Analysis of Tetrahymena Mucocyst Material with Lectins and Alcian Blue1

ABSTRACT. There are numerous mucocysts in Tetrahymena; however, little is known about their composition, organization, biosynthesis, or function. Mucocysts of Tetrahymena are membrane-bounded vesicles located at the cell cortex. They are torpedo-shaped structures (0.9 μm x 0.3 μm) lined up in longitudinal rows along the surface. It is estimated here that each cell contains about 5000 mucocysts. Mucocyst contents are organized in a crystalline manner, but when that material is released by exocytosis, it swells and forms a gel. Using fluorescence microscopy, we demonstrate that mucocysts contain concanavalin A (Con A)-binding material. First, intracellular fluorescent particles in fixed cells incubated with fluorescein-derivatized Con A (F-Con A) have the same distribution, shape, and orientation as mucocysts in living cells. Also, mucocysts were induced to undergo synchronous exocytosis, and the released material formed a capsule around the cell. The capsule was fluorescent after incubation with F-Con A. In both cases fluorescence was abolished by competition with α methyl mannoside, indicating that Con A is binding specifically to a glycosidic component of the mucocyst. Mucocyst capsules also bind wheat germ agglutinin but not soybean agglutinin, pea lectin, or lentil lectin. Preparations of mucocyst material were analyzed by SDS-PAGE. Silver stain revealed a high molecular weight band that had not previously been detected by Coomassie blue staining. That band also stained with Alcian blue, indicating that it is a mucopolysaccharide. Finally, that same band was shown to be Con A binding. Thus the Con A-binding and Alcian blue-staining properties of mucocysts can be attributed to the same high molecular weight mucopolysaccharide component. This study indicates that it may be possible to purify a specific carbohydrate component of mucocysts which may be helpful in analyzing their function, biogenesis, and structural organization.     

A novel membrane complex is required for docking and regulated exocytosis of lysosome-related organelles in Tetrahymena thermophila

In the ciliate Tetrahymena thermophila, lysosome-related organelles called mucocysts accumulate at the cell periphery where they secrete their contents in response to extracellular events, a phenomenon called regulated exocytosis. The molecular bases underlying regulated exocytosis have been extensively described in animals but it is not clear whether similar mechanisms exist in ciliates or their sister lineage, the Apicomplexan parasites, which together belong to the ecologically and medically important superphylum Alveolata. Beginning with a T. thermophila mutant in mucocyst exocytosis, we used a forward genetic approach to uncover MDL1 (Mucocyst Discharge with a LamG domain), a novel gene that is essential for regulated exocytosis of mucocysts. Mdl1p is a 40 kDa membrane glycoprotein that localizes to mucocysts, and specifically to a tip domain that contacts the plasma membrane when the mucocyst is docked. This sub-localization of Mdl1p, which occurs prior to docking, underscores a functional asymmetry in mucocysts that is strikingly similar to that of highly polarized secretory organelles in other Alveolates. A mis-sense mutation in the LamG domain results in mucocysts that dock but only undergo inefficient exocytosis. In contrast, complete knockout of MDL1 largely prevents mucocyst docking itself. Mdl1p is physically associated with 9 other proteins, all of them novel and largely restricted to Alveolates, and sedimentation analysis supports the idea that they form a large complex. Analysis of three other members of this putative complex, called MDD (for Mucocyst Docking and Discharge), shows that they also localize to mucocysts. Negative staining of purified MDD complexes revealed distinct particles with a central channel. Our results uncover a novel macromolecular complex whose subunits are conserved within alveolates but not in other lineages, that is essential for regulated exocytosis in T. thermophila.     

Secretion of Polypeptide Crystals from Tetrahymena thermophila Secretory Organelles (Mucocysts) Depends on Processing by a Cysteine Cathepsin,Cth4p

In many organisms, sophisticated mechanisms facilitate release of peptides in response to extracellular stimuli. In the ciliate Tetrahymena thermophila, efficient peptide secretion depends on specialized vesicles called mucocysts that contain dense crystalline cores that expand rapidly during exocytosis. Core assembly depends of endoproteolytic cleavage of mucocyst proproteins by an aspartyl protease, cathepsin 3 (CTH3). Here, we show that a second enzyme identified by expression profiling, Cth4p, is also required for processing of proGrl proteins and for assembly of functional mucocysts. Cth4p is a cysteine cathepsin that localizes partially to endolysosomal structures and appears to act downstream of, and may be activated by, Cth3p. Disruption of CTH4 results in cells (Δcth4) that show aberrant trimming of Grl proproteins, as well as grossly aberrant mucocyst exocytosis. Surprisingly, Δcth4 cells succeed in assembling crystalline mucocyst cores. However, those cores do not undergo normal directional expansion during exocytosis, and they thus fail to efficiently extrude from the cells. We could phenocopy the Δcth4 defects by mutating conserved catalytic residues, indicating that the in vivo function of Cth4p is enzymatic. Our results indicate that as for canonical proteins packaged in animal secretory granules, the maturation of mucocyst proproteins involves sequential processing steps. The Δcth4 defects uncouple, in an unanticipated way, the assembly of mucocyst cores and their subsequent expansion and thereby reveal a previously unsuspected aspect of polypeptide secretion in ciliates.     

Maturation of dense core granules in wild type and mutant Tetrahymena thermophila.

Tetrahymena thermophila, a ciliated protozoan, has a well-developed pathway of regulated secretion from dense core granules called mucocysts. Since exocytosis-defective mutants are available, steps in the biogenesis of dense core granules and their fusion with the plasma membrane may be resolved genetically. To describe the steps in biochemical terms, we have generated antisera against mucocyst content proteins. One antiserum is directed against a calcium binding protein, p40, that is released on stimulation of exocytosis. p40 is shown to associate with an insoluble matrix in mature mucocysts. In addition, the antiserum recognizes a larger protein, p60, that is soluble, is not found in mature mucocysts and is not released on stimulation. Pulse-chase experiments support a precursor-product relationship between p60 and p40. Using these proteins as markers, two mutant Tetrahymena strains defective in exocytosis have been shown to accumulate the putative precursor p60 in organelles that can be distinguished from one another and from wild type mucocysts on the basis of density. The kinetics of appearance of insoluble p40 and the mutant phenotypes suggest a model of mucocyst maturation in which sorting precedes matrix condensation.     

Protein secretion in Tetrahymena thermophila. Characterization of the major proteinaceous secretory proteins

The contents of mucocysts of the ciliated protozoan Tetrahymena thermophila comprise about 12 proteins, ranging in relative mobility (Mr) from approximately 160,000 to 8,000. There are at least four families of sulfhydryl-linked mucocyst polypeptides. One of these families includes a prominent Mr 34,000 protein, as determined by one- and two-dimensional gel electrophoresis. The Mr 34,000 protein is resolved into two species in isoelectric focusing gels, with apparent pI values of 4.8 and 4.9; most of the other mucocyst proteins also exhibit acidic apparent isoelectric points. The identity of the major Mr 34,000 protein as a bona fide mucocyst component is substantiated by indirect immunofluorescent localization of this protein in a linear punctate pattern coincident with the localization of mucocysts in these cells; this pattern of localization can be abolished by stimulation of synchronous secretion and is absent in a mutant strain devoid of these secretory organelles (Maihle, N. J., and Satir, B. H. (1985a) J. Cell Sci. 78, 49-65.     

Genetic characterization of Tetrahymena thermophila mutants unable to secrete capsules.

Under appropriate conditions, Alcian Blue-induced exocytosis of Tetrahymena mucocysts leads to formation of a capsule that surrounds the cell. This phenomenon is an example of regulated secretion, a mechanism of fundamental significance in eukaryotic cells. In order to dissect genetically the mechanism of mucocyst biogenesis and regulated exocytosis, mutants unable to form capsules (Caps-) were isolated. In this paper we report a genetic characterization of Caps- mutants in this collection. The mutations in mutants SB255 and SB281 behave as single recessive Mendelian mutations. The mutation in SB251 is restricted to the macronucleus, and could not be further characterized by the genetic methods we used. Complementation tests suggest the existence of at least 2 genes, named exoA and exoB; additional mutant loci are likely to be included in the mutant collection. Deletion mapping using nullisomic strains showed that exoA and exoB are located on the left arm of chromosome 4. The exo-3 mutation, which behaves as recessive and complements with exoA1 in SB255 and exoB2 in SB281, maps to chromosome 3. These Caps- mutants may be useful for the elucidation of the developmental pathway of mucocyst biogenesis and the control of regulated secretion in eukaryotic cells.     

Genetic characterization of Tetrahymena thermophila mutants unable to secrete capsules

Under appropriate conditions, Alcian Blue-induced exocytosis of Tetrahymena mucocysts leads to formation of a capsule that surrounds the cell. This phenomenon is an example of regulated secretion, a mechanism of fundamental significance in eukaryotic cells. In order to dissect genetically the mechanism of mucocyst biogenesis and regulated exocytosis, mutants unable to form capsules (Caps–) were isolated. In this paper we report a genetic characterization of Caps– mutants in this collection. The mutations in mutants SB255 and SB281 behave as single recessive Men-delian mutations. The mutation in SB251 is restricted to the macronucleus, and could not be further characterized by the genetic methods we used. Complementation tests suggest the existence of at least 2 genes, named exoA and exoB; additional mutant loci are likely to be included in the mutant collection. Deletion mapping using nulli-somic strains showed that exoA and exoB are located on the left arm of chromosome 4. The exo-3 mutation, which behaves as recessive and complements with exoA1 in SB255 and exoB2 in SB281, maps to chromosome 3. These Caps– mutants may be useful for the elucidation of the developmental pathway of mucocyst biogenesis and the control of regulated secretion in eukaryotic cells. © 1992 Wiley-Liss, Inc.     

Ultrastructure of Mucocysts in Peranema trichophorum (Euglenophyceae)1

The “mucigenic” or “muciferous” bodies of Peranema trichophorum are further characterized here as unique extrusive organelles, the mucocysts. Intracellular and ejected mucocysts have characteristic shapes that may represent different developmental stages. Mucocysts found near the Golgi apparatus are membrane-bounded, elongate, tubular structures with amorphous contents of low electron density. Subpellicular mucocysts are often aligned with pellicular striae and have dense contents, which are separated by an electron-lucent zone from granular material at the tips. Ejected mucocysts are uniform in structure and consist of an inner tube with helical striations, an outer tube with a diamond-shaped pattern, and a dense middle band. Fine fibrils, visible only after mucocyst discharge, emanate from the tips. Mucocysts may also protrude through the pellicle and discharge mucilaginous materials into the medium. Acid phosphatase activity is localized within the subpellicular mucocysts, suggesting that they may be involved in release of hydrolytic enzymes into the medium.     

151 Phylogenetic Analysis of The Subgenus Euglena with Particualr Reference to the Type Species Euglena Viridis (Euglenophyceae)

Euglena viridis was first described by Antony van Leeuwenhoek in 1674. This taxon later became the type for the genus Euglena erected by Ehrenberg in 1838. The primary characters that distinguish this taxon are the single stellate chloroplast and spherical mucocysts. A number of related Euglena species are similar in size, bear one or two stellate plastids and possess spherical or spindle-shaped mucocysts. We conducted morphological and molecular studies on taxa in the subgenus Euglena (all of which bear stellate chloroplasts) and compared this to genera in the subgenus Calliglena (non-stellate chloroplasts). Morphologically the strains in subgenus Euglena were very similar, except for chloroplast number and mucocyst shape. The E. stellata group has one chloroplast and a distinctive spindle-shaped mucocyst; the E. geniculata group has two chloroplasts and spherical mucocysts; the E. viridis group has one chloroplast and spherical mucocysts. Molecular analyses using SSU and LSU rDNA demonstrated that the subgenus Euglena is not monophyletic. The combined SSU/LSU trees provide strong support for a stellate clade (subgenus Euglena ), but one strain of E. viridis diverges at the base of the Euglena/Calliglena lineage. Multiple subclades are found within the main stellate clade. E. tristellata forms a separate divergence and four E. stellata strains form a single, well-supported subclade. Two E. viridis strains are among the E. geniculata group clade, while six others form two separate, but well-supported clades. This study demonstrates that the type species, E. viridis , is paraphyletic and will need to be redefined.     

Conjugation Rescue of Exocytosis Mutants in Tetrahymena thermophila Indicates the Presence of Functional Intermediates in the Regulated Secretory Pathway

ABSTRACT. Tetrahymena thermophila possesses a regulated secretory pathway in which mucin proteins are stored in dense-core granules, called mucocysts. Exocytosis-defective mutants exist that fail to secrete mucin in response to secretagogues. Four of the mutants (SB281, SB283, SB285 and SB715) appear to be blocked at different steps of the regulated secretory pathway. SB281 and SB285 accumulate mucin proteins in heterogeneous cytoplasmic organelles which have not yet been identified; SB283 makes mucocyst-like structures but they contain no immunologically identifiable 80-kDa or 50-kDa mucin proteins; and SB715 has more than normal amounts of immature and undocked mucocysts. The organelles that accumulate in exocytosis-defective mutants could be either normal intermediates in the biosynthetic pathway or aberrant structures that form as a result of the mutations. We have used conjugation rescue to analyze steps in the biogenesis of exocytosis-competent mucocysts and to identify functional intermediates. The cytoplasmic organelles that accumulate in SB281 appear to be unidentified biosynthetic intermediates, and the defect is in a cytosolic protein essential for mucocyst maturation. The organelles which accumulate in the other mutants are likely biosynthetic, but their mutations are in proteins which are labile or not free to diffuse into the mutant conjugant.     

Developmental and genetic effects of alcian blue in conjugating Tetrahymena thermophila: doublet formation and macronuclear retention

Genetic, kinetical and cortical effects of treatment with the inducer of mucocyst release, alcian blue (AB), on conjugating pairs of Tetrahymena thermophila are reported. AB induces the formation of doublet cells from pairs, and the majority of them are homopolar doublets. We present a model in order to explain the origin of these cells. Macronuclear retention (MR) is the most important genetic effect observed. Two kinds of MR can be obtained: prezygotic-MR (uniparental micronucleus) and postzygotic-MR (cross-fertilized micronucleus). Within the first group, both homokaryon and heterokaryon cells are obtained. From some abnormal conjugational configurations and the results of conjugational kinetic analysis we propose an explanation for the origin of MR cells induced by AB. Genetic effects obtained after AB treatment at different conjugational times are independent of the cortical ones. The utility of these different effects in genetical and physiological studies is discussed.     

Some histochemical reactions of mast cells of gerbils,hogs, armadillos and cats

Summary Mast cells of the Mongolian gerbil Meriones unguiculatus, the hog Sus scrofa, the cat Felis catus and the armadillo Pasypus novemcinctus were studied histochemically in relation to various fixation procedures, using azure A at pH 1 and 3, alcian blue at pH 1 and 2.5, diazosafranin at pH 3 and 7.8–8, and the PAS reaction. Fixations were performed in buffered 10% formol and 5% glutaraldehyde, in Kose's fluid, buffered sublimate (B4), lead nitrate and lead acetate formol.With azure A and alcian blue many mast cells were found in the gerbil with the aldehyde fixatives, fewer with the heavy metals. The diazosafranin reaction was present only in the aldehyde material, the PAS reaction was negative.In the hog, mast cells were more numerous after heavy metal fixation, fewer with aldehydes. Azure A stained metachromatically at pH 1 and 3, alcian blue reacted only at pH 1, the PAS reaction was negative, the pH 3 and 8 diazosafranin reactions were positive with all 4 fixations.In the cat, mast cells were moderately numerous with lead acetate formol, rare with formol and absent with glutaraldehyde. They stained with azure A at pH 1 and 3, with alcian blue at pH 1 and 2.5, with diazosafranin at pH 3 and 8 and by the PAS reaction.Armadillo mast cells were more numerous after heavy metal fixations, stained with azure A and alcian blue at pH 1 and 2.5 to 3, and with acid and alkaline diazosafranin.The mast cells of the 4 species vary in their requirements for aldehyde and heavy metal fixation, in their PAS reactivity and in their pH 2.5 alcian blue staining. All are sufficiently sulfated to react to cationic dyes at pH 1, but vary in PAS reactivity, indicating partial or complete sulfation. The presence of 5-hydroxytryptamine is indicated in all four species.Assisted by grant from National Cancer Institute C-04816.     

Lysosomal sorting receptors are essential for secretory granule biogenesis in Tetrahymena

Secretory granules, such as neuronal dense core vesicles, are specialized for storing cargo at high concentration and releasing it via regulated exocytosis in response to extracellular stimuli. Here, we used expression profiling to identify new components of the machinery for sorting proteins into mucocysts, secretory granule-like vesicles in the ciliate Tetrahymena thermophila. We show that assembly of mucocysts depends on proteins classically associated with lysosome biogenesis. In particular, the delivery of nonaggregated, but not aggregated, cargo proteins requires classical receptors of the sortilin/VPS10 family, which indicates that dual mechanisms are involved in sorting to this secretory compartment. In addition, sortilins are required for delivery of a key protease involved in T. thermophila mucocyst maturation. Our results suggest potential similarities in the formation of regulated secretory organelles between even very distantly related eukaryotes.     

ULTRASTRUCTURE OF MUCOCYSTS AND PELLICLE OF TETRAHYMENA PYRIFORMIS

Tetrahymena pyriformis GL was fixed with glutaraldehyde and/or OsO₄ for a study of cytoplasmic ultrastructure. Many small vacuoles 0.05 to 0.5 µ in diameter were found to contain each a dense particle enveloped by a limiting membrane. This membrane is continuous with the membrane of the vacuole. The particles are irregular in shape and size, but similar to the mucocysts in the appearance of the matrix. It is suggested that they are the first morphologically distinguishable stages in the development of mucocysts. In the course of this development, amorphous material becomes crystalline with a longitudinal period of 150 A and a lateral period of 100 A. The mature mucocysts are rather uniform in size and have a spheroidal shape. During discharge, the crystalline pattern disappears and the mucocysts assume a spherical configuration. The inner limiting membrane of a mucocyst seems to disintegrate during the process of discharge while the outer membrane becomes continuous with the outermost pellicular membrane; the inner pellicular membrane is continuous with the cytoplasmic membrane. Rows of few to 15 or more microtubules were found either between the cytoplasmic membrane and the ectoplasmic layer (longitudinal fibrils) or underneath the ectoplasmic layer (transverse fibrils). The outer and inner pellicular membranes are uniformly spaced and connected by "cross-bridges." Details of these structures are described.     

Death rate, recapture frequency and changes in size of tagged eels

From 475 eels individually marked with floy tags, of which 180 had an additional spot of alcian blue, 142 tags were recovered during a 2-year release-recapture programme, but alcian blue spots were not detected. The marked population declined by c. 95% per year (either through death or tag loss); tagged eels did not grow but lost weight; no trap avoidance could be detected. It is concluded that these tagged eels in poor condition did not suffer from winter mortality, and that during summer they moved around very actively.     

MEMBRANE FUSION IN A MODEL SYSTEM : Mucocyst Secretion in Tetrahymena

The freeze-fracture, freeze-etch technique can be employed to reveal new details of the process of fusion of two unit membranes For this study, mucocyst discharge in Tetrahymena pyriformis provides a model system with certain general implications The undischarged mature mucocyst is a saclike, membrane-bound, secretory vesicle containing crystalline material The organelle tip finds its way toward a special site, a rosette of 150 Å diameter particles within the plasma membrane. To match this site, the mucocyst membrane forms an annulus of 110 Å diameter particles, above whose inner edge the rosette particles sit. Discharge of some mucocysts is triggered by fixation. As discharge proceeds, the organelle becomes spherical and its content changes from crystalline to amorphous. The cytoplasm between the two matching membrane sites is squeezed away and the membranes fuse Steps in membrane reorganization can be reconstructed from changes in rosette appearance in the fracture faces. First, a depression in the rosette—the fusion pocket—forms. The rosette particles spread at the lip as the pocket deepens and enlarges from 60 to 200 nm. The annulus particles then become visible at the lip, indicating completed fusion of the A fracture faces of mucocyst and plasma membranes The remaining B faces of the two membranes have opposite polarities When the content of the mucocyst is released, the edges of these faces join so that the unit membrane runs uninterruptedly around the lip and into the pocket.     

Receptor-Mediated Calcium Influx in Chlamydomonas reinhardtii

ABSTRACT. Alcian blue acts as a secretagogue and chemorepellent in a variety of unicellular eukaryotes. We report that alcian blue stimulates flagellar excision and induction of RNA encoding flagellar proteins in Chlamydomonas reinhardtii . Flagellar excision by alcian blue is dependent on extracellular Ca²⁺ and is blocked by La³⁺, ruthenium red, and neomycin, and so is similar to flagellar excision by acid shock. However, the adf-l mutant excises its flagella following alcian blue treatment, but not following acid shock, thus genetically distinguishing alcian-blue-induced excision from acid-shock-induced excision. Wild-type, but not adf-1, cells regrow their flagella in the continued presence of alcian blue. Wild-type cells that regrow flagella in the presence of alcian blue fail to excise their flagella in response to either increased concentrations of alcian blue or to acid shock. Alcian blue treatment of cells also induces RNA encoding flagellar components, but in a manner distinct from other means of stimulation. These results suggest that treating Chlamydomonas with the secretagogue alcian blue initiates a Ca²⁺ influx pathway and that prolonged treatment with alcian blue desensitizes the acid-shock-activated Ca²⁺ influx pathway to acid treatment. Alcian blue will thus be a useful excitatory ligand in future studies of receptor-mediated Ca²⁺ signaling in the Chlamydomonas flagellar regeneration system.     

Gram staining and lectin binding properties of Myxosporea and Sporozoea

The staining method developed by Christian Gram was introduced as a simple and highly selective tool for demonstrating myxosporean and coccidian sporogonic stages. When using standard blood staining procedures for those enigmatic parasites it is sometimes difficult to distinguish them from fish host tissue. They clearly exhibit a partial Gram-positive reaction in histological sections, but staining is variable in air dried fish organ imprints. To visualize the Gram-negative background of different host tissue components in histological sections, the conventional safranin counterstain of the Gram protocol may be modified as follows: after application of 2% crystal violet (basic violet 3) and Lugol's solution, sections are stained with 0.1% nuclear fast red-5% aluminum sulfate and 0.35% aniline blue (acid blue 22) dissolved in saturated aqueous picric acid. Replacement of the Gram-specific dye crystal violet with 2% malachite green gave similar results in organ imprints containing myxospores or coccidia, but only in sections containing myxosporea. Staining for 1 min with an aqueous solution of 0.5% malachite green and followed 1 min washing was sufficient for rapidly demonstrating the parasite spores in organ imprints of both myxosores and oocysts. With regard to the role of acid mucopolysaccharides and other carbohydrates in the Gram reaction of spores, alcian blue 8GX staining was compared to the binding of FITC-labeled WGA, GS I and GS II. Each lectin was applied at 20 μl/ml PBS, HEPES for 1 hr. Whereas WGA yielded a nonspecific pattern like the alcian blue staining, GS II resulted in a pattern similar to the Gram staining results. This binding was weak in untreated specimens, but was significantly enhanced when digested first within trypsin overnight in a humid chamber at 37 °C. The binding of GS II to both myxosporidian and coccidian spores suggests that they are both composed of polymers containing N-acetyl-D-glucosamine residues. Furthermore, the results suggest that this hexosamine plays a key role in the Gram reaction.     

The ultrastructure of secretion in the spermatheca of the salamander, Manculus quadrigitatus (Holbrook)

Spermathecae of mature salamanders (Manculus quadridigitatus) were studied by light and electron microscopy. Gross morphology exhibits a complex of muscle, connective tissue and pigment cells surrounding a cluster of tubules, which empty into a ciliated central duct leading to the cloacal cavity. The tubules are composed of myoepithetial cells and secretory cells, anchored to an encompassing basal lamina. Secretion products appear to be initiated as crystalline deposits, seen in mitochondrial repositories, which are subsequently sequestered in the perinuclear region. Observations show these vesicles to be precursors of the Golgi synthesis of carboxylated polysaccharides, as determined by histochemical tests using toluidine blue, ruthenium red, and alcian blue. The secretory products are emptied into the tubule lumen. thereby bathing the stored sperm and maintaining them in a viable state for approximately 8 months. The storage tubules appear to be a complete complex of varying epithelial cells specifically designed to support viable sperm and to resorb non-functional forms.