A new method for the histochemical demonstration of O-acyl sugars in human colonic epithelial glycoproteins

Summary A new general method has been developed for the specific histochemical identification ofO-acyl sugars in any epithelial glycoprotein. These sugars include hexose, 6-deoxyhexose andN-acetylhexosamine with an ester substituenent(s) located on a potentialvicinal diol(s). In the procedure reported [the periodic acid-borohydride reduction-saponification-selective periodate oxidation-borohydride reduction-periodic acid-Schiff (PA-Bh-KOH-PA-Bh*-Bh-PAS) method] the initial PA-Bh treatment rendersvicinal diols located on either sialic acid or neutral sugars PAS unreactive. In the subsequent steps ester substituents are removed from bothO-acyl sugars andO-acyl sialic acids by saponification (KOH), sialic acidvicinal diols are selectively removed by the PA^*-Bh sequence andO-acyl sugars are stained with the PAS technique. This method has the advantage that the results are obtained with a single section and the results are either positive or negative. Consequently, it is superior to the three indirect methods investigated because it does not require an observer to compare the intensity or the shade of the staining obtained with serial sections.Using the PA-Bh-KOH-PA^*-Bh-PAS method we have demonstrated, for the first time, thatO-acyl sugars occur in the epithelial goblet cell glycoproteins of adult human colon. The effect of the presence ofO-acyl sugars on the interpretation of a number of other methods for the histochemical investigation of glycoproteins is discussed. It is recommended that the results obtained with the PA-Bh-KOH-PA^*-Bh-PAS method be evaluated before histochemical procedures for the investigation of neutral sugars andO-acyl sialic acids are selected.     

Histochemical procedures for the simultaneous visualization of neutral sugars and either sialic acid and its side chain O-acyl variants or O-sulphate ester. I. Methods based upon the selective periodate oxidation of sialic acids

Summary Five new methods, based upon the selective oxidation of sialic acid residues with 0.4mm periodic acid in approximately 1m hydrochloric acid at 4°C for 1 h (PA^*), have been devised for the simultaneous visualization of neutral sugars and either sialic acid and its side chainO-acyl variants orO-sulphate ester. In the first of these, the selective periodate oxidation—borohydride reduction—saponification—selective periodate oxidation—Thionin Schiff—saponification—borohydride reduction—periodic acid—Schiff (PA^*—Bh—KOH—PA^*—T—KOH—Bh—PAS) technique, sialic acids withO-acyl substituents at C7, C8 or C9 (or which have two of three side chainO-acyl substituents) stain blue while neutral sugars with periodate-sensitivevicinal diols (hexose, 6-deoxyhexose, andN-acetylhexosamine) stain magenta. The second method, the saponification—selective periodate oxidation—Thionin Schiff—saponification—borohydride reduction—periodic acid—Schiff (KOH—PA^*—T—KOH—Bh—PAS), stains all sialic acids blue and neutral sugars magenta. In the third procedure, the selective periodate oxidation—Thionin Schiff—borohydride reduction—periodic acid—Schiff—saponification (PA^*—T—Bh—PAS—KOH) method, sialic acids without side chain substituents (or which have anO-acyl substituent at C7) stain blue and neutral sugars stain magenta. In the fourth method, the saponification-selective periodate oxidation—borohydride reduction—Alcian Blue pH 1.0—periodic acid—Schiff (KOH—PA^*—Bh—AB1.0—PAS) technique,O-sulphate esters stain aquamarine blue and neutral sugars stain magenta. In all of these techniques mixtures of the components stain in various shades of purple. Performance of the KOH—PA^*—Bh—AB1.0—PAS technique without the Alcian Blue pH 1.0 step provides a method for the selective identification of neutral sugars in macromolecules that also contain sialic acids.     

A new histochemical method for the selective periodate oxidation of total tissue sialic acids

Summary Evaluation of the intensity of the periodic acid—Schiff (PAS) staining produced following oxidation for 1 h at 4°C with 0.4mm periodic acid in approximately 1m hydrochloric acid indicated that this reagent completely oxidized all available sialic acid residues of either the sialo- or sialosulphoglycoproteins of human and rat colon or the sialoglycoproteins of rat sublingual gland. These conditions produced no visible Schiff staining of either neutral macromolecules orvicinal diols located on hexose, 6-deoxyhexose orN-acetylhexosamine residues (neutral sugars) of sialo- and sialosulphoglycoproteins. Furthermore, there was no extraction of epithelial glycoproteins or de-O-acylation of side chain substituted sialic acid residues. These data demonstrate that 0.4mm periodic acid in approximately 1m hydrochloric acid can be used as a specific reagent for the selective visualization of sialic acids in the PAS procedure.Studies of the mechanism of the oxidation of neutral sugars with 0.4mm periodic acid in approximately 1m hydrochloric acid indicated that their lack of PAS reactivity was not due to the production of Schiff unreactive hemiacetals or hemialdals. It is suggested that the selectivity of 0.4mm periodic acid in approximately 1m hydrochloric acid is a result of an increase in the rate of the oxidation of the sialic acid residues together with a decrease in the rate of oxidation of neutral sugars.     

The apparent failure of sodium borohydride reduction to block further PAS reactivity in rat epithelial mucins

Synopsis Sections of rat small intestine were oxidized with 1% periodic acid for periods of 1, 2, 5, 10 and 30 min and were subsequently either (a) stained with Schiff reagent, or (b) reduced with sodium borohydride and then treated with either Schiff reagent alone or or by the standard PAS procedure. It was found that whereas sodium borohydride reduction abolished all Schiff staining, initial periods of oxidation in excess of 10 min were necessary to abolish any subsequent PAS reactivity. The theoretical and practical significance of these data is discussed in relation to the recent publication of Bayliss & Adams (1976).     

Histochemical identification of 9-O-acyl sialic acids: studies of bovine submandibular and rat sublingual gland and human colon

Summary Formalin-fixed tissue specimens containing glycoproteins with side chain O-acylated sialic acids were used to re-examine, compare and evaluate the usefulness of three methods based on the periodic acid-borohydride reduction-saponification-periodic acid-Schiff sequence (PA-Bh-KOH-PAS) for the histochemical identification of 9-O-acyl sialic acids (9-O-AcSA). Method I, modified from Vehet al. (1979), involved a comparison of the staining intensely obtained when both oxidation steps of the PA-Bh-KOH-PAS sequence were carried out with the selective oxidation technique of Volzet al. (1987) with that obtained when the initial oxidation step was carried out with 0.5m periodic acid for 4h at room temperature. Methods II and III, modified from Reidet al. (1978), involved an initial PA-Bh step under oxidation conditions that cleaved all the vicinal diols associated with neutral sugars and side chain unsubstituted and 7-O-acyl sialic acids. The Schiff staining obtained following subsequent re-oxidation with either 0.5m (method II) or 1% periodic acid (method III) for 4h at room temperature (PA-Bh-PAS procedure) identifies 9-O-AcSa.The results of this study indicate that (a) bovine submandibular gland acinar cell glycoproteins contain 9-O-AcSA as well as sialic acids which have ester substituents at C7 or C8, or which are di-(C7C8, C7C9, C8C9) or tri-(C7C8C9) substituted, (b) the side chain O-acyl sialic acids of the glycoproteins of Sprague Dawley rat sublingual gland acinar cells are entirely or almost entirely 9-O-AcSA and (c) it is likely that the majority of the human adult and foetal glycoproteins studied contain small quantities of 9-O-AcSA mixed with sialic acids which are substituted at C7 or C8 or which have two or three side chain O-acyl substituents. However, the interpretation of the results are complicated by observations that indicate that (a) treatment with 0.5m periodic acid either extracts or removes sialic acids from bovine submandibular gland glycoproteins, (b) some human colonic epithelial glycoproteins apparently contain a component other than 9-O-AcSA that oxidises slowly with periodic acid and (c) 1% periodic acid for 2h at room temperature oxidises a small but significant quantity of 9-O-AcSA, thus reducing the intensity of staining in methods II and III. It is concluded that when adequately controlled, methods I, II and III are capable of detecting 9-O-AcSA in glycoproteins containing large quantities of the sialic acid. However, these methods may not detect small quantities of 9-O-AcSA in the presence of large quantities of sialic acids which have O-acyl substitutents at positions C7 or C8 or which have two (C7C8, C7C9, C8C9) or three (C7C8C9) side chain O-acyl substituents. Thus, caution should be used when interpreting data that indicates the absence of 9-O-AcSA.     

Histochemical studies of the mechanism of the periodic acid-phenylhydrazine-Schiff (PAPS) procedure

Summary Histochemical investigations of the periodic acid-phenylhydrazine-Schiff (PAPS) procedure were carried out on tissues containing carbohydrate macromolecules known to produce on periodate oxidation, only sialic acid monoaldehydes or hexosedialdehydes or mixtures of the two. The results indicated that the PAPS reaction is a generalized phenomenon independent of the hydrazine or hydrazide used, the nature of the Schiff reagent or the presence of anionic groups. It is proposed that phenylhydrazine condenses with periodate-engendered sialic acid monoaldehydes to yield the corresponding phenylhydrazone and with periodate-engendered dialdehydes to yield the corresponding morpholine or azido derivatives. Subsequent Schiff treatment results in the reversal of the blockade of sialic acid monoaldehydes but not of the dialdehydes, thus leading to selective Schiff staining of sialic acid residues.     

Sialic acid in colonic mucin: An evaluation of modified PAS reactions in single and combination histochemical procedures

Summary Two new histochemical procedures for detecting sulphated and non-sulphated sialomucin in colonic mucosa were assessed: the saponification—Alcian Blue pH 1—periodic acid—phenylhydrazine—Schiff method (KOH—AB pH 1—PAPS) and the mild periodic acid modification of this (KOH—AB pH 1—mPAS). Using normal colonic mucosa obtained from 11 non-cancer patients, the mPAS and PAPS techniques were tested for specificity and reproducibility for staining sialic acid, either alone or in combination with Alcian Blue. A spectrophotometric method was devised to quantify the uptake of both Schiff and Alcian Blue stain by sections. At low temperature and pH5.5, the mPAS procedure had improved specificity over the PAPS procedure, and after saponification it could be used to stainO-acetyl-substituted sialic acid. When used in combination with Alcian Blue at pH 1, however, underestimation of the sialic acid content occurred owing to interference between Alcian Blue and Schiff dyes. Interference was even greater with KOH—AB pH1—PAPS procedure for both sialic acid and sulphate components. We conclude that caution must be exercised in interpretation of the staining results obtained with these new combination methods and that more accurate information on the sialic acid and sulphate content of colonic mucin is obtained by staining serial sections with the mPAS technique and Alcian Blue pH 1 alone.     

Histochemical procedures for the simultaneous visualization of neutral sugars and either sialic acid and its O-acyl variants or O-sulphate ester. II. Methods based upon the periodic acid-phenylhydrazine-Schiff reaction

Summary Four methods based upon the periodic acid—phenylhydrazine—Schiff reaction have been developed for the simultaneous visualization of neutral sugars with periodate oxidizablevicinal diols (hexose, 6-deoxyhexose,N-acetylhexosamine) and either sialic acids or side chainO-acyl sialic acids. In the first of these procedures, the saponification—periodic acid oxidation—2,4-dinitrophenylhydrazine—Azure A—Schiff—saponification (KOH—PA—DNPH—Az—KOH) method, all sialic acids stain Azure blue, neutral sugars with oxidizablevicinal diols stain yellow and mixtures of such components stain in various shades of green. In the second technique, periodic acid oxidation—2,4-dinitrophenylhydrazine—Azure A Schiff—saponification (PA—DNPH—Az—KOH), Azure Blue staining is confined to sialic acids without side chain substituents or which have anO-acyl substituent at position C7, while in the third method, the selective periodate oxidation—borohydride reduction—saponification—periodic acid oxidation—2,4-dinitrophenyl hydrazine—Azure A—Schiff—saponification (PA^*—Bh—KOH—PA—DNPH—Az—KOH) technique, only sialic acids withO-acyl substituents at positions C7, C8 or C9 (or which have two or threeO-acyl side chain substituents) stain Azure blue. Finally in the fourth procedure, periodic acid oxidation—2,4-dinitrophenylhydrazine—Azure A—Schiff—saponification—borohydride reduction—periodic acid oxidation—Schiff (PA—DNPH—Az—KOH—Bh—PAS), sialic acids without side chain substituents or which haveO-acyl substituents at C7 stain Azure blue, sialic acids substituted at position C8 or C9 (or which are di- or tri-substituted) stain magenta and neutral sugars stain yellow. Where mixtures of these components are present, a wide range of colours is obtained.     

Chemical and histochemical studies of normal and diseased human gastrointestinal tract. II. A comparison between histologically normal small intestine and Crohn's disease of the small intestine

Summary Comparative chemical and histochemical studies were performed on formalin-fixed, surgical specimens of human small intestine from cases of Crohn's disease and normal controls. The sialic acids of the crude glycoproteins isolated from normal ileum were significantly less neuraminidase-susceptible and more C₄ substituted (P<0.01) than those of the glycoproteins isolated either from normal upper small intestine (duodenum and jejunum) or from cases of Crohn's disease of the ileum. Fractionation yielded two major sialic acid-containing fractions, eluting from DEAE-cellulose with 0.2m or 0.3m sodium chloride. Both fractions contained fucose, galactose, glucosamine and galactosamine in addition to sialic acids both with and withoutO-acyl substituents at position C₄ and/or in the side-chain (side-chainO-acylated sialic acids were also detected by histochemical procedures). The fractions differed significantly from one another with respect to the neuraminidase susceptibility of their sialic acids (P<0.01), the percentage of C₄ (P<0.01) and side-chain substituted sialic acids (P<0.05), and the molar fucose-sialic acid ratio (P<0.05). TheO-acyl substitution patterns of the sialic acids of both the 0.2m and 0.3m fractions of the upper small intestine glycoproteins differed significantly from those of the corresponding fractions from normal ileum, while the sialic acids of the 0.2m fractions from Crohn's disease of the ileum differed significantly from normal with respect to neuraminidase susceptibility (P<0.01) and percentage C₄ substitution (P<0.01); the 0.3m fractions differed only in the percentage of sialic acids substituted at C₄. The differences between the sialic acids from the normal and Crohn's disease specimens were shown to be independent of either the anatomical origin of the specimen or the histopathological sub-group of the Crohn's disease specimens; no significant differences were noted between the sub-groups but all the sub-groups differed from normal.     

A mechanistic study of the histochemical reactions between aldehydes and Basic Fuchsin in acid alcohol used as a simplified substitute for Schiff's reagent

Synopsis For the identification of polysaccharides after periodic acid oxidation or of DNA after acid hydrolysis, a solution of 0.5% w/v Basic Fuchsin in acid alcohol (water-ethanol-concentrated hydrochloric acid 80:20:1 by volume) may be used instead of Schiff's reagent. Sections are stained in the Fuchsin solution for 20 min, after which the unreacted dye is washed off with ethanol. Except for its yellower colour the Fuchsin staining is almost indistinguishable from Schiff's reagent staining.Histochemical blocking studies indicated that the Fuchsin stain, like Schiff's reagent, reacts with aldehyde groups or subsequent oxidation products. The results of studies of model systems (cellulose film oxidized by periodic acid and also of aqueous formaldehyde solution) in which infra-red spectroscopy and, where appropriate, chromatography were used are consistent with the initial coloured products being azomethines which may react further to produce coloured secondary amine derivatives.     

Positive periodic acid-Schiff staining of acid mucopolysaccharides

Synopsis Evidence is presented to demonstrate that acid mucopolysaccharides will stain with the periodic acid-Schiff technique following prolonged oxidation with periodic acid. Smears of purified acid mucopolysaccharides begin to stain slightly with the Schiff reagent after 4 hr of periodate oxidation and reach an optimal staining intensity some time between 7 and 16 hr. The acid mucopolysaccharides in umbilical cord and cock's comb sections begin to stain at about 7 hr, reaching an optimum between 16 and 24 hr. It is suggested that the mechanism of staining of acid mucopolysaccharides in the PAS technique appears to derive from cleavage oftrans groups of the hexuronic acid fraction which require prolonged oxidation since the theoretical more yield is reached with difficulty. Moreover, it would appear that the mechanism of staining with glycogen under the usual conditions of PAS staining perhaps derives from end-group oxidation and subsequent Schiff staining of the engendered aldehydes since glycogen is almost entirely in thetrans configuration. Acid mucopolysaccharides, on the other hand, will not stain uncer the usual conditions as they appear to have a negligible proportion of end groups.     

Chemical and histochemical studies of normal and diseased human gastrointestinal tract. III. Changes in the histochemical and chemical properties of the epithelial glycoproteins in the mucosa close to colonic tumours

Summary Histochemical, chemical and histological studies were performed on 26 specimens of human colonic tumours and 62 specimens of mucosa taken at distances of 0.5–5.0 cm from the tumour. The tumour glycoproteins were divided almost equally between three anionic types, sulphomucin, sialomucin and mixed sialomucin and sulphomucin. All showed a reduction in staining for side chainO-acylated sialic acid. In 56% of the tumours, this was accompanied by loss of glycoprotein while, in 44%, abundant mucin was still present.Histochemical examination of the mucosal specimens indicated that in 24.2% the side chainO-acylated sialic acids did not differ from normal. In 41.9% there was a focal change and in 33.9% there was a generalized field reduction in the proportion of side chainO-acyl sialic acids. The latter were subdivided into moderate and severe. Chemical analyses correlated well with the histochemical classification of the mucosal specimens and showed that, on average, the classifications focal and severe field change were not due to sampling error. Forty-five per cent of the cases showed only focal change and 40% only field change. Mucosal specimens associated with 60% of the moderately differentiated tumours showed only focal change while those associated with 75% of well-differentiated tumours showed only field change. Abnormal patterns of staining for side chainO-acylated sialic acids (a) were largely independent of the distance from the tumour, (b) occurred in the presence of a normal pattern of staining for sialomucins and sulphomucins and (c) were associated with 61.4% of the specimens that showed no discernible evidence of histological abnormality. In contrast, only one specimen showed evidence of histological change without a corresponding change inO-acylated sialic acids. The data suggest that abnormal patterns of staining forO-acylated sialic acids may represent premalignant change but their precise significance and specificity requires further studies of non-neoplastic diseases of the colon.     

Histochemical and Biometric Study of the Gastrointestinal System of Hyla Orientalis (Bedriaga, 1890) (Anura,Hylidae)

This study was carried out to assess the localization of hyaluronic acid (HA) and the distribution of glycoproteins in the gastrointestinal system of adult Hyla orientalis. Histochemical analysis of the gastrointestinal system in H. orientalis showed that mucous content included glycogene and/or oxidable dioles [periodic acid/Schiff (PAS)+], neutral or acid-rich (PAS/AB pH 2.5+), sialic acid residues (KOH/PAS+) and acid sulphate [Aldehyde fuchsin (AF)+] glycoproteins. However the mucus content was not the same in stomach, small and large intestine. The mucus content of stomach included only glycogene and/or oxidable dioles and sialic acid residues. Besides these histochemical methods, the localization of HA was detected using biotinylated hyaluronic acid binding protein labeled with streptavidin-fluorescein isothiocyanate (FITC). In the extracellular matrix of the submucosa, the reaction for HA was evident. Since HA was located in submucosa beneath the epithelial layer of gastrointestinal system, it has a significant role in hydric balance, and essential to provide the gastrointestinal system integrity and functionality. According to biometric results, there were statistical differences between small and large intestine in terms of the amount of material stained positive with PAS/AB, PAS, KOH/PAS and AF/AB. Additionally, number of goblet cells in the small and large intestine was significantly different.Key words: Gastrointestinal system, goblet cell, glycoproteins, hyaluronic acid, amphibian, Hyla.     

The digestive tube of Piaractus brachypomus: gross morphology,histology/histochemistry of the mucosal layer and the effects of parasitism by Neoechinorhynchus sp.

The objective of the present study was to describe the histology and histochemistry of the mucosal layer of the digestive tube of Piaractus brachypomus, and the histopathology associated with parasitism by Neoechinorhynchus sp. The digestive tube of P. brachypomus consists of three macroscopically distinct portions: short, rectilinear and elastic-walled ooesophagus, J-shaped siphon stomach and a long intestine with rectilinear and curved portions, defined by patterns of villi as foregut, midgut, and hindgut. Histological and histochemical differences were observed in the mucosal layers of the different digestive tube regions, such as intense production of neutral and acidic mucous substances in the pseudostratified mucosal epithelium of the oesophagus; positive periodic acid Schiff reagent (PAS)reactions at the apex of the columnar epithelial cells of the stomach and increased intensity of histochemical reactions in the hindgut region. Neoechinorhynchus sp. was present in 85.7% of specimens examined, with a mean intensity of 7.4 ± 6.2 (±) and abundance of 6.33. Good health of the fish indicated by high relative condition factor values ( _Kn) and occurrence of only mild to moderate alteration in the mucosal layer indicated that Neoechinorhynchus sp. exhibits low pathogenicity towards P. brachypomus hosts in farming environments, with low levels of infection.     

Demonstration of chondroitin sulphate and glycoproteins in articular cartilage matrix using periodic acid-Schiff (PAS) method

Summary Staining of articular cartilage by the periodic acid-Schiff (PAS) method was measured using microspectrophotometry. Standard PAS technique with 2 h oxidation produced a distinct Schiff reaction in the cartilage sections. The staining increased with depth of the articular cartilage demonstrating distribution of the glycoproteins. The modified PAS method included a second, longer periodic acid treatment, which made the uronic acid of glycosaminoglycans PAS-positive. The modified PAS method proved to be highly specific for chondroitin sulphate, which was determined from the samples with gas chromatography. A statistically significant correlation between the Schiff reactivity and galactosamine content of the sections was observed. It is concluded that for articular cartilage standard and modified PAS methods are useful procedures for demonstrating local changes of glycoproteins and chondroitin sulphate, respectively.     

Chemical and histochemical studies of normal and diseased human gastrointestinal tract. V. A differential diagnostic method for the histochemical classification of glycoproteins

Summary A differential diagnostic scheme is described for the division of colonic epithelial glycoproteins into eleven histochemically distinct classes. The scheme depends upon the use of seven histochemical techniques which, collectively, permit the differential staining ofO-sulphate ester, sialic acid and its side chainO-acyl variants and vicinal diols located on carbohydrate residues other than sialic acids. Elements of the scheme also provide a general approach to the classification of epithelial glycoproteins in anatomic sites other than the colon.Application of the scheme permitted the classification of the epithelial glycoproteins in the mucosa 0.5–5.0 cm from human colonic tumours and provided direct confirmation of previous observations that changes from normal in the relative proportions of either side chainO-acylated sialic acids or sialic acids andO-sulphate esters can occur independently of one another.     

The utility of antisera to canine growth hormone and canine prolactin for immunocytochemical staining of the dog pituitary gland

Summary Fluorescent microspectrophotometry using dichroic mirror vertical epi-illumination of tissue sections stained with the PAS reaction (periodic acid and pararosaniline Schiff reagent) provides a measure of the relative concentration of 1:2 glycols within and between tissue sections. In PAS reacted sections of agarose gel, pararosaniline Schiff fluorescence increases linearly as the concentration of agarose increases (r=0.97, p<0.05). The concentration of glycogen within liver as measured by a phenol-based tissue assay is linearly correlated with pararosaniline Schiff fluorescence of formalin fixed liver sections (r=0.87, p<0.05). These relationships are unaffected by alcina blue or hematoxylin. Heretofore the amount of color reaction as measured by densitometry at the pararosaniline absorption peak was claimed to be an unreliable indicator of the amount of reactive glycol present in tissue. Our observations indicate that when the concentration of Schiff reagent exceeds an empiric limit relative to available polysaccharides, the Schiff reagent-tissue complex reflects light at the excitation wavelength instead of fluorescing the emission spectra. This can be circumvented by using dilute pararosaniline-Schiff reagent, shortening the staining period, and lowering the temperature of the staining medium.While routine PAS staining reactions are followed by washing in running water to develop the red color seen with broad spectrum illumination, water development is unnecessary for the dye-tissue complex to fluoresce. The fluorescent emission peak and the maximum excitation peak of both developed and undeveloped pararosaniline-Schiff-reagent-tissue complexes are 645–50 nm and 540–45 nm, respectively. These spectral characteristics are not changed by binding to oxidation products of different glycoproteins or polysaccharides. Intense exposure to room light, but not 100 repetitive short (0.13 s) exposures, causes partial photodecomposition.Quantitative assessment of cytofluorescence requires definition of the optical system used to measure emission. In the microspectrophotometer employed in this study, dichroic mirrors reflect light with variable efficiency depending on wavelength from the light source to the stage, and variably block light reflected or emitted from the specimen, serving as crude barrier filters. These dichroic mirror characteristics are influenced by the exact nature of the optical coating on the surface of each individual mirror. Since the optical coating of similar mirrors may vary, the properties of individual mirrors must be considered in the interpretation of spectral data and in determining the proper optical conditions for quantification of cytofluorescence.This investigation was supported by National Institutes of Health Research Service Award IF32 NS 517701 PTHA from the National Institute of Neurological and Communicative Disorders and Stroke and the National Cancer Institute Grant R01 CA 17341     

THE PAS/ACCUMULATION BODIES IN PROROCENTRUM LIMA AND PROROCENTRUM MACULOSUM (DINOPHYCEAE) ARE DINOFLAGELLATE LYSOSOMES1

Numerous spherical bodies containing electron-dense material, fibrous material, and membranous material are present in the cytoplasm of two dinoflagellate species, Prorocentrum lima (Ehr.) Dodge and Prorocentrum maculosum Faust. Similar bodies have been observed in other dinoflagellates and have been termed accumulation bodies or PAS bodies. In both Prorocentrum species, these bodies autofluoresce under blue light excitation and increase in size with cell culture age. They possess acid phosphatase activity, react positively with the periodic acid/Schiff reagent, and stain with acridine orange. All these properties are characteristic of eukaryotic lysosomes; thus, we propose that dinoflagellate accumulation bodies and PAS bodies are identical organelles and are, in fact, dinoflagellate lysosomes.     

Application of the Periodic Acid-Schiff Procedure to Tissue Blocks

The periodic acid-Schiff procedure can be used for staining en bloc by incorporating the periodic acid with the fixing fluid. After simultaneous fixation and oxidation for 48 hr at room temperature and subsequent staining in Schiff reagent the tissues are dehydrated, embedded in paraffin and sectioned. Of two fixatives used, 95% alcohol proved superior to 10% formalin. Various concentrations of periodic acid (0.1-2.0%) yielded equally good results, thus the use of the lower concentrations is feasible and preferable. Fixation and oxidation simultaneously or separately yielded equally satisfactory results and in view of the time saved in the simultaneous method the authors recommend it. Using similar time of fixation and oxidation, satisfactory results were obtained with the intestine of rat after 3 hr of exposure to Schiff reagent. A longer period of exposure (up to 48 hr) was needed for comparable results with the kidney and liver.     

Development of tannin vacuoles in chalaza and seed coat of barley in relation to early chalazal necrosis in the seg1 mutant

Structural development of grain tissues of maternal origin in normal and seg1 barley (Hordeum vulgare L. cv. Betzes) was examined using light and electron microscopy. Chalaza and seedcoat cells of normal grains developed prominent tannin vacuoles which persisted throughout the grain-filling period. Tannins were present in the same tissues of seg1, but no large central vacuoles developed. Instead, the chalaza and nucellar projection degenerated and were crushed, presumably terminating sugar flow and causing formation of shrunken grains (35–55% normal dry weight). Tannins were localized using various histochemical stains. Extracts of chalaza and adjacent tissues contained proanthocyanidins which yielded delphinidin and cyanidin upon hydrolysis in boiling HCl. We suggest that the basis of the seg1 phenotype may be abnormal compartmentation of tannins causing precipitation of cytoplasmic proteins and early death of chalazal cells.Abbreviations FAA Formalin-acetic acid-ethanol - PAS periodic acid Schiffs reagent