvent for the compound stain in that the staining is intensified.

Ethylene glycol monobutyl ether supplants diethylene glycol monobutyl ether because of its lower viscosity.

Ethyl phthalate replaces butyl phthalate on account of a more satisfactory viscosity.

The methyl green eosinate procedure is the same as the modified thionin eosinate method except for the following variations:

The staining time is increased to one minute.

Decolorization and washing are reduced to about 15 seconds.

The hematoxylin-eosin method. After cutting, the tissue sections are carried thru the following steps:

Unfold in water; transfer to formalin (4 to 40%) for at least 30 seconds; stain in hematoxylin (Harris) for 30 to 60 seconds; wash in water, 5 seconds; decolorize in 0.1% HC1 or saturated aqueous picric acid, 5 seconds; wash in water, S seconds; float in 0.5% ammonia, 5 to 10 seconds; wash in water, 5 seconds; stain in 5% aqueous eosin, 15 seconds¹; wash in water, 5 to 10 seconds; dehydrate in a mixture of diethylene glycol, 30 parts, and ethyl alcohol, 70 parts, 5 to 10 seconds; dehydrate in ethylene glycol monobutyl ether, 5 to 10 seconds; clear in ethyl phthalate, 5 to 10 seconds; float on a glass slide, blot with photographic lintless blotter, place a drop of neutral gum damar on the section, and cover with glass cover slip.