Ultrastructure of crystalloid inclusions in the dog and rat epididymis

Fine structural studies of the epididymis of mature mongrel dogs and of Sprague-Dawley rats were undertaken in conjunction with research dealing with the effects of vasectomy upon this organ. This paper reports the observation of crystalloid and lamellar inclusions present in these species following fixation of the epididymis in 5 % glutaraldehyde, post-fixation in osmium, and routine processing for electron microscopy. In the dog, crystalloid inclusions were observed within the cauda epididymidis of unoperated and vasectomized animals. They were found within the apical cytoplasm of principal cells in association with the Golgi apparatus and endoplasmic reticulum, and in some instances, in close proximity to the nucleus. These crystalloids exhibited a 12 nm periodicity and often measured over 3 μm in length. In the rat, two types of inclusions were found, one within mitochondria of clear cells from unoperated animals and another within membrane-bound bodies of principal cells from the caput epididymidis of unoperated and vasectomized animals. The mitochondria which contained inclusions were basally located and were observed in stacks of up to eight elongate mitochondria each. The mitochondrial inclusions exhibited a complex lamellar structure with an approximate periodicity of 36 nm. In contrast, the crystalloid inclusions found within principal cells were sequestered within supranuclear cytoplasmic bodies which increased in number with age. Such crystalloids exhibited a linear periodicity of 11–13.5 nm, but the precise lattice structure remains to be determined. Although certain aspects of the morphology of these bodies suggests a relationship to microbodies, we have been unable to demonstrate catalase activity within them. At present, neither the origin of crystalloid structures described, nor their relationship to epididymal physiology is clear.     

Ultrastructural study of crystalloids in Sertoli cells of the normal,intersex and experimental cryptorchid swine

Spindle- or needle-shaped crystalloids are observed in Sertoli cells of the intersex and experimental cryptorchid swine in the light and electron microscopes. Small crystalloids are also observed in Sertoli cells of the normal swine only by electron microscopy. These crystalloids consist of fine filaments. The filaments are about 5 nm in diameter and arranged parallel to the long axis of the drystalloid. In cross sections of the crystalloid, the close backing of the filaments shows hexagonal arrays. The interfilamentous distance is about 5 nm. In all animals, bundles of short filaments, which are 5nm in diameter, are observed in the basal part of the Sertoli cells. Ultrastructural similarities among the crystalloids, the bundles of fine filaments, and the filamentous layer in the junctional specialization of the Sertoli cell are shown. These morphological similarities suggest that the crystalloids are formed by the aggregation of the bundles in the Sertoli cells of azoospermic testes.     

Cytochemischer Nachweis von Katalase in Microbodies bei Acetabularia mediterranea

Summary Direct evidence for the occurrence of microbodies in the marine green algae Acetabularia mediterranea is presented. The microbodies were characterized by means of their marker-enzyme catalase, (EC 1.11.1.6), the presence of which was demonstrated by electron microscopic cytochemical techniques. The function of microbodies in the metabolism of the Acetabularia cell is discussed.     

Unusual crystalloids and aggregates of tubules in theLolium endophyte of ryegrass leaf sheaths

Summary Exceptionally well differentiated crystalloids and cylindrical aggregates of tubules were found in the mycelium of theLolium endophyte of ryegrass, particularly in leaf sheath tissue. Such plants are known to cause the symptoms of staggers in sheep. The crystalloids consisted of a parallel array of rod-like subunits spaced 12 nm apart. The individual tubules of the aggregates resembled ordinary microtubules but with thinner less densely stained walls.     

Occurrence of microbodies in chloromonadophycean algae

Microbody-like organelles occur in the cytoplasm of two chloromonadophycean algae,Vacuolaria virescens Cienkowsky andGonyostomum semen Diesing. Microbodies ofVacuolaria andGonyostomum have a granular matrix which lacks a crystalloid core; they are often present in close association with elements of the endoplasmic reticulum. The occurrence of microbodies in other algae is briefly reviewed.     

Crystalloid Inclusions in Species of Leucocytozoon,Parahaemoproteus, and Plasmodium*†

Cytoplasmic vacuoles seen in methanol-fixed, Giemsa's-stained ookinetes of Leucocytozoon simondi, Parahaemoproteus fringillae and Plasmodium gallinaceum, when studied with the electron microscope, were found to correspond with crystalloid inclusions of similar structure, particle size, and arrangement. Cytochemical examination of these “crystalloids” revealed their lipid-protein nature. Morphologically similar inclusions were found also in ookinetes of Leucocytozoon ziemanni and Parahaemoproteus velans. In L. simondi, crystalloid is formed rapidly after fertilization, from amorphous electron dense material seen in mature macrogametocytes. The arrangement and distribution of crystalloids in the zygote, ookinete, oocyst, and sporozoite are described. On the basis of differences in structure and particle size, it is proposed that the crystalloid inclusions in Haemosporina be divided into 2 types. Type I—lipid-protein in nature, characterized by electron dense irregularly spherical particles, 25–40 nm in diameter, with individual particles not invested by membrane. Type II—probably virus, characterized by electron dense, irregularly spherical, membrane-bounded particles, with a diameter usually greater than 40 nm.     

Crystalloid inclusions in the Sertoli cell of the koala,Phascolarctos cinereus (Marsupialia)

Summary Crystalloid inclusions are a common feature in the basal region of Sertoli cells in the koala, Phascolarctos cinereus. Generally located near the nucleus, they are non membrane-bounded, slender rectangular structures composed of tubules which are orientated at right angles to the long axis of the crystalloid and regularly arranged in rows parallel to this long axis. The tubules in adjacent rows are offset from one another at definite angles and extensively interconnected by filaments. Neither the composition nor function of the crystalloids has been determined, but their association with tonofilaments and the presence of ribosomes in the vicinity suggests that they are most likely proteinaceous.The authors would like to thank Mr. D. Harbrow, Mr. S. Brown and Ms. B. Canty for technical assistance; the Queensland National Parks and Wildlife Service and the Victorian Ministry of Conservation (Fisheries and Wildlife Division) for providing permits to work on this protected species; the staff of the Lone Pine Koala Sanctuary, Brisbane, for their assistance in obtaining animals. This work was supported by a grant from the Australian Research Grants Committee, Number DI-77/15525     

Peroxisomes in intestinal and gallbladder epithelial cells of the stickleback,Gasterosteus aculeatus L. (Teleostei)

Summary The occurrence of microbodies in the epithelial cells of the intestine and gallbladder of the stickleback, Gasterosteus aculeatus L., is described. In the intestine the organelles are predominantly located in the apical and perinuclear zone of the cells and may contain small crystalline cores. In gallbladder epithelial cells the microbodies are distributed randomly. The latter organelles are characterized by the presence of large crystalloids. Cytochemical and biochemical experiments show that catalase and D-amino acid oxidase are main matrix components of the microbodies in both the intestinal and gallbladder epithelia. These organelles therefore are considered peroxisomes. In addition, in intestinal mucosa but not in gallbladder epithelium a low activity of palmitoyl CoA oxidase was detected biochemically. Urate oxidase and L- hydroxy acid oxidase activities could not be demonstrated.     

OBSERVATIONS ON THE MICROBODIES IN THE GENUS TILLANDSIA (BROMELIACEAE)

Organelles morphologically similar to microbodies have been found in several tissues of atmospheric species of Tillandsia from different habitats. The presence of catalase was demonstrated by the DAB reaction thus confirming the microbody nature of these organelles. They are a feature of the Tillandsia species with normal photosynthetic carbon fixation and with CAM. Their size is consistently small. The nucleoid observed in the microbodies shows a characteristic morphology which has not been reported before within other plant microbodies. This nucleoid is composed of minute tubular structures, for which the authors here propose a three-dimensional arrangement.     

Zum Feinbau der Siebröhren-Plastiden von Aristolochia und Asarum (Aristolochiaceae)

Summary Sieve-tube plastids of Aristolochia (5 species investigated) contain several starch grains and always one large crystalloid. In Asarum (3 species investigated) starch has not been found in the sieve-tubes. Their plastids contain several cuneate crystalloids that are sometimes arranged around an invisible centre. Asarum sieve-tube plastids look almost like typical plastids of monocotyledon sieve-tubes.-Crystalloids of Aristolochia and of Asarum sieve-tube plastids are composed of 50–60 Å subunits in straight and parallel order as crystalloids in monocotyledon sieve-tube plastids are.The results of the investigations of the fine structure are discussed in relation to the position of the Aristolochiaceae in the system of angiosperms.     

The crystalloid of Lubarsch in the human spermatogonium

Summary Spermatogonia of adult men contain frequently the so-called crystalloid of Lubarsch. This rod-shaped structure consists of a bundle of fine tubules running parallel to the long axis. The tubules (100 Å) are connected with one another. This structure is also observed in the spermatocyte occasionally and is similar to the crystalloid of Charcot-Böttcher in the cytoplasm of human Sertoli cells. In chick spermatogonia, a homologous crystalloid occurs infrequently. Morphological similarities of the crystalloids to those occurring in other cells are discussed. Mitochondria in the human spermatogonium show some aggregation; between them dense intermitochondrial material was noted.Study supported by grants (HD 00593-05) from U.S.P.H.S. and the Japanese Ministry of Education. The author wishes to thank members of Urology Department, Chiba University for supplying biopsy materials and Dr. G. Yasuzumi for assistance in the bibliography.     

Ultrastructure of methanol-utilizing yeast cells: appearance of microbodies in relation to high catalase activity.

Nine strains of methanol-utilizing yeasts belonging to the genera Candida, Hansenula, Kloeckera, Pichia, and Torulopsis were examined with respect to the interrelationship between their catalase content and ultrastructure. Methanol-grown cells of all the yeasts tested showed higher catalase activities than the respective ethanol- and glucose-grown cells. In connection with this, occurrence of a specific organelle surrounded by a single-unit membrane ("microbodies") was observed only in the methanol-grown cells. Several morphological differences were observed between the microbodies of methanol-utilizing yeasts and those of hydrocarbon-utilizing yeasts such as Candida tropicalis. That is, microbodies of methanol utilizers were large in size, existed in closely associated forms, and had crystalloid structures. Localization of catalase activity in these microbodies was demonstrated cytochemically by use of 3,3'-diaminobenzidene. Especially, 3,3'-diaminobenzidine reaction product accumulated heavily in crystalloids of yeast microbodies.     

Degradation of microbodies in relation of activities of alcohol oxidase and catalase inCandida boidinii

Degradation of microbiodies in the methanolutilizing yeastCandida boidinii was mainly studies by electron microscopical observation. The yeast cells precultured on methanol medium contained five to six microbodies per section and showed high activities of alcohol oxidase, catalase, formaldehyde dehydrogenase and formate dehydrogenase. When the precultured cells were transferred into an ethanol medium the number of microbodies and concomitantly the activities of alcohol oxidase and catalase decreased. After 6 h of cultivation microbodies were hardly detected. Also the activity of alcohol oxidase was not measurable and catalase activity was reduced to one tenth, whereas the activities of formaldehyde dehydrogenase and formate dehydrogenase decreased only to about 70%. Experiments with methanol-grown cells transferred into an ethanol medium without nitrogen source indicated that the inactivation of alcohol oxidase and catalase does not require protein synthesis. However, the reappearance of these enzymes is presumably due to de novo protein synthesis as shown by experiments with cycloheximide.     

Sieve-element plastids ofTriticum andAegilops (Poaceae)

Fourteen taxa of the Triticum-Aegilops group have been investigated for their sieve-element plastids. At maturity they contain dense and thin crystalloid inclusions and are classified into the PIIc' plastid type; onlyAe. comosa var.biaristata lacked the thin crystalloids and thus conforms to the PII c type. The proteinaceous nature of the crystalloids was demonstrated by application of proteolytic enzymes. Ultrastructural evidence suggests that both kinds of crystalloid inclusions are involved in the sealing of sieve-plate pores of injured sieve tubes. Measurements and calculations of the spacings and angles carried out on crystalloid prints permitted the construction of a two- and three-dimensional pattern forT. aestivum thin crystalloids.     

Charakterisierung der Microbodies aus Spadix-Appendices von Arum maculatum L. und Sauromatum guttatum Schott

Summary When the sections of the spadix appendix of Arum are incubated in a medium containing diaminobenzidine and H₂O₂, only the membrane of microbodies is stained. On the other hand, microbodies of Sauromatum show a stained matrix as usual. Catalase-containing cell organelles isolated from spadix appendices of Arum show the same typical membrane staining as the microbodies in situ do. Thus the identity of these organelles with microbodies seems to be proved. After anthesis the microbodies in situ usually do not give a positive reaction for catalase with diaminobenzidine and H₂O₂. However, cytochemical and biochemical tests for catalase on microbodies isolated during this stage of development clearly demonstrate the presence of this enzyme. Uricase is localized in the microbodies of Arum as well as catalase. No malate dehydrogenase, peroxidase, and allantoinase could be found in the microbodies. Before anthesis the microbodies of spadix appendices of Arum have an equilibrium density in aqueous sucrose of 1.22 gcm^-3. After anthesis the density changes into 1.23 to 1.24 gcm^-3.     

The cytochemical demonstration of catalase and D-amino acid oxidase in the microbodies of teleost kidney cells

Synopsis The distribution of catalase and D-amino acid oxidase, marker enzymes for peroxisomes, was determined cytochemically in the kidney tubules of an euryhaline teleost, the three-spined stickleback.Catalase activity was localized with the diaminobenzidine technique. The presence of D-amino acid oxidase was determined using H₂O₂ generated by the enzyme, D-alanine as a substrate, and cerous ions for the formation of an electron-dense precipitate. Both enzymes appeared to be located in microbodies. The combined presence of these enzymes characterizes the microbodies as peroxisomes. Biochemically and cytochemically, no urate oxidase or glycolate-oxidizing L--hydroxy acid oxidase could be demonstrated.Stereological analysis of the epithelia lining the renal tubules showed that the fractional volume of the microbodies is 5 to 10 times higher in the cells of the second proximal tubules than in the other nephronic segments or the ureter. The fractional volume of the microbodies was similar in kidneys of freshwater and seawater fishes.     

Microbodies und Diaminobenzidin-Reaktion in den Acetat-Flagellaten Polytomella caeca und Chlorogonium elongatum

Summary In two forms of acetate flagellates, the colourless Volvocale Polytomella caeca and the green Volvocale Chlorogonium elongatum, cell organelles can be demonstrated which are ultrastructurally similar to microbodies of higher organisms. The organelles do not have a close association with the endoplasmic reticulum and are located in the peripheral cytoplasm between the elongated mitochondria. In Polytomella they exhibit more or less spherical profiles in section and have a maximum diameter of approximately 0.2–0.25 . In Chlorogonium the organelles occasionally have an elongated shape and are larger than in Polytomella. Employing the electron microscopic cytochemical reagent diaminobenzidine (DAB)/H₂O₂ to localize the microbodial marker enzyme catalase in these organelles, it was found that no accumulation of the electron-opaque product occurs in the microbodies either at alkaline or neutral pH or at room temperature or 37° C. Only the cristae of mitochondria are stained with the DAB reaction caused by cytochrome oxidase and possibly by a cytochrome peroxidase.Organelles of Polytomella caeca containing catalase or cytochrome oxidase can be separated by rate centrifugation of a crude particulate fraction on a sucrose gradient (Gerhardt, 1971). The particles isolated from the peak of catalase activity show the same fine structural characteristics as the microbodies in situ do. But again, there is no detectable staining of these organelles by the DAB/H₂O₂ reaction.The identity of the microbody-like particles in Polytomella caeca and Chlorogonium elongatum with microbodies in general is deduced despite the negative results in cytochemical localization of catalase in these organelles.     

Die Feinstruktur kristalloider Einschlüsse in Mitochondrien von Porterioochromonas stipitata

Summary The matrix of the mitochondria of Porterioochromonas stipitata Lewin (Chrysophyceae) often contains crystalloid inclusion bodies that are composed of hexagonally packed fibrils (or tubules). The fibrils have a diameter of 10 nm, their center-to-center spacing is 13,5 nm.     

Protein crystalloids in ribosome-deficient plastids of Aeonium domesticum cv. variegatum (Crassulaceae)

Protein crystalloids are typical constituents of Aeonium domesticum plastids. They are composed of hexagonally arranged tube-like elements situated in the stroma without a bordering membrane. The single tubule has an external diameter of about 20 nm and an internal one of about 10 nm. The green-white-green mesochimera Ae. domesticum cv. variegatum contains normal chloroplasts in the green tissue and colourless plastids in the pale tissue. The defective plastids have a double-layered envelope, scarce internal membrane structures and contain, in the mature stage, a large vacuole. Plastid ribosomes can be detected only rarely in proplastids. They lose their ribosome complement entirely in the course of development. Polyacrylamide gel electrophoresis of total nucleic acids extracted from white tissue revealed the absence of the 23S and 16S rRNA normally present in plastids. Despite the loss of ribosomes, the plastids contain large protein crystalloids, which are structurally identical with those of normal green chloroplasts. Consequences concerning problems of encoding and transport of crystalloid protein(s) are briefly discussed.Abbreviations CAM crassulacean acid metabolism - FIP fraction I protein - L I epidermis - L II subepidermal layer - L III leaf core - SPC succulent protein crystalloid This is the first part of a series on the crystalloid-forming succulent protein     

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

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