Fluorophore-conjugated lectin labeling of the cell surface of isolated male and female gametes,central cells and synergids before and after fertilization in maize

Three fluorescein isothiocyanate (FITC)-conjugated lectins, Canavalia ensiformis agglutinin (Con A), Triticum vulgaris agglutinin (WGA) and Phaseolus vulgaris erythroagglutinin (PHA-E), were used as probes to localize sugar moieties of glycoconjugates on the cell surface of isolated maize sperm, egg, central, antipodal cells, synergids, and in vitro- and in vivo-fertilized zygotes. Fluorescence signals on the surface of the cells were due to specific binding. Calcium was necessary for WGA and PHA-E binding and enhanced Con A labeling. Differences in glycoconjugate composition of the membranes of gametes and other embryo sac component cells were found. FITC-Con A strongly labeled egg and central cells, but labeled sperm only weakly. FITC-WGA binding sites were detected on egg, but not sperm cells. Con A and WGA binding sites were equally distributed around egg and central cell protoplasts. FITC-PHA-E binding sites were not found on sperm and egg cells before fertilization. Binding sites of these lectins were located on synergids, especially on their filiform apparatus. Interestingly, WGA binding to egg cells was enhanced after fertilization, whereas PHA-E binding to egg cell membranes could only be detected after fertilization. These results suggest the occurrence of fertilization-induced changes in glycoconjugate composition of the maize egg cell membrane. An increase in the number of WGA and PHA-E binding sites was also observed on newly formed cell walls of cultured two-celled embryos derived from in vitro-produced zygotes.     

Growth and light absorption of some planktonic cyanobacteria, diatoms and Chlorophyceae under simulated natural light fluctuations

Specific growth rates of Limnozhrix redekei, Planktothrix agardhii(cyanobacteria), Synedraacus, Stephanodiscus minutulus (diatoms),Scenedesmus acuminatus and Scenedesmus armatus (Chlorophyceae)were compared under different time structures of illumination,but the same daily light exposure, at 20C. Fluctuating irradiancesimulating a uniform rapid transport of the algal cells acrossthe aquatic light field on a cloudless day with Z^eu/Z^mix=1 wascompared with constant irradiance throughout the same photoperiodof 12 h length as well as a photoperiod of 6 h length. Fluctuatinglight (30 min for a cycle) resulted in a decrease in specificgrowth rates as compared with constant irradiance at the samephotoperiod length. This decrease amounts to 15–20% fordiatoms, 20–25% for Chlorophyceae and 35–40% forcyanobacteria, respectively. The decrease is somewhat lowerif the fluctuations simulating mixing are slower (60 min fora cycle). The specific growth rate is also decreased by a shorterphotoperiod, but this effect is more species specific. Regardingthe in vivo absorption spectra, fluctuating light or a shorterphotoperiod has little or no effect on the Chlorophyceae anddiatoms studied, whereas cyanobacteria show an increase in lightabsorption by chlorophyll a and phycobilins.     

Intracellular binding of wheat germ agglutinin by Golgi complexes, phagosomes, and lysosomes of Paramecium multimicronucleatum

The compartments of the Paramecium digestive system were investigated with wheat germ agglutinin (WGA). By use of cryosectioning or Lowicryl K4M embedding combined with pulse-chase studies and WGA-gold labeling, WGA binding sites were located on membranes of the phagosome-lysosome system, including all four stages of digestive vacuoles, the discoidal vesicles, acidosomes, and lysosomes. In addition, the contents of lysosomes, cisternae at the trans face of Golgi stacks, and coated and uncoated blebs and vesicles at the putative trans Golgi network bind to WGA. Crystal-containing vacuoles characteristic of mid-log to stationary-phase cultures are enclosed by heavily labeled membranes. Alveoli underlying the plasma membrane sometimes contain binding sites, particularly on their outer membranes. Ciliary membranes previously shown to be labeled with WGA-FITC are negative in frozen thin and Lowicryl K4M sections. The presence of WGA binding sites on the trans face of the Golgi stack is the first indication in ciliated protozoa, such as Paramecium, of probable Golgi complex involvement in glycosylation similar to that in higher organisms. WGA-labeled coated vesicles in the endoplasm apparently lose their coats and coalesce to form lysosomes. Our study shows that WGA can be used as a specific intracellular marker of all digestive system membranes and of lysosomal content. These results support and extend our published scheme of membrane flow and recycling in Paramecium by providing another means of demonstrating membrane relationships.     

Differences in the redistribution of concanavalin A and wheat germ agglutinin binding sites on mouse neuroblastoma cells

Concanavalin A (Con A), wheat germ agglutinin (WGA), and Ricinus communis agglutinin (RCA) bound with either ¹²⁵I, fluorescent dyes, or fluorescent polymeric microspheres were used to quantitate and visualize the distribution of lectin binding sites on mouse neuroblastoma cells. As viewed by fluorescent light and scanning electron microscopy, over 10⁷ binding sites for Con A, WGA, and RCA appeared to be distributed randomly over the surface of differentiated and undifferentiated cells. An energy-dependent redistribution of labeled sites into a central spot occurred when the cells were labeled with a saturating dose of fluorescent lectin and maintained at 37°C for 60 min. Reversible labeling using appropriate saccharide inhibitors indicated that the labeled sites had undergone endocytosis by the cell. A difference in the mode of redistribution of WGA or RCA and Con A binding sites was observed in double labeling experiments. When less than 10% of the WGA or RCA lectin binding sites were labeled, only these labeled sites appeared to be removed from the cell surface. In contrast, when less than 10% of the Con A sites were labeled, both labeled and unlabeled Con A binding sites were removed from the cell surface. Cytochalasin B uncoupled the coordinate redistribution of labeled and unlabeled Con A sites, suggesting the involvement of microfilaments. Finally, double labeling experiments employing fluorescein-tagged Con A and rhodamine-tagged WGA indicate that most Con A and WGA binding sites reside on different membrane components and redistribute independenty of each other.     

Cytochemical localization of lectin labeled vesicles in GERL region of hepatoma ascites cells.

The fate of lectin labeled internalized plasma membrane in the ascites tumor form of the Chang rat hepatoma growing under in vivo and in vitro conditions was investigated cytochemically. Ascites cells were incubated in Convanavalin A (Con A) and horseradish peroxidase (PO), either with or without prior glutaraldehyde fixation and subsequently treated with 3',3-diaminobenzidine. In cells fixed before Con-A-PO labeling the reaction product was localized as a continuous and even layer upon the external surface of the plasma membrane. If unfixed cells were treated with Con A, coupled with PO at 4 degrees C and reincubated in phosphate buffered saline at 37 degrees C for varying periods of time, the Con-A-PO layer was of irregular thickness. In as little as 15 min of reincubation endocytotic vesicles containing PO positive material were closely associated with GERL components of the Golgi Apparatus. Localization of acid phosphatase (ACPase) within GERL vesicles, similar in size and location to those containing Con-A-PO reaction product, indicates that the Con-A-PO labeled vesicles may be a component of the Golgi apparatus in hepatoma cells.     

A histochemical study of the distribution of lectin binding sites in the developing oocytes of the lancelet Branchiostoma belcheri

The distribution of carbohydrate moieties in lancelet (Branchiostoma belcheri) oocytes has been studied at different stages of development, using a peroxidase-labeled lectin incubation technique, the PAS-reaction and Alcian Blue staining. Binding sites of 5 lectins, indicating the presence of different sugar moieties (Wheat germ agglutinin (WGA) for N-acetylglucosamine, Concanavalin A (Con A) for glucose/mannose, Helix pomatia agglutinin (HPA) for N-acetyl-D-galactosamine, Ricinus communis agglutinin (RCA-I) for galactose and Ulex europaeus agglutinin (UEA-I) for fucose), were identified and were shown to undergo considerable variation during oocyte development. In the previtellogenic stage, HPA, RCA-I and UEA-I were not identified on the oocyte surface, but WGA and Con A gave strongly positive reactions at this site. In the cytoplasm, 4 lectins (Con A, HPA, RCA-I and UEA-I) gave a weak or moderate reaction, and Con A was also observed in the perinuclear region. In vitellogenic oocytes, these 4 lectins were found to also bind to the nuclear envelope, karyoplasm and nucleolus, and, with the exception of Con A, could also be found in the nuclei of more mature stages. The cytoplasmic yolk granules and Golgi vesicles of the vitellogenic oocyte, were moderately positive for Con A, HPA, RCA-I and UEA-I, but HPA, RCA-I and UEA-I were only weakly bound at the oocyte surface. In mature oocytes, all 5 lectins bound moderately or strongly to yolk granules and cell surface. HPA, RCA-I and UEA-I bound moderately or strongly to various nuclear compartments. Thus, carbohydrate content varied with the development and maturation of the oocytes, and the PAS results were in agreement with the lectin-binding results. Charged carbohydrate residues were observed in the egg envelope and Golgi bodies.These results suggest that the appearence of Con A-, HPA-, RCA-I- and UEA-I-binding glycoconjugates in the nuclei of developing oocytes show a varying pattern indicating different phases of nuclear activity which correlate with different carbohydrate synthetic activities of the oocyte.     

Cytochemical localization of lectin labeled vesicles in GERL region of hepatoma ascites cells

Summary The fate of lectin labeled internalized plasma membrane in the ascites tumor form of the Chang rat hepatoma growing under in vivo and in vitro conditions was investigated cytochemically. Ascites cells were incubated in Concanavalin A (Con A) and horseradish peroxidase (PO), either with or without prior glutaraldehyde fixation and subsequently treated with 3,3-diaminobenzidine. In cells fixed before Con-A-PO labeling the reaction product was localized as a continuous and even layer upon the external surface of the plasma membrane. If unfixed cells were treated with Con A, coupled with PO at 4°C and reinbated in phosphate buffered saline at 37°C for varying periods of time, the Con-A-PO layer was of irregular thickness. In as little as 15 min of reincubation endocytotic vesicles containing PO positive material were closely associated with GERL components of the Golgi Apparatus. Localization of acid phosphatase (ACPase) within GERL vesicles, similar in size and location to those containing Con-A-PO reaction product, indicates that the Con-A-PO labeled vesicles may be a component of the Golgi apparatus in hepatoma cells.Supported by NIH Grant CA 16663.     

Effects of brefeldin A on the Golgi apparatus, the nuclear envelope, and the endoplasmic reticulum in a green alga,Scenedesmus acutus

Summary The effects of brefeldin A (BFA) on the structure of the Golgi apparatus, the nuclear envelope, and the endoplasmic reticulum (ER), and on the thiamine pyrophosphatase (TPPase) activity in these organelles were examined in a green alga,Scenedesmus acutus, to obtain evidence for the existence of a retrograde transport from the Golgi apparatus to the ER via the nuclear envelope. InScenedesmus, Golgi bodies are situated close to the nuclear envelope throughout the cell cycle and receive the transition vesicles not directly from the ER, but from the nuclear envelope. BFA induced the disassembly of Golgi bodies and an increase in the ER cisternae at the trans-side of decomposed Golgi bodies in interphase cells and multinuclear cells before septum formation. The accumulated ER cisternae connected to the nuclear envelope at one part. TPPase activity was detected in all cisternae of Golgi bodies, but not in the nuclear envelope or the ER in nontreated cells. On the contrary, in BFA-treated cells, TPPase activity was detected in the nuclear envelope and the ER in addition to the decomposed Golgi bodies. When septum-forming cells were treated with BFA, the disassembly of Golgi bodies was less than that in interphase cells, and TPPase activity was detected in the Golgi cisternae but not in the nuclear envelope or the ER. These results suggest mat BFA blocks the anterograde transport from the nuclear envelope to the Golgi bodies but does not block the retrograde transport from the Golgi bodies to the nuclear envelope in interphase and multinuclear cells.Abbreviations BFA brefeldin A - ER endoplasmic reticulum - TPPase thiamine pyrophosphatase     

Lectin binding to newt epidermis: fluorescent localization and effects on motility

The ability of seven lectins to bind to newt epidermal cells and influence their motility was examined. Of the seven fluoresceinated lectins applied to frozen sections containing intact newt skin and migrating epidermis (wound epithelium), only Con A (concanavalin A), WGA (wheat germ agglutinin), and PNA (peanut agglutinin) produced detectable epidermal fluorescence. Con A and WGA each heavily labeled all layers of intact epidermis, but PNA bound only to the more superficial layers. In contrast to a single population of labeled cells in migrating epidermal sheets after treatment with Con A, there were both labeled and unlabeled cells after exposure to either WGA or PNA. The wound bed was labeled by both Con A and WGA, but not by PNA. DBA (Dolichos bifloris agglutinin), RCA I (Ricinus communis agglutinin), and UEA (Ulex europaeus agglutinin), did not produce significant fluorescence with either migrating or intact epidermis. In general, inhibitory effects on epidermal motility correlated with the binding studies. Thus, Con A, WGA, and PNA, the lectins which clearly bound to the epidermis, all produced a concentration-dependent depression in the rate of epidermal wound closure. RCA was somewhat paradoxical in that it was moderately inhibitory despite showing essentially no binding. The effects of SBA and UEA were equivocal. DBA had no effect. These results indicate that the inhibition of motility produced by Con A that we have described previously is not peculiar to this mannose-binding lectin, but is shared by at least one lectin with an affinity for D-GlcNAc (WGA), and one with an affinity for B-D-Gal(1-3)-D-GalNAc (PNA).(ABSTRACT TRUNCATED AT 250 WORDS)     

The effects of brefeldin A upon the Golgi apparatus of the green algal flagellate, Gloeomonas kupfferi

The fungal-derived derivative, brefeldin A, was used to disruptthe Golgi apparatus (GA) of the green alga, Gloeomonas kupfferi.Upon short treatments (10 µg ml^–1 for 10 min orless), the Golgi bodies maintain their perinuclear positioning.However, the medial locus transforms from a tight stack of elongatecisternae to a network of swollen tubules. Upon longer treatments(60 min), swelling and vesiculation of cis face cisternae becomeapparent. Likewise, the edges of several trans face cisternaemay fuse with those of adjacent Golgi bodies leading to theformation of multiGolgi complexes. Key words: Brefeldin A, Golgi apparatus, Gloeomonas kupfferi     

Inhibition of Golgi-apparatus function by brefeldin A in maize coleoptiles and its consequences on auxin-mediated growth,cell-wall extensibility and secretion of cell-wall proteins

Brefeldin A (BFA), a fungal metabolite causing dysfunction of the Golgi apparatus in plant and animal cells, was used to investigate the role of secretory processes at the plasma membrane in auxin-mediated elongation growth of maize (Zea mays L.) coleoptiles. In abraded coleoptile segments BFA produced, within less than 30 min, a decrease in the incorporation of [³H]leucine into tightly bound cell-wall proteins, accompanied by an increased incorporation into the intracellular pool of putative cell-wall glycoproteins. Total protein synthesis was not affected. Electron micrographs revealed striking morphological changes in dictyosomes (especially vesiculation of trans-cisternae), accumulation of Golgi vesicles and dilation of the endoplasmic reticulum. These effects are taken as indication that BFA interferes with the secretion of cell-wall components. Elongation growth of coleoptile segments in the presence and absence of auxin was inhibited by 80% in 20 mg·l^–1 BFA. If BFA was applied to segments growing in the presence of auxin, maximum inhibition was reached after about 30 min, indicating that the growth response depends on an uninterrupted supply of a cell-wall or plasma-membrane component (wall-loosening factor) delivered by the secretory pathway. After its secretion, this factor has a rather short growth-effective life time. The inhibition of auxin-mediated growth by BFA was accompanied by an elimination of auxin-induced cell-wall extensibility and by an inhibition of auxin-induced proton excretion. Fusicoccin-induced proton excretion was similarly affected by BFA. It is concluded that both the wall-loosening process underlying elongation growth as well as proton excretion depend on an intact secretory pathway from the Golgi apparatus to the cell wall; however, a causal relationship between these processes is not warranted by the data.Abbreviations BFA brefeldin A - FC fusicoccin - TCA trichloroacetic acid - WLF wall-loosening factor Supported by Deutsche Forschungsgemeinschaft (SFB 206). We thank Ms. B. Huvermann and Mrs. C. Plachy for conducting growth and proton excretion measurements.     

Fermentation characteristics of cell-wall sugars from soya bean meal,and from separated endosperm and hulls of soya beans

Two experiments were conducted to investigate the degradation of cell-wall sugars from soya bean meal (in situ), and soya bean endosperm and hulls (in vitro). Soya bean meal, soya bean endosperm, and soya bean hulls were extracted with different chemicals to obtain the cell-wall fraction. Soya bean meal cell walls were incubated in the rumen of a fistulated cow. The individual cell-wall sugars were degraded at different rates: galactose (13.6% h⁻¹), arabinose (7.8% h⁻¹), uronic acids (5.1% h⁻¹), xylose (3.5% h⁻¹) and glucose (3.2% h⁻¹). Microscopic evaluation of the cell walls and degraded material revealed the presence of two cell wall types, with distinctly different degradation characteristics: one originating from the hull (thick, slowly degraded) and one from the endosperm (thin, rapidly degraded). Furthermore, the cell-wall sugar composition of endosperm and hull cell walls was different, most markedly for galactose (281 vs. 12 g kg⁻¹) and glucose (132 vs. 508 g kg⁻¹). The degradation of endosperm and hull cell walls was measured in vitro by use of in vitro cumulative gas production. Degradation rates of the individual cell-wall sugars for hull cell walls were similar (ranging from 2.4% to 4.6% h⁻¹). For endosperm cell walls, the degradation rates of the individual sugars were different but with the same ranking as in the in situ experiment (ranging from 20.9% to 7.0% h⁻¹). It was concluded that for soya bean meal cell walls, the cell-wall sugar degradation pattern is influenced by the presence of two cell-wall types (hull and endosperm cell-wall), which differ in their rate of degradation and sugar composition. The difference in cell-wall sugar degradation pattern between hull and endosperm cell walls is likely to be caused by a combined effect of particle size and cell-wall thickness.     

Rate of Retrograde Transport of Cholera Toxin from the Plasma Membrane to the Golgi Apparatus and Endoplasmic Reticulum Decreases During Neuronal Development

Abstract: Various glycolipid-binding toxins are internalized from the cell surface to the Golgi apparatus. Prominent among these is cholera toxin (CT), which consists of a pentameric B subunit that binds to ganglioside GM1 and an A subunit that mediates toxicity. We now demonstrate that rhodamine (Rh)-CT can be further internalized from the Golgi apparatus to the endoplasmic reticulum (ER) in cultured hippocampal neurons and in neuroblastoma N18TG-2 cells and that the A subunit is essential for retrograde transport to the ER. In addition, the rate of internalization of Rh-CT to the Golgi apparatus and ER decreases dramatically as hippocampal neurons mature. The Golgi apparatus was labeled in almost all 1-day-old neurons after <1 h of incubation with Rh-CT but was labeled in <10% of 14-day-old neurons after 1 h. During the first 14 days in culture, there was a 15-fold increase in the number of ¹²⁵I-CT-binding sites per cell, indicating that the decrease in the rate of internalization of Rh-CT is not due to reduced levels of cell surface GM1 in older neurons. These results imply that the rate of retrograde transport of CT from the plasma membrane to the Golgi apparatus and ER is regulated during neuronal development and differentiation.     

Trypanosoma rhodesiense Bloodstream Trypomastigote and Culture Procyclic Cell Surface Carbohydrates1, 2, 3

Bloodstream trypomastigote and culture procyclic (insect midgut) forms of a cloned T. rhodesiense variant (WRATat 1) were tested for agglutination with the lectins concanavalin A (Con A), phytohemagglutinin P (PP), soybean agglutinin (SBA), fucose binding protein (FBP), wheat germ agglutinin (WGA), and castor bean lectin (RCA). Fluorescence-microscopic localization of lectin binding to both formalin-fixed trypomastigotes and red cells was determined with fluorescein isothiocyanate (FITC)-conjugated Con A, SBA, FBP, WGA, RCA, PNA (peanut agglutinin), DBA (Dolichos bifloris), and UEA (Ulex europaeus) lectins. Electron microscopic localization of lectin binding sites on bloodstream trypomastigotes was accomplished by the Con A-horseradish peroxidase-diaminobenzidine (HRP-DAB) technique, and by a Con A-biotin/avidin-ferritin method. Trypomastigotes, isolated by centrifugation or filtration through DEAE-cellulose or thawed after cryopreservation, were agglutinated by the lectins Con A and PP with agglutination strength scored as Con A < PP. No agglutination was observed in control preparations or with the lectins WGA, FBA or SBA. Red cells were agglutinated by all the lectins tested. Formalin-fixed bloodstream trypomastigotes bound FITC-Con A and FITC-RCA but not FITC-WGA, -SBA, -PNA, -UEA or -DBA lectins. All FITC-labeled lectins bound to red cells. Con A receptors, visualized by Con A-HRP-DAB and Con A-biotin/avidin-ferritin techniques, were distributed uniformly on T. rhodesiense bloodstream forms. No lectin receptors were visualized on control preparations. Culture procyclics lacked a cell surface coat and were agglutinated by Con A and WGA but not RCA, SBA, PP and FBP. Procyclics were not agglutinated by lectins in the presence of competing sugar at 0.25 M. The expression of lectin binding cell surface saccharides of T. rhodesiense WRATat 1 is related to the parasite stage. Sugars resembling α-D-mannose are on the surface of bloodstream trypomastigotes and culture procyclics; n-acetyl-D-galactosamine and D-galactose residues are on bloodstream forms; and n-acetyl-D-glucosamine-like sugars are on procyclic stages.     

A Survey of Lectin Binding in Paramecium1

To better understand the general distribution of glycoproteins and the distribution of specific glycoprotein-bound sugar residues in Paramecium, a survey of the binding pattern of selected lectins was carried out in P. tetraurelia, P. caudatum, and P. multimicronucleatum. Lectins studied were concanavalin A (Con A), Griffonia simplicifolia agglutinins I and II (GS I and GS II), wheat germ agglutinin (WGA), Ulex europaeus (UEA I), peanut agglutinin (PNA), Ricinis communis toxin (RCA₆₀) and agglutinin (RCA₁₂₀), soybean agglutinin (SBA), Bauhinia purpurea agglutinin (BPA), Dolichos biflorus agglutinin (DBA), and Maclura pomifera agglutinin (MPA). Those giving the most distinctive patterns were Con A, GS II, WGA, UEA I, and PNA. No significant differences were found between the three species. Concanavalin A, a mannose/glucose-binding lectin, diffusely labeled the cell surface and cytoplasm and, unexpectedly, the nuclear envelopes. Events of nuclear division, and nuclear size and number were thus revealed. Both WGA and GS II, which are N-acetylglucosamine-binding lectins, labeled trichocyst tips, the cell surface, and the oral region, revealing stages of stomatogenesis. The lectin WGA, in addition, labeled the compartments of the phagosome-lysosome system. The lectin PNA, an N-acetyl galactosamine/galactose-binding protein, was very specific for digestive vacuoles. Finally, UEA I, a fucose-binding lectin, brightly labeled trichocysts, both their tips and body outlines. We conclude that a judicious choice of lectins can be used to localize glycoproteins and specific sugar residues as well as to study certain events of nuclear division, cellular morphogenesis, trichocyst discharge, and events in the digestive cycle of Paramecium.     

Morphological and cytochemical studies of the effects of ecdysteroids in a lepidopteran cell line (IAL-PID2)

Summary The Indian meal-moth cell line, IAL-PID2, established from larval wing discs was examined from the 250th to the 300th passages. The cultured cells retain various structural and functional qualities of epidermal cells. Under hormone-free conditions PID2 cells grow as a monolayer of round or spindle-shaped cells. They appear as weakly active epidermal cells. The endoplasmic reticulum and Golgi apparatus are poorly developed and secretory activity is reduced. Culture conditions resulted in considerable cellular expansions, abundance of storage products (glycogen, lipids), and hypertrophy of the lysosomal system. The PID2 cell line retains the ability to respond to ecdysteroids; 20-hydroxyecdysone treatment (2×10^-6 M) triggered morphogenetic and secretory processes. Cells formed pseudoepithelial aggregates interconnected and linked by desmosome-like structures. The hormone-stimulated cells are involved in the biosynthesis of N-acetyl-D-glucosamine-rich glycoproteins. The glycosylation sites were located, by use of WGA-gold particles, on cellular expansions and all along the plasma membrane. The possible significance of these glycoproteins is discussed.     

Lectin-gold cytochemistry of the Golgi apparatus in rabbit luteal cells,with special emphasis on the formation of a lysosomal-type membrane

Summary In rabbit luteal cells embedded in glycolmethacrylate and stained with PTA at low pH highly glycosylated membrane patches can be observed after vesiculation of the trans-Golgi network. As these membranes could be prelysosomal, their sialic acid content was investigated by postembedding labeling with Limax flavus agglutinin (LFA)/fetuin-Au. Additional labeling of the Golgi apparatus was performed with Wheat germ agglutinin (WGA)/ovomucoid Au, Ricinus communis agglutinin_I (RCA_I)/Au and Helix pomatia agglutinin (HPA)/Au. The sections were then counterstained with PTA at low pH, which allows a clear distinction between the elements of the trans-Golgi network (G₂-G₁) and the saccules of the stack (g).With WGA, LFA and RCA_I the trans-Golgi network was observed to be clearly more reactive than the stack. After vesiculation most intense labeling was found over the highly glycosylated vacuolar membranes derived from the G₂-element. The limiting membrane of lysosomes, the MvB's and the plasma membrane also reacted strongly. Colloidal gold particles were also found over the membranes of the vacuoles derived from G₁. The Golgi stack showed a lower reactivity and label for all three lectins could be found over three to four saccules of the stack (g₃-g₄). The matrix of the lysosomes was slightly labeled. Labeling with HPA was absent from the trans saccules and was consistently found in the cis and cis-most (g₄-g₅) saccules of the stack. Some cytoplasmic vesicles near the cell border were also labeled. With our procedure the Golgi apparatus can easily be detected and it is apparent that in rabbit luteal cells the highest lectin reactivity is found in the trans-Golgi network. A striking similarity is observed between the highly glycosylated membrane structures derived from G₂ and the border of the lysosomes.     

A survey of lectin binding in Paramecium

To better understand the general distribution of glycoproteins and the distribution of specific glycoprotein-bound sugar residues in Paramecium, a survey of the binding pattern of selected lectins was carried out in P. tetraurelia, P. caudatum, and P. multimicronucleatum. Lectins studied were concanavalin A (Con A), Griffonia simplicifolia agglutinins I and II (GS I and GS II), wheat germ agglutinin (WGA), Ulex europaeus (UEA I), peanut agglutinin (PNA), Ricinis communis toxin (RCA60) and agglutinin (RCA120), soybean agglutinin (SBA), Bauhinia purpurea agglutinin (BPA), Dolichos biflorus agglutinin (DBA), and Maclura pomifera agglutinin (MPA). Those giving the most distinctive patterns were Con A, GS II, WGA, UEA I, and PNA. No significant differences were found between the three species. Concanavalin A, a mannose/glucose-binding lectin, diffusely labeled the cell surface and cytoplasm and, unexpectedly, the nuclear envelopes. Events of nuclear division, and nuclear size and number were thus revealed. Both WGA and GS II, which are N-acetylglucosamine-binding lectins, labeled trichocyst tips, the cell surface, and the oral region, revealing stages of stomatogenesis. The lectin WGA, in addition, labeled the compartments of the phagosome-lysosome system. The lectin PNA, an N-acetyl galactosamine/galactose-binding protein, was very specific for digestive vacuoles. Finally, UEA I, a fucose-binding lectin, brightly labeled trichocysts, both their tips and body outlines. We conclude that a judicious choice of lectins can be used to localize glycoproteins and specific sugar residues as well as to study certain events of nuclear division, cellular morphogenesis, trichocyst discharge, and events in the digestive cycle of Paramecium.     

Immunolocalization of the vacuolar-type (H+)-ATPase from clathrin-coated vesicles.

Proton-translocating ATPases of the vacuolar class (V-ATPases) are found in a variety of animal cell compartments that participate in vesicular membrane transport, including clathrin-coated vesicles, endosomes, the Golgi apparatus, and lysosomes. The exact structural relationship that exists among the V-ATPases of these intracellular compartments is not currently known. In the present study, we have localized the V-ATPase by light and electron microscopy, using monoclonal antibodies that recognize the V-ATPase present in clathrin-coated vesicles. Localization using light microscopy and fluorescently labeled antibodies reveals that the V-ATPase is concentrated in the juxtanuclear region, where extensive colocalization with the Golgi marker wheat germ agglutinin is observed. The V-ATPase is also present in approximately 60% of endosomes and lysosomes fluorescently labeled using alpha 2-macroglobulin as a marker for the receptor-mediated endocytic pathway. Localization using transmission electron microscopy and colloidal gold-labeled antibodies reveals that the V-ATPase is present at and near the plasma membrane, alone or in association with clathrin. These results provide evidence that the V-ATPases of plasma membrane, endosomes, lysosomes, and the Golgi apparatus are immunologically related to the V-ATPase of clathrin-coated vesicles.     

Inhibition of the Breakdown of Xyloglucans in Azuki Bean Epicotyls by Concanavalin A

Indole-3-acetic acid at 10 µM caused a 30% decrease inthe weight-average molecular mass of xyloglucans extracted with24% KOH from the cell walls of epicotyl segments of azuki bean(Vigna angularis Ohwi et Ohashi cv. Takara). Concanavalin A(Con A) at 2 g liter^–1 completely inhibited the IAA-inducedchange in the molecular mass of the xyloglucans. Con A alsosuppressed the autolysis of pectin-depleted cell walls, as wellas the breakdown of xyloglucans by a protein fraction that hadbeen extracted with 1 M NaCl from the cell walls of azuki beanepicotyls. These results indicate that Con A is a potent inhibitorof the breakdown of xyloglucans both in vivo and in vitro. Mostof the activity responsible for the decrease in staining byiodine and the increase in reducing power of solution of xyloglucansin the protein fraction from cell walls bound to a column ofCon A-Sepharose and was eluted by the specific hapten, methyl