Ultrastructural Localization of Calcium in the Presumptive Ectodermal Cells in Gastrulae of the Newt, Cynops pyrrhogaster, as Revealed by Cytochemistry and X-Ray Microanalysis

The ultrastructural localization of calcium in the presumptive ectodermal cells of gastrulae of the newt, Cynops pyrrhogaster , was examined by cytochemical methods and X-ray microanalysis (XMA). The cells were fixed with solutions that contained potassium oxalate, potassium ferricyanide and potassium pyroantimonate to preserve the localization of intracellular calcium in situ and for the analysis of electron density due to calcium. Electron-dense deposits associated with the localization of calcium were observed under the electron microscope. Specificially, pigment granules, round vacuoles, endoplasmic reticulum and mitochondria as well as the extracellular matrix were observed to contain calcium. In addition, XMA clearly demonstrated the localization of calcium in all of these electron-dense organelles and yolk granules.     

Distribution of calcium ions in the muscle fibers of the rat diaphragm depending upon their state and the method of histochemical treatment

Distribution of calcium ions in the rat diaphragm muscle fibers has been studied electron histochemically using various fixation techniques and chemical treatment of the tissue. When potassium pyroantimonate in water solution is used after a short perfusate fixation with aldehydes, the reaction product granules are revealed in mitochondria, in the disk I, in the center of the disk A, more seldom the precipitate is found in the sarcoplasmic reticulum (SR) and in the T-system. The presence of calcium ions in the precipitate is proved by means of treatment the preparations with ethylenglycol- and ethylen-diamine-tetra-acetic acids. When contracture is resulted from potassium rhodanide administration, in mitochondria the reaction product granules decrease in their number, the precipitate disappears from the central part of the disk A, while the number of the granules increases in the SR terminal cisterns. The data obtained are compared with calcium ions distribution observed at the freezing-substitution method without an additional chemical fixation, as well as the histochemical fixations after Oschman method and at a usual fixation with OsO4. Certain similarity is revealed in distribution of the calcium pyroantimonate granules at aldehyde fixation and when the freezing-substitution method is used.     

Cytochemical analysis of intracellular calcium distribution in the anterior pituitary of the rat

Summary In an attempt to assign morphologic identities to previously distinguished functional calcium compartments in the anterior pituitary of the rat, we employed the potassium pyroantimonate technique for cation localization. Tissues were incubated for In at 37°C in control medium; with 10mM theophylline; or with depolarizing amounts of potassium. Precipitate was quantified on photomicrographs of tissue prepared for electron microscopy with a Talos Systems Digitizer. The nature of the electron dense precipitate was dependent on the experimental state of the tissue. Treatment with 5 mM EGTA abolished the dense precipitate. Electron microprobe analysis also confirmed that calcium was the predominant cation in the observed precipitate. The most significant changes in precipitate deposition occurred along the plasma membrane, the limiting membrane of secretory granules and within mitochondria. Dense precipitate was present along the plasma membrane only in cells treated with potassium. Control tissue exhibited higher levels of precipitate associated with the limiting membrane of secretory granules than either theophylline-treated or potassium-treated tissue. Mitochondria contained more precipitate in potassium-treated tissue than in controls; the mitochondria of theophylline-treated tissue contained intermediate levels of precipitate. Addition of either theophylline or depolarizing amounts of potassium has been associated with hormone secretion in anterior pituitary tissue of normal rats. Kinetic studies in our laboratory indicate that intracellular calcium shifts occur. The pyroantimonate technique is useful in verifying morphologically the calcium compartments involved in shifts in intracellular calcium.     

Oxalate pretreatment and use of a physical developer render the Kossa method selective and sensitive for calcium

Summary Based on experiments on agarose gels and tissue, a procedure has been developed which greatly improves the sensitivity and the specifity of the Kossa method for demonstrating calcium in tissue. Tissue calcium is immobilized by acetonic oxalic acid, which simultaneously removes the other sorts of anions capable of precipitating silver ions (e.g. phosphate, carbonate). The resulting submicroscopic grains of calcium oxalate are converted first into silver oxalate then into metallic silver by a treatment with silver nitrate followed by an ultra-violet irradiation (Kossa reaction). These submicroscopic metallic silver grains are enlarged up to microscopic visibility by means of physical development, which makes the staining highly sensitive. Costaining of the argyrophil sites in the tissue is totally suppressed by various tricks, which render the silver staining selective for calcium.     

Oxalate pretreatment and use of a physical developer render the Kossa method selective and sensitive for calcium

Based on experiments on agarose gels and tissue, a procedure has been developed which greatly improves the sensitivity and the specifity of the Kossa method for demonstrating calcium in tissue. Tissue calcium is immobilized by acetonic oxalic acid, which simultaneously removes the other sorts of anions capable of precipitating silver ions (e.g. phosphate, carbonate). The resulting submicroscopic grains of calcium oxalate are converted first into silver oxalate then into metallic silver by a treatment with silver nitrate followed by an ultra-violet irradiation (Kossa reaction). These submicroscopic metallic silver grains are enlarged up to microscopic visibility by means of physical development, which makes the staining highly sensitive. Co-staining of the argyrophil sites in the tissue is totally suppressed by various tricks, which render the silver staining selective for calcium.     

Schistosoma manonsi: cercarial penetration of host epidermis at the ultrastructural level

Invasion of the outer layers of the epidermis of mouse ear skin by cercariae of Schistosoma mansoni within 7 min of their application to it has been studied with the optical and the scanning and transmission electron microscopes.Entrance of cercariae was under the edges of the dead flattened keratinized cells of the horny layer (squames), and penetration through this layer was by disarticulation of the stacks of squames at their interdigitations. Mucus from the postacetabular glands was recognized with the light and electron microscopes on the skin surface, especially at squame edges and between layers of squames and along the keratogenous zone. The findings suggested that disarticulation of the squames was not effected solely by the muscular probing and pushing of the parasite, but that it might be aided by swelling of the mucus secretion deposited in the area from the postacetabular glands. Loosening of the interlocked edges of the squames by enzymatic action is also a possibility, but was not evaluated for this report.The migration path along the keratongenous zone was marked by extensive damage to the transitional cells of the granular layer subjacent to the squames. Packets of secretion from the cercarial preacetabular glands were identified below the horny layer in the cytoplasm of these cells. It was considered that the host tissue damage in this area was the result not only of tearing of the tissues by passage of the spiny schistosomules, but also of enzymatic activity, the enzyme source being the granules in the packets of preacetabular gland secretion.     

Cellular compartmentation of lysozyme and alpha-amylase in the mouse salivary glands. Immunogold approaches at light and electron microscopy level

The research was planned to study the subcellular distribution of enzymatic secretory products within the secretory structures of the mouse major salivary glands at light and electron microscopy level by immunogold silver stain (IGSS) technique and double-sided post-embedding immunogold binding and silver amplification in order to speculate about their compartmentation. In particular, we experimented the above immunogold labeling approaches to localize the lysozyme and to verify its distribution patterns in relation to another secretion enzyme, alpha-amylase. Co-presence of lysozyme and alpha-amylase was observed in the convoluted granular tubule cells of the submandibular gland and in the demilunar cells of the sublingual gland as well as in the electron-dense regions of the mottled secretory granules in the parotid gland. Exclusive binding patterns of lysozyme were observed in the acinar cells of the submandibular and sublingual glands where alpha-amylase did not occur.     

Cytohistochemical techniques for calcium localization and their application to diseased plants

Lesion delimitation and resistance of old bean (Phaselous vulgaris L., cv. Red Kidney) plants to Rhizoctonia solani Kühn have been suggested to result from increased calcium pectate formation in walls. Ultrastructural histochemistry was used to determine the site of calcium in tissues adjacent to lesions and in older bean hypocotyls. Hypocotyl lesion tissue and uninoculated control tissue were treated with ammonium oxalate or potassium pyroantimonate during fixation. Treatment with potassium pyroantimonate, but not with oxalate, resulted in granular deposits in cell walls of healthy and lesion tissue. Granules also occurred on the plasma membrane of cells adjacent to lesions and in organelles of damaged cells, but wall granule density was not increased. Cell walls from healthy 24-day-old plants had a greater granule density than those for 8-day-old plants. Wall granules were removed from thin sections with ethylene glycol bis(β-aminoethyl ether)-N,N,N′,N′-tetraacetic acid. Energy dispersive analysis of x-rays also suggested that potassium pyroantimonate localized calcium. Chemical analyses showed that some calcium was retained in tissues after fixation. The results suggest that there are different mechanisms for lesion delimitation and age-induced resistance.     

Calcium binding sites in plasmodia of Physarum polycephalum as revealed by the pyroantimonate technique

Plasmodia of the acellular slime mold, Physarum polycephalum, were treated with an osmium tetroxide fixative containing potassium pyroantimonate to precipitate calcium and thereby localize calcium binding sites and sites of increased calcium concentration. Dense calcium pyroantimonate precipitates were detected within the nucleoli. The distribution of these precipitates during interphase and mitosis coincides with the distribution of the unique minichromosomes in Physarum, i.e., the numerous short pieces of extrachromosomal nucleolar chromatin containing segments of amplified DNA coding for ribosomal RNA. Calcium pyroantimonate precipitates were present as frequent dense granules in the mitochondrial matrix and as fine precipitates in the mitochondrial nucleoid. Large calcium-containing precipitates were seen within cytoplasmic vacuoles, confirming reports by others. In addition, we have identified calcium binding sites along the cytoplasmic surface of the plasma membrane. The distribution of calcium within the plasmodium is discussed in relation to the assembly of the mitotic spindle and the regulation of cell motility.     

Localization of calcium in skeletal and cardiac muscle

Summary The requirement of calcium (Ca²⁺) in the excitation-contraction coupling of both skeletal and cardiac muscle is well established. However, the exact location of the intracellular storage sites of Ca²⁺ is not firmly established. We report here on the ultrastructural distribution of Ca²⁺ in white and red skeletal muscle and in cardiac muscle of the rat using combined phosphate-pyroantimonate (PPA) and oxalate-pyroantimonate (OPA) procedures. The methods are based on (a) stabilization and/or trapping of Ca²⁺ during the primary fixation step in glutaraldehyde by potassium phosphate or oxalate; (b) subsequent wash-out of all non-trapped cations such as Na⁺ and Mg²⁺ in potassium phosphate or oxalate; (c) conversion of the complexed or trapped Ca²⁺ into an electron-dense calcium pyroantimonate salt in 100 m-thick tissue sections; and (d) wash-out of the excess potassium pyroantimonate at alkaline pH.With the OPA procedure, mitochondria of all muscle types showed little precipitate. The junctional sarcoplasmic reticulum was stongly reactive in relaxed white skeletal muscle, negative in contracted white fibres and negative in red skeletal and cardiac muscle, independent of the state of relaxation-contraction. Other organelles were essentially free of deposits.With the PPA method, the precipitate was almost exclusively confined to the sarcolemma and its T-tubular invaginations in cardiac and slow skeletal muscle, and was absent in fast skeletal muscle. Apart from occasional deposits in mitochondria, all other organelles were free of precipitate. The sarcolemma-associated deposits were clearly confined to the inner leaflet of the lipid bilayer. The amount of precipitate varied within the contraction cycle, relaxed cells possessing the highest density.Exposure of the tissue to La³⁺ resulted in the complete absence of sarcolemma-bound precipitate suggesting that the Ca²⁺ is exchangeable. Furthermore, these cytological data suggest a basic difference in Ca²⁺ storage between white skeletal muscle on the one hand, and red skeletal and cardiac muscle on the other.     

Fine structure of the parotid and mandibular glands of the cotton rat (Sigmodon hispidus).

The parotid and mandibular glands of the cotton rat were examined by light and transmission electron microscopy. Parotid gland: Acinar cells were serous in nature, and contained electron-dense granules. Intercalated duct cells contained electron-dense granules. Striated duct cells had small granules of moderate and high electron densities. Mandibular gland: Acinar cells were seromucous in nature, and contained granules of low and moderate electron densities. Intercalated duct cells contained granules of moderate and high electron densities. Striated ducts were comprised of two portions - a secretory portion and a striated portion without granules. The secretory portion had many electron-dense granules. A sexual dimorphism was obserbed in these granules, which were smaller and fewer in females than in males.     

Calcium oxalate and the von Kossa method with reference to the influence of citric acid.

Crystals of calcium oxalate in pathological material and artificially precipitated in the absence or presence of citric acid in gelatin models were examined by polarized light and treated with silver nitrate under a variety of conditions. It was found that the intensity of the staining reaction was largely proportional to the strength of the silver solution, and was enhanced in in vitro studies by the presence of citric acid. Staining was also influenced by the crystal form, which was itself related to the absence or presence of citric acid.     

Ultrastructural localization of calcium ions in ram spermatozoa before and after cold shock as demonstrated by a pyroantimonate technique

Ram spermatozoa were subjected to cold shock before fixation in pyroantimonate-osmium. Ultrathin sections revealed an electron-dense particulate precipitate in association with the cells. The precipitate was shown to be related to the presence of calcium by exposure of the material to EGTA which reduced or completely eliminated the deposits. In the acrosome region, very little precipitate was evident when the plasma membrane was intact. Cold shock resulted in the disruption of the plasma membrane. When the acrosome remained intact, precipitate was concentrated just anterior to the equatorial segment, but many cells also had acrosomal disruption and then a more even distribution of precipitate was seen on the outer acrosomal membrane. Precipitate was rarely visible within or beneath the acrosome. Post-acrosomally, calcium pyroantimonate deposits were frequently present in the dense lamina beneath the plasma membrane and these became more intense after cold shock. Midpiece sections revealed a few large granules beneath the plasma membrane and a fine particulate precipitate within mitochondria. Similarly, the fine precipitate was also associated with the outer dense fibres in midpieces and tails. Cold shock did not apparently increase the extent or intensity of precipitates in these sites.     

Schistosoma mansoni: histological localization of gelatinase in the preacetabular glands of cercariae

Proteolytic activity was demonstrated in secretions from the preacetabular glands of cercariae of Schistosoma mansoni. Thin gelatin film substrates were lysed by living cercariae stimulated to penetrate by application on the films of skin surface lipid. Lysis was directly related to number of cercariae, time, and temperature of incubation and pH of the medium. Gelatinase activity in unfixed frozen sections of cercariae incubated on the gelatin films was in the preacetabular glands which are the source of the secretion emptied into skin during penetration. Protease activity, therefore, appears to be related to penetration. The schistosome larvae which made the penetration attempt satisfied the accepted criteria for schistosomules, and therefore appeared to have transformed into schistosomules even though they did not successfully penetrate anything.     

大熊猫精子获能和顶体反应过程中钙分布变化规律的研究

应用焦锑酸钾原位定位法对大熊猫精子获能和顶体反应过程中进行钙定位研究,发现未获能精子的 Ｃａ２＋主要结合于顶体前区和赤道段质膜外侧和顶体内膜内侧（核膜侧）;随着获能的进行,Ｃａ２＋进入精子内部并主要结合于顶体区质膜内侧和顶体外膜外侧;顶体反应的精子,Ｃａ２＋结合于顶体内膜外侧、顶体后区质膜外侧和分散存在于释放的顶体内容物中,有些顶体反应精子的顶体内膜外侧结合的Ｃａ２＋特别丰富。精子尾部的Ｃａ２＋主要分布于中段线粒体内,且其内所含Ｃａ２＋含量随着获能和顶体反应而增加。另外尾部致密纤维和轴丝处也有少量Ｃａ２＋分布。     

Intracellular calcium localization in stimulated and non-stimulated extraorbital lacrimal glands of rats

Acinar cells of extraorbital lacrimal glands from control, pilocarpinetreated, atropine-treated and atropine + pilocarpine-treated rats were studied using a potassium pyroantimonate technique and X-ray microanalysis for calcium localization at the ultrastructural level. This was done in order to identify intracellular compartmentalization of calcium and to elucidate any calcium translocation that might occur during the secretory process. Calcium-pyroantimonate complexes were identified in the mitochondria, plasma membrane and cytoplasmic vesicles of the untreated specimens and in the plasma membrane of atropine-treated specimens, these complexes decreased drastically in the actively-secreting cells. The function of calcium in lacrimal gland secretion and the action of pilocarpine and atropine on membrane calcium are discussed.     

The von Kossa reaction for calcium deposits: silver lactate staining increases sensitivity and reduces background

Summary The classical von Kossa method has been modified: the high silver nitrate concentration in the original was replaced by 0.05% silver lactate with hydroquinone remaining the reducing agent of choice. The present modification stained calcification nodules with a sensitivity comparable to the original von Kossa reaction, but resulted in a reduced background staining in cultured osteoblasts. The method works well also with plastic- or paraffin-embedded tissue sections.     

Schistosoma mansoni: Cercarial degradation of a radioactively labeled collagen gel

The apparent penetration activity of Schistosoma mansoni cercariae was quantified by means of an in vitro assay with a radioactively labeled Type I collagen gel. Both live cercariae and cercarial preacetabular gland secretions degraded the collagen. The addition of skin lipid or linoleic acid to the gel surface enhanced the degradation by live cercariae.     

Localization of calcium in an annelid visceral muscle by pyroantimonate deposition and by X-ray microprobe analysis

The loci of calcium distribution in Nereis pharangeal visceral muscle have been examined by cytochemical precipitation using potassium pyroantimonate. In Na-, Ca- and Mg-free media, pyroantimonate incubation was used to pinpoint loci of intracellularly bound calcium. This method also revealed heavy deposition on the inner face of the plasma membrane, in the sarcoplasmic reticulum and nucleus. X-ray microprobe analysis of the precipitate confirmed the presence of calcium and antimony peaks. It is concluded that the plasma membrane may constitute a major calcium pool for the activation of contraction in this muscle.     

Ultrastructure of esophageal glands and their secretory granules in the root-knot nematodeMeloidogyne incognita

Summary The dorsal and subventral esophageal glands and their secretory granules in the root-knot nematodeMeloidogyne incognita changed during parasitism of plants. The subventral esophageal glands shrank and the dorsal gland enlarged with the onset of parasitism. While secretory granules formed by both types of glands were spherical, membrane-bound, and Golgi derived, the granules differed in morphology and size between the two types of glands. Subventral gland extensions in preparasitic second-stage juveniles were packed with secretory granules which varied in diameter from 700–1,100 nm and had a finely granular matrix. Within the matrix of each subventral gland granule was an electron-transparent core that contained minute spherical vesicles. The size and position of the core varied within different granules. Few granules were present in the dorsal gland extension in preparasitic juveniles. The matrix of dorsal gland secretory granules formed during parasitism was homogeneous and more electron-dense than the matrix of subventral gland granules. Subventral gland secretory granules of parasitic juveniles and adult females appeared degenerate.