Localization of calcium in the pericarp cells of tomato fruits during the development of blossom-end rot

Summary. Blossom-end rot (BER) of tomato (Lycopersicon esculentum) fruits is considered to be a physiological disorder caused by calcium deficiency. We attempted to clarify the localization of calcium in the pericarp cells and the ultrastructural changes during the development of BER. Calcium precipitates were observed as electron-dense deposits by an antimonate precipitation method. Some calcium precipitates were localized in the cytosol, nucleus, plastids, and vacuoles at an early developmental stage of normal fruits. Calcium precipitates were increased markedly on the plasma membrane during the rapid-fruit-growth stage compared with their level at the early stage. Cell collapse occurred in the water-soaked region at the rapid-fruit-growth stage in BER fruits. There were no visible calcium precipitates on the traces of plasma membrane near the cell wall of the collapsed cells. The amount of calcium precipitates on plasma membranes near collapsed cells was smaller than that in the cells of normal fruits and normal parts of BER fruits, and the amount on cells near collapsed cells was small. The amount of calcium precipitates on the plasma membranes increased as the distance from collapsed cells increased. On the other hand, calcium precipitates were visible normally in the cytosol, organelles, and vacuoles and even traces of them in collapsed cells. The distribution pattern of the calcium precipitates on the plasma membrane was thus considerably different between normal and BER fruits. On the basis of these observations, we concluded that calcium deficiency in plasma membranes caused cell collapses in BER tomato fruits.Correspondence and reprints: National Institute of Vegetable and Tea Science, National Agricultural Research Organization, Ano, Mie, 514-2392, Japan.     

Localization and quantitation of calcium pools and calcium binding sites in cultured human keratinocytes

Calcium plays a crucial role in regulating the growth and differentiation of cultured keratinocytes. However, the mechanism(s) of this regulation is not clear. Prior studies have shown that intracellular free calcium (Cai) increases with keratinocyte differentiation. In this study, in order to evaluate the role of cytosolic free calcium and organelle-bound calcium in keratinocyte differentiation, we quantitated and localized calcium pools in keratinocytes, utilizing the fluorescence probe indo-1 and ion-capture cytochemistry, respectively. Cai of undifferentiated keratinocytes was 80–120 nM, whereas Cai of differentiated keratinocytes was 200–300 nM depending on the extent of differentiation. The Cai of individual cells in an undifferentiated colony was heterogeneous (60–160 nM) with larger cells displaying higher Cai. Heterogeneity also was observed in the intracellular calcium-containing precipitates in the different layers of stratifying keratinocyte cultures using the cytochemical technique. Calcium precipitates were abundant in the lower cell layers, progressively decreasing apically, with the uppermost layer devoid of precipitates. Calcium-containing precipitates appeared as fine-tocoarse electron-dense granules on the plasma membrane, within the cytosol, mitochondria, nucleus, and vacuolar organelles. Whereas ionomycin in the presence of extracellular calcium increased the amount of intracellular calcium precipitates, EGTA removed calcium precipitates from organelles. Unlike intact epidermis, keratinocytes displayed no extracellular calcium reservoirs. Putative calcium binding sites, visualized by trivalent lanthanum (La) binding, were abundant on cell membranes and desmosomes of basaloid cells, but decreased in the upper cell layers. These studies revealed differences in the distribution of free ionic calcium (as determined by the fluorescence technique) and organelle-bound calcium (as determined by the cytochemical technique). Striking differences were also observed in calcium localization between intact epidermis and cultured epidermal cells. The localization pattern of calcium in cultured keratinocytes may reflect the hyperproliferative state of these cells, as in psoriatic epidermis, and/or the absence of a normal permeability barrier in these submerged cultures. © 1993 Wiley-Liss, Inc.     

华北落叶松花粉发育过程中的钙动态分布

运用焦锑酸钾沉淀法研究了华北落叶松(Larix principis-rupprechtii Mayr)小孢子发育过程中不同阶段Ca2 的分布情况.减数分裂时期,小孢子囊壁表皮和中层细胞的细胞壁及细胞间隙Ca2 分布较多,绒毡层只有外切向面的细胞膜有Ca2 分布,小孢子母细胞的各部位则很少有Ca2 ;四分体时期,包围四分小孢子的胼胝质壁上有大量的Ca2 分布,在四分孢子壁上也有较多沉淀;游离小孢子时期,钙离子在小孢子壁的分布较四分体时期有所减少,而到花粉成熟时又逐渐增多;从四分体到花粉成熟,乌氏体周围的Ca2 有增多的趋势.对四分体外壁Ca2 的大量分布与花粉壁的形成及信号物质在花粉表面贮存的关系,以及小孢子囊的外壁、绒毡层和乌氏体在Ca2 向花粉运输中所起的作用进行了讨论.     

华北落叶松花粉发育过程中的钙动态分布

运用焦锑酸钾沉淀法研究了华北落叶松(Larixprincipis-rupprechtiiMayr)小孢子发育过程中不同阶段Ca2 的分布情况。减数分裂时期,小孢子囊壁表皮和中层细胞的细胞壁及细胞间隙Ca2 分布较多,绒毡层只有外切向面的细胞膜有Ca2 分布,小孢子母细胞的各部位则很少有Ca2 ;四分体时期,包围四分小孢子的胼胝质壁上有大量的Ca2 分布,在四分孢子壁上也有较多沉淀;游离小孢子时期,钙离子在小孢子壁的分布较四分体时期有所减少,而到花粉成熟时又逐渐增多;从四分体到花粉成熟,乌氏体周围的Ca2 有增多的趋势。对四分体外壁Ca2 的大量分布与花粉壁的形成及信号物质在花粉表面贮存的关系,以及小孢子囊的外壁、绒毡层和乌氏体在Ca2 向花粉运输中所起的作用进行了讨论。     

Electron-dense endoplasmic reticulum-like profiles closely associated with mitochondria in glomus cells of the carotid body after fixation with oxalate

Fixation in the presence of oxalate was used to demonstrate the electron-dense Ca2+ precipitates in the endoplasmic reticulum in glomus cells of the carotid body. Glomus cells in intact carotid bodies or cells dissociated from the organ by treatment with collagenase were studied electron microscopically. In the intact organ as well as in dissociated glomus cells, electron-dense endoplasmic reticulum-like profiles were seen closely associated with mitochondria, while these lacked reaction product. The interspace between mitochondria was occupied by electron-dense, slightly distended ER, which appeared to contact the outer membrane of the mitochondria. Occasionally, a mitochondrion was in contact with several ER profiles or the ER formed an electron-dense 'cap' on the mitochondrion. The electron-dense precipitates could be removed from ultrathin sections with the calcium chelator ethyleneglycol-2(2-aminoethyl tetra-acetic acid) (EGTA). It is tentatively suggested that the endoplasmic reticulum could be involved in intracellular buffering of Ca2+ in the glomus cell, as has been previously suggested for neurons.     

The fine structure of the lateral-line organs of larval Ichthyophis (Amphibia: Gymnophiona)

Light and electron microscopic observations of the lateral-line organs of larval Ichthyophis kohtaoensis confirmed earlier reports of the occurrence of two different types of lateral-line organs. One type, the ampullary organ, possesses 15–26 egg-shaped sensory cells. Each sensory cell extends a single kinocilium surrounded by a few microvilli into the ampullary lumen. This is in contrast to the ampullary organs of urodele amphibians that contain only microvilli. The second type of organ, the ordinary neuromast, has 15–24 pear-shaped sensory cells arranged in two to three rows. Each sensory cell shows a kinocilium that is asymmetrically placed with respect to both a basal plate and approximately 60 stereovilli. The sensory cells of ampullary organs are always separated by supporting cells; those of neuromasts are occasionally in contact with one another. Numerous (neuromasts) or few (ampullary organs) mantle cells separate the organs from the epidermal cells. Only afferent synapses are found in the ampullary organs whereas vesicle-filled fibers together with afferent nerve terminals are found in neuromasts. Both organs contain similarly sized presynaptic spheres adjacent to the afferent fibers. It is suggested that the neuromasts have a mechanoreceptive function, whereas the ampullary organs have an electroreceptive one.     

Programmed cell death: Cytochemical and X-ray microanalytical characterization of calcium compartments in neuromuscular junctions during the normal breakdown of the intersegmental muscles in the giant silkmothAntheraea polyphemus

Summary Calcium stores were cytochemically demonstrated using a combined oxalate—pyroantimonate method in the neuromuscular junctions of the degenerating intersegmental muscles in the giant silkmothAntheraea polyphemus. The elemental composition of punctate precipitates of the reaction product was determined by electron probe X-ray microanalysis of unstained thin sections by energy-dispersive spectrometry and wavelength-dispersive spectrometry. The wavelength-dispersive spectra collected over terminal axons demonstrate a significant calcium signal and a trace of antimony.During the rapid lytic phase of spontaneous muscle degeneration, the calcium punctate deposits were detected in presynaptic terminals in the following sites: the synaptic vesicles and the mitochondria. Calcium precipitates were also found in the dense bodies and the mitochondria encountered in the glial convolutions. No calcium deposit was seen in the synaptic clefts and intercellular spaces of the subsynaptic reticulum of type I and type II. A comparison of calcium to antimony ratios between the terminal axons and the sarcoplasmic lysosomes revealed highly significant differences (P<0.001). Such a variability of the calcium to antimony ratio may be related to different conditions of precipitation or antimony diffusion in the different cell compartments. It was concluded that such synaptic terminals do not appear damaged in spite of the muscle degeneration and presumably continue to perform vital functions while the muscles are no longer contractile 20 h after adult ecdysis.     

Fine Structure of the Ampullary Organs of the Bichir Polypterus senegalus Cuvier, 1829 (Pisces: Brachiopterygii) With Some Notes on the Phylogenetic Development of Electroreceptors

The ampullary organs of the bichir were examined by light and electron microscopy. Unlike most other ampullary organs, they are exclusively found in the epidermis and are never sunk into the subepidermal connective tissue. The sensory epithelium consists of sensory cells and supporting cells surrounded by mantle cells. The luminal surface of the sensory cell is provided with a cilium surrounded by several microvilli. In the apical cytoplasm are found numerous mitochondria and microtubules. In the basal part of the cell synaptic sheets or synaptic bodies opposite to afferent nerve endings are frequent.     

On the ampullary organs of the South-American paddle-fish Sorubim lima (Siluroidea,Pimelodidae)

Summary Ampullary organs were found in the epidermis of the paddle-fish Sorubim lima; they are distributed all over the skin surface of the fish but are particularly densely grouped in the head region and on the dorsal surface of the paddle. Histological and electron microscopical observations show that their structure is similar to the type of cutaneous ampullary organs characteristic of other Siluroidea. Composed of a relatively large mucus-filled ampulla, the organ possesses a short and narrow canal which leads to the outer epidermal surface. The wall of the ampulla is formed of several layers of flat epidermal cells. In general four sensory cells, each one surrounded by supporting cells, compose the sensory epithelium at the bottom of the ampulla. The inner surface of the sensory cells in contact with the ampullary mucus bears only microvilli. The contact between the nerve endings and the sensory cells show the characteristic structure of an afferent neuro-sensory junction. Two ampullae are innervated in some cases by the same afferent nerve fibre.The author expresses her gratitude to Dr. Szabo for his scientific advice during her stay in Gif sur Yvette     

麻疯树花药发育过程中Ca2+的分布特征

采用超薄切片技术,在透射电镜下观察麻疯树(Jatropha curcasL.)花药发育过程中Ca2 的分布特征。在孢原细胞时期的花药中几乎看不到Ca2 沉淀,但花药维管束周围的细胞中有较多的Ca2 沉淀;到小孢子母细胞时期,细胞质中Ca2 沉淀依然较少,绒毡层壁上Ca2 沉淀明显增多;四分体形成时,小孢子细胞质和绒毡层细胞质中出现了较多的Ca2 沉淀;在小孢子发育早期,细胞质中Ca2 沉淀增加不明显,花粉壁部位累积有很多的Ca2 沉淀,绒毡层中Ca2 沉淀数量达到最多;到小孢子发育晚期,小孢子大液泡的液泡膜上有大量的Ca2 沉淀,绒毡层中Ca2 沉淀明显减少;随着二胞花粉中的大液泡消失,细胞质中积累淀粉粒以后,花粉中看到的Ca2 沉淀极少,同时,在花药维管束周围的薄壁细胞中,又出现了较多的Ca2 沉淀,表明花粉对Ca2 的需求可能降低。麻疯树花药发育过程中钙的动态分布特征暗示着钙参与了调控花粉发育过程,Ca2 的运输途径是由药隔薄壁组织运输到绒毡层,再进一步转移到小孢子表面和细胞质中,整个花药发育过程中,Ca2 沉淀表现为少—增加—减少的变化趋势。     

Effect of Photoperiod on Calcium Distribution in Photoperiod-sensitive Cytoplasmic Male-sterile Wheat During Anther Development

Potassium antimontate was used to locate Ca2+ in fertile and sterile anthers of photoperiod-sensitive cytoplasmic male-sterile wheat (Triticum aestivum L.).The quantity and distribution of calcium precipitates change in microspore and pollen during microsporogenesis and pollen development.The calcium precipitates gradually accumulated on the surface of tetraspore or pollen until pollen mature. They were abundant on the surface of the trinucleate pollen,but not in the cytoplasm.Calcium was transported in anther wall and intervening connective tissue via symplast and apoplast system,meeting the need of microspore and pollen development.Abortive pollens were observed in the anthers developed under long daylight exposure. Abundant calcium precipitates were distributed along the edge of the degradatived pollen plasma and in the locular matrix,but little in the anther wall and intervening connective tissue of the early abortive pollen.Calcium precipitates accumulated on the surface of pollen was less than fertile pollen,but abundant calcium appear in the epiderms,endotheciums,middle layers of anther wall and cells of connective tissue.The results indicate that abnormalities in the distribution of calcium correlate with the failure of pollen development in photoperiod-sensitive cytoplasmic male-sterile wheat.     

Ultrastructural localization of calcium in the CNS of vertebrates

The ultrastructural localization of calcium in synaptic areas of the CNS of fish was investigated. Prefixation with phosphate-buffered glutaraldehyde followed by post-fixation with osmium/potassium-bichromate was used to precipitate and visualize endogenous calcium without the addition of external calcium. The presence of calcium in the electron-dense precipitates produced using this method was demonstrated by electron spectroscopic imaging using a Zeiss EM-902 transmission electron microscope, and in various control experiments using the calcium chelator EGTA. In the optic tectum of fish, electron dense precipitates containing calcium were found not only in intracellular compartments, e.g. the smooth endoplasmic reticulum, mitochondria and synaptic vesicles, but also at extracellular locations, particularly in synaptic clefts. In the extracellular sites, only chelate complexes of ionic calcium were found. This would seem to be in agreement with electrophysiological and biochemical data reported in earlier studies. Thus, using the present method, it should be possible to obtain further ultrastructural information concerning the mechanisms of synaptic transmission.     

Ultrastructural localization of calcium in the CNS of vertebrates

Summary The ultrastructural localization of calcium in synaptic areas of the CNS of fish was investigated. Prefixation with phosphate-buffered glutaraldehyde followed by post-fixation with osmium/potassium-bichromate was used to precipitate and visualize endogenous calcium without the addition of external calcium. The presence of calcium in the electron-dense precipitates produced using this method was demonstrated by electron spectroscopic imaging using a Zeiss EM-902 transmission electron microscope, and in various control experiments using the calcium chelator EGTA. In the optic tectum of fish, electron dense precipitates containing calcium were found not only in intracellular compartments, e.g. the smooth endoplasmic reticulum, mitochondria and synaptic vesicles, but also at extracellular locations, particularly in synaptic clefts. In the extracellular sites, only chelat complexes of ionic calcium were found. This would seem to be in agreement with electrophysiological and biochemical data reported in earlier studies. Thus, using the present method, it should be possible to obtain further ultrastructural information concerning the mechanisms of synaptic transmission.     

Ultrastructural localization of endogenous calcium in the teleost retina

Summary The ultrastructural localization of endogenous calcium in the retina of adult cichlid fishOreochromis mossambicus (Teleostei) was studied using the cytochemical osmiate-bichromate method of Probst (1986). The specificity of this method for calcium localization was proven by means of EGTA treatment of ultrathin sections and electronspectroscopic-imaging technique (ESI) with an energy-filtering transmission electron microscope (CEM 902, Zeiss). Large amounts of electron-dense calcium containing deposits were found in the outer segments of rods, in the synaptic vesicles of receptor terminals and bipolar cells, in the perinuclear space of photoreceptors and in the endoplasmic reticulum of different cell types, especially in the inner segment and fibres of photoreceptor cells. In the inner plexiform layer calcium was detected in the extracellular space with greater accumulations in the synaptic cleft. Principal differences in the localization of calcium between rods and cones and between several types of synapses and vesicles are shown. The possible role of calcium in the subcellular structures of retinal cells is discussed.     

中国大鲵机械感受器的超微结构

首次以透射电镜研究了大鲵成体（实验材料共两条）皮肤侧线器官中机械受器即表面神经丘和陷器官的超微结构,并在这两种感受器官之间进行了比较。它们都由三种细胞组成：周围的套细胞,底部的支持细胞以及中央的感觉细胞;且感觉细胞的游离面均有一根动纤毛和几十根静纤毛。但这两种器官在大小、各种细胞的数量、形状和排列上下不同,尤其是表面神经丘感觉细胞游离面纤毛具有双向极性,而陷器官体现为多向极性;表面神经丘的突触球集中分布于一个特殊的感觉细胞,而陷器官的每个感觉细胞基部都有一个突触球。     

Changes of calcium distribution in ovules ofTorenia fournieri during pollination and fertilization

Summary Calcium distribution in ovules ofTorenia fournieri was studied by electron energy loss spectroscopy and transmission electron microscopic visualization of calcium antimonate precipitates. High calcium levels were found in the ovules ofT. fournieri. Calcium is situated mainly in extracellular regions before fertilization, including the surface of embryo sac, in the mucilage, and among the cells of the egg apparatus. Intracellular calcium was found only in the nucellar cells around the embryo sac and in the epidermis of the central axis and funiculus. After pollination, a labyrinthine structure (coralloid-like cell wall formation) develops on the micropylar surfaces of the egg apparatus that contain high levels of calcium. Calcium levels increase in the degenerating synergid after the penetration of the pollen tube. Calcium-antimonate precipitates are abundant in vacuoles of the disrupted synergid and pollen tube cytoplasm.Abbreviations EELS electron energy loss spectroscopy - EDX energy-dispersive X-ray microanalysis - LS labyrinthine structure     

Development of the tongue and taste disks in Pelobates fuscus

In the tadpole of Pelobates fuscus the process of tongue formation starts at the 32nd developmental stage. In more advanced stages (older than 38th) fast anterior and faucial growth of the tongue fold has been observed. This process is accompanied by the development of the gustatory organs. The dorsal surface of the tongue fold, smooth at the beginning, in older tadpoles (developmental stages 36-39th) forms protrusions in which gustatory organs of the taste disk type (TDs) develop. In the 41 st tadpole developmental stage anlages of TDs are formed by elongated cells, located more or less perpendicularly to the surface of the tongue. The diameter of the sensory area of a TD at the 45th developmental stage amounts to 94 microm, while in metamorphosed individuals it reaches 130-140 microm. At the base of a TD the presence of basal cell morphologically similar to that of Merkel cell was observed at the 42nd developmental stage of a tadpole. Fully developed afferent synaptic connections in the sensory epithelium of a TD were found starting from the 44th developmental stage. Single synaptic vesicles with an electron-dense core were observed in gustatory cells as early as at the 41 st developmental stage of the tadpole. From the observations reported here it can be inferred that in Pelobates fuscus development of both the tongue and TDs is similar to that already described in the representatives of the Rana genus.     

The effect of verapamil on mitochondrial calcium content in normoxic, hypoxic and reoxygenated rat liver

Calcium channel blockers protect cells against ischaemia-reperfusion injury. In the present study, the effect of verapamil on mitochondrial calcium content was investigated in situ in normoxic, hypoxic and reoxygenated rat liver. Subcellular distribution of exchangeable calcium ions, which form an electron-dense precipitate with antimonate, was demonstrated with the glutaraldehyde-osmium antimonate technique. Calcium precipitates were quantified morphometrically using automatic image analysis. In normoxic liver, the mitochondrial calcium content formed a gradient decreasing from the periportal to perivenous regions. The low mitochondrial calcium content in perivenous regions remained unaffected in all experimental conditions. In hypoxic and reoxygenated liver, the calcium content in mitochondria of the periportal areas was significantly reduced. Verapamil pretreatment levelled the calcium gradient in normoxic liver by reducing the periportal calcium content. Verapamil had no effect on the mitochondrial calcium content in hypoxic liver. In contrast, in verapamil-pretreated reoxygenated liver, the mitochondrial calcium content in periportal mitochondria increased significantly, thus restoring the zonal calcium gradient. In conclusion, these data suggest that modulations of mitochondrial calcium content in the periportal region of the liver lobule may play an important role in the protective effects of verapamil against ischaemia-reperfusion injury     

CGRP-like immunoreactivity in sensory nerve endings of the Golgi tendon organ. A light- and electron-microscopic study in the grey short-tailed opossum (Monodelphis domestica)

Using light- and electron-microscopic immunohistochemistry, it was shown that primary sensory nerve endings in Golgi tendon organs of the grey short-tailed opossum (Monodelphis domestica) contain immunoreactivities to a polyclonal antibody directed against calcitonin gene-related peptide (CGRP). Myelinated afferent axons (6-9 microns in diameter) of the Golgi tendon organs stained moderately for CGRP. Sensory nerve endings within the sensory compartment of the Golgi tendon organs displayed electron-dense accumulations corresponding to dark-brown staining in adjacent semithin sections. On the outer surface of tendon organs C fibre bundles were observed showing CGRP-like immunoreactivity.     

Nicotinic mechanisms in the autonomic control of organ systems

Most visceral organs are under the control of the autonomic nervous system (ANS). Information on the state and function of these organs is constantly relayed to the central nervous system (CNS) by sensory afferent fibers. The CNS integrates the sensory inputs and sends neural commands back to the organ through the ANS. The autonomic ganglia are the final site for the integration of the message traveling from the CNS. Nicotinic acetylcholine receptors (nAChRs) are the main mediators of fast synaptic transmission in ganglia, and therefore, are key molecules for the processing of neural information in the ANS. This review focuses on the role of nAChRs in the control of organ systems such as heart, gut, and bladder. The autonomic control of these organ systems is discussed in the light of the results obtained from the analysis of mice carrying mutations targeted to nAChR subunits expressed in the ANS.