Electron microscope studies of the intracellular origin and formation of calcifying granules and calcium spherites in the hepatopancreas of the snail,Helix pomatia L.

Summary It has been previously demonstrated that the hepatopancreas of the snail, Helix pomatia, produce proteinaceous particles (termed b-granules), which are involved in the process of calcification. In calcium cells of this organ calcium spherites arise from these granules. The present study retraces the intracellular development of b-granules from Golgi vesicles and from Golgi saccules encircling the cytoplasmic areas up to the formation of calcium spherites. It is suggested that the mature b-granules are well-defined cytoplasmic units with calcifying capacity. The fine structure of b-granules and calcium spherites is described. The possible function of various cell organelles in the formation of the b-granules and spherites is discussed.This investigation was supported by grants from the Swedish Natural Science Research Council. The assistance of Mrs. I. Rehnberg is gratefully acknowledged.     

Calcium reabsorption in the posterior caeca of the midgut in a terrestrial crustacean,Orchestia cavimana

Summary During molting, the epithelium of the posterior caeca (PC) of the midgut in the terrestrial crustacean, Orchestia cavimana, is active in calcium turnover. In the preexuvial period, epithelial cells that progressively differentiate into cell-type III secrete ionic calcium (originating from the old cuticle) from the base to the apex of the cell within a typical extracellular network of channels; the calcium is then stored in the PC lumen as calcareous concretions. Immediately after exuviation, the epithelial cells rapidly differentiate into cell-type IV, reabsorbing calcium from the concretions through successive generations of spherites which quickly appear, grow, and then disappear from the apex to the base of the same extracellular network. The PC epithelium is thus alternatively calcium-loaded and unloaded. When the calcium-reabsorbing process is complete (average 48 h after exuviation), the epithelial cells again differentiate into two different regional cellular types (cell-type I in the distal segment and cell-type II in the proximal segment) characteristic of the intermolt period.The dynamic changes in the PC epithelium during the postexuvial period are discussed, including the characteristic features of cell-type IV and of the reabsorption spherites.     

Mineral congregations, “spherites” in the midgut gland ofCoelotes terrestris (Araneae): Structure,composition and function

Summary Spherites in the digestive and secretory cells of the midgut gland of the agelenid spiderCoelotes terrestris were studied by electron microscopy and histochemical methods. Spherites measured 1–6 m in diameter and were characterized by alternating layers of electron dense and electron lucent material. The main-components of spherites were calcium phosphates and calcium carbonates. Guanine and barium, as well as aminopeptidase and alkaline phosphatase were also present. The matrix consisted of proteins and carbohydrates. Numerous spherites were found together with excretory products within the excretory vacuoles of the digestive cells.Spiders fed with food containing lead, showed deposition of the metall in the spherites. It is then proposed that spherites, aside from their role in storing calcium and other ions, may function in detoxification of heavy metals.     

Structure of the Malpighian tubule cells and annual changes in the structure and chemical composition of their spherites in the cave cricket Troglophilus neglectus Krauss, 1878 (Rhaphidophoridae,Saltatoria)

Periodical changes in the structure of spherites in the Malpighian tubule cells of the cave cricket Troglophilus neglectus were studied to elucidate their role during the cricket's life cycle in natural circumstances. Special interest was given to the dormant overwintering period when we hypothesized that the primary role of spherites is to supply minerals for basic vital processes. The investigation was carried out by light and transmission electron microscopy, energy dispersive X-ray spectroscopy, electron energy-loss spectroscopy and energy-filtering TEM. Spherites are present only in the middle Malpighian tubule segment, consisting of Type 1 cells, characterized, among other features, by a round, apically placed nucleus and numerous spherites, and a few Type 2 cells with an elongated nucleus in the centre and sparse spherites. At the beginning of dormancy in November juveniles, minerals are accumulated in spherites and then decline until March. In one-year-old May larvae, spherites are commonly rich in minerals, and from July onwards they are progressively exploited in the adults. Spherite destruction starts with apoptosis in senile October individuals. The findings suggest that the mineral supply of spherites in Malpighian tubules is crucial to supporting vital processes throughout the life cycle of T. neglectus.     

A study of the concentrically laminated concretions, 'spherites' in the regenerative cells of the midgut of Lepidopterous larvae

Concentrically laminated granules, spherites, are sometimes found in the regenerative cells of midgut of some species of lepidopterous larvae. The spherites are formed in cytoplasmic vesicles just before ecdysis and disappear during the differentiation of the regenerative cells to columnar and goblet cells. They function as intracellular stores of compounds used in the growth of the cell. Phosphates of magnesium and perhaps calcium are probable constituents. Spherites are sometimes also found in the degenerating columnar cells where they are excreted into the lumen with the exfoliating epithelium. The phenomenon of periodic precipitation which is the physical-chemical basis of the formation of spherites is discussed.     

Role of intestinal mucus in crystal biogenesis: an electron-microscopical,diffraction and X-ray microanalytical study

Summary In the posterior intestine of the sea-water eel, mucus plays an important role in biocrystallization of calcium ions. By means of transmission and scanning electron microscopy associated with X-ray microanalysis and X-ray diffraction it has been possible to determine the role of mucous fibers as nucleation sites. Biocrystallization occurs in 2 steps: (1) Calcification of mucus. As soon as mucus is excreted in the intestinal lumen, it is loaded with calcium, as shown by lanthanum affinity and X-ray microanalysis on freeze-dried tissues. (2) Genesis of crystals. Needleshaped crystallites build up in coalescent spherites in the intestinal lumen near the microvilli. Genesis occurs as follows: (a) crystallite mineralization by nucleation in an organic matrix composed of glycoproteinaceous mucous fibers, followed by the appearance of spherites; (b) coalescence in spherites and association of spherites in rhombohedra; (c) extrusion of organic material during the final step of crystallization.     

Morphometric in vitro analysis of the control of the activity of the neurosecretory dark green cells in the freshwater snail Lymnaea stagnalis (L.)

Summary The intracellular localization of calcium by means of cytochemical techniques was studied in smooth muscle cells of mouse intestine. When the lead acetate method according to Carasso and Favard (1966) was used calcium was found in mitochondria and sarcoplasmic reticulum and occasionally between the myofilaments. The active ATP-dependent accumulation of calcium into cell structures was investigated by the oxalate method (Heumann and Zebe, 1967). After appropriate treatment the only structures of smooth muscle cells which contained calcium oxalate (identified by microprobe analysis) were elements of the sarcoplasmic reticulum.The results are discussed in relation to the role of calcium in the control of muscle activity during the contraction-relaxation cycle.The electron probe microanalysis was carried out at SIEMENS (Berlin) in collaboration with Dr. von Muschwitz. I thank Miss M. Schlatter for her skillful assistance. The investigation was supported by the Deutsche Forschungsgemeinschaft.     

Calcification in insects: The dwelling-tube and midgut of machaerotid larvae (Homoptera)

The dwelling-tubes of machaerotid larvae consist of a mineralized organic scaffolding of mucofibrils. The mineral component accounts for 85 per cent of the dry weight and is composed of calcium, ferrous iron, manganese, magnesium, potassium, sodium, phosphate, carbonate, and chloride and of these the major ions are calcium and carbonate. Ferric iron in the form of ferritin is probably also present.Calcium, manganese, magnesium, and phosphate are derived from spherites secreted by a specialized region of the midgut. Calcium and phosphate are present in the spherites, probably as amorphous tricalcium phosphate. Subsequent to secretion the spherites are slowly dissolved and the calcium is incorporated into the dwelling-tube as calcium carbonate. Thus it appears that within the dwelling-tube calcium phosphate is converted to calcium carbonate.Ferritin and ferrous iron are secreted by another specialized region of the midgut and are also incorporated into the dwelling-tube.     

Observations on the proventricular glands (‘organes racémiformes’) of the oribatid miteChamobates borealis (Acari,Oribatida): an organ of interest for studies on adaptation of animals to acid soils

The proventricular glands of the oribatid miteChamobates borealis (Trägårdh, 1902) were investigated by electron microscopy and histochemistry, and their function was tested in a laboratory experiment. Specimens of the same species collected during a field study also were investigated.The cells of the proventricular glands are characterized by great amounts of mineral spherites and seem to be sensitive to alterations of environmental pH and concentration of CaCO₃. It was demonstrated that a reduction of pH leads to a decrease of the spherites, whereas at a high pH the number of spherites increases.The proventricular glands with their spherites seem to play an important role in regulation of mineral budget, pH and detoxification of heavy metals.     

Studies on water and ion transport in homopteran insects: ultrastructure and cytochemistry of the cicadoid and cercopoid midgut

The midgut of cicadoid and cercopoid insects is differentiated at the anatomical, ultrastructural and cytochemical levels into a conical segment, anterior, mid, and posterior midgut. The cells of the conical segment and anterior midgut are cytochemically very similar. They differ in ultrastructure, the anterior midgut cells having a submicrovillar row of mitochondria and a very marked mucoprotein coat investing the microvilli. The mid-midgut contains mineral spherites, which are formed in cisternae in the endoplasmic reticulum, and ferritin. The posterior midgut differs cytochemically from the anterior midgut and the cells are characterized by deep narrow basal invaginations and the absence of a mucoprotein coat investing the microvilli. It is suggested that nutrient absorption occurs in the conical segment and anterior midgut. Ion absorption may also occur in the anterior midgut. Storage excretion of calcium, magnesium and phosphate occurs in the mid-midgut. Ferritin is also stored here but may be found in other regions of the midgut, particularly in the cicada. The posterior midgut may be involved in ion secretion which could be related to filter chamber function.     

Ultrastructural changes in the muscle fibers of the rat diaphragm and the dynamics of intracellular calcium redistribution as affected by an anticholinesterase substance--chlorophos

Ultrastructural changes of the rat diaphragm muscle fibers and electron histochemical distribution of calcium ions were studied following chlorophos administration in 5, 15 and 45 minutes (dose - 300 mg/kg, intraperitoneally). The local swelling of mitochondrial matrix and the appearance of contractures were found first in postsynaptical region. Then the postsynaptical alterations increased; the swelling and fragmentation of sarcoplasmic reticulum were observed in addition to desorganization of mitochondrial ultrastructure. Granules of the histochemical product were revealed in mitochondria, in the sarcoplasmic reticulum and in filaments. Changes in distribution of calcium ions in the rat diaphragm muscle fibres after chlorophos administration and the role of Ca++ the in the mechanism of muscle alteration discussed.     

An electron microscopic histochemical and X-ray microprobe study of spherites in a mussel

Transmission electron microscopic, histochemical and X-ray analytical microprobe techniques were used to study the inorganic-organic relationship in the spherites (calcospherules) from the mantle, i.e. subadjacent to the outer mantle epithelium, of the fresh-water mussel Amblema. These structures were shown to contain calcium which could be chelated by the flotation of sections on solutions of either formic acid or ethylene glycol bis-(beta-amino ethyl ether)-N, N1-tetra-acetic acid (EGTA), Analysis of both non-chelated and sections revealed a significant sulfur peak. Chelated spherites were also intensely stained with acid phosphotungstic acid (PTA), Such data is indicative of the presence of an organic glycoprotein (proteoglycan) matrix which could serve to bind mineral ions, thus forming organic-inorganic aggregates for calcium transport and homeostasis. In this regard, the spherites are analogous to both calcium phosphate containing mitochondrial granules and the initial calcification sites in vertebrate mineralizing tissues.     

Inorganic polyphosphates are stored in spherites within the midgut of Anticarsia gemmatalis and play a role in copper detoxification

Inorganic polyphosphates (PolyP) are widespread molecules that have been shown to play a role in metal detoxification and heavy-metal tolerance. In the present report, we investigated the functional role of spherites as PolyP-metal binding stores in epithelial cells of the midgut of Anticarsia gemmatalis, a lepidopteran pest of soybean. PolyP stores were detected by DAPI staining and indirect immunohistochemistry as vesicles distributed in columnar cells and around goblet cell cavities. These PolyP vesicles were identified as spherites by their elemental profile in cell lysates that were partially modulated by P- or V-ATPases. PolyP levels along the midgut were detected using a recombinant exopolyphosphatase assay. When copper was added in the diet of larva, copper detection in spherites by X-ray microanalysis correlated with an increase in the relative phosphorous X-ray signal and with an increase in PolyP levels in epithelia cell lysate. Transmission electron microscopy of chemically fixed or cryofixed and freeze substituted tissues confirmed a preferential localization of spherites around the goblet cell cavity. Taken together, these results suggest that spherites store high levels of PolyP that are modulated during metal uptake and detoxification. The similarity between PolyP granules and spherites herein described also suggest that PolyP is one of the main phosphorous source of spherites found in different biological models. This suggests physiological roles played by spherites in the midgut of arthropods and mechanisms involved in heavy metal resistance among different insect genera.     

Expression of the high capacity calcium-binding domain of calreticulin increases bioavailable calcium stores in plants

Modulation of cytosolic calcium levels in both plants and animals is achieved by a system of Ca²⁺-transport and storage pathways that include Ca²⁺ buffering proteins in the lumen of intracellular compartments. To date, most research has focused on the role of transporters in regulating cytosolic calcium. We used a reverse genetics approach to modulate calcium stores in the lumen of the endoplasmic reticulum. Our goals were two-fold: to use the low affinity, high capacity Ca²⁺ binding characteristics of the C-domain of calreticulin to selectively increase Ca²⁺ storage in the endoplasmic reticulum, and to determine if those alterations affected plant physiological responses to stress. The C-domain of calreticulin is a highly acidic region that binds 20–50 moles of Ca²⁺ per mole of protein and has been shown to be the major site of Ca²⁺ storage within the endoplasmic reticulum of plant cells. A 377-bp fragment encoding the C-domain and ER retention signal from the maize calreticulin gene was fused to a gene for the green fluorescent protein and expressed in Arabidopsis under the control of a heat shock promoter. Following induction on normal medium, the C-domain transformants showed delayed loss of chlorophyll after transfer to calcium depleted medium when compared to seedlings transformed with green fluorescent protein alone. Total calcium measurements showed a 9–35% increase for induced C-domain transformants compared to controls. The data suggest that ectopic expression of the calreticulin C-domain increases Ca²⁺ stores, and that this Ca²⁺ reserve can be used by the plant in times of stress.     

Diazepam reveals different rate-limiting processes in rat skeletal muscle contraction

The action of the tranquilizer diazepam on rat skeletal muscle showed that relaxation of isometric twitches is controlled by different processes in extensor digitorum longus (fast-twitch) and soleus (slow-twitch) muscles. Diazepam caused an increase in the amplitude of twitches in fibres from both muscles but increased the twitch duration only in soleus. The amplitude of fused tetani were reduced in both muscles and the rate of relaxation after the tetanus slowed by as much as 34% when the amplitude of the tetanus was reduced by only 11%. The slower tetanic relaxation indicated that calcium uptake by the sarcoplasmic reticulum was slower than normal in slow- and fast-twitch fibres. We conclude therefore that calcium uptake by the sarcoplasmic reticulum is rate limiting for twitch relaxation in slow-twitch but not fast-twitch fibres and suggest that calcium binding to parvalbumin controls relaxation in the fast fibres.     

Histochemical study of calcium on T-tubule membranes and in the sarcoplasmic reticulum, in frog twitch muscle fibres at rest and during activity

The trigger calcium hypothesis of signal transmission between T-tubules and terminal cisternae (TC) of the sarcoplasmic reticulum (SR) in twitch muscle fibres implies the presence of calcium along T-tubule membranes at rest and its release upon excitation. To test this hypothesis, calcium was immobilised using a fixing and precipitating solution of glutaraldehyde in phosphate buffer at pH 8.0 and the calcium was substituted for by lead. Simultaneous tension recordings revealed the occurrence of contractions or a burst of twitches upon perfusion with the fixative. Procaine or tetrodotoxin (TTX) was used to inhibit this activity. In fibres without fixative-induced activity, precipitates were observed along T-tubules and in adjoining parts of TC. In activated fibres, tubular and TC precipitates were absent. These results are consistent with the trigger calcium hypothesis. In fibres activated by depolarisation, calcium returned to TC after passing successively through different parts of the SR.     

Histochemical study of calcium on T-tubule membranes and in the sarcoplasmic reticulum,in frog twitch muscle fibres at rest and during activity

Summary The trigger calcium hypothesis of signal transmission between T-tubules and terminal cisternae (TC) of the sarcoplasmic reticulum (SR) in twitch muscle fibres implies the presence of calcium along T-tubule membranes at rest and its release upon excitation. To test this hypothesis, calcium was immobilised using a fixing and precipitating solution of glutaraldehyde in phosphate buffer at pH 8.0 and the calcium was substituted for by lead. Simultancous tension recordings revealed the occurence of contra tions or a burst of twitches upon perfusion with the tixative. Procaine or tetrodotoxin (TTX) was used to inhibit this activity. In fibres without fixative-induced activity, precipitates were observed along T-tubules and in adjoining parts of TC. In activated fibres, tubular and TC precipitates were absent. These results are consistent with the trigger calcium hypothesis. In fibres activated by depolarisation, calcium returned to TC after passing successively through different parts of the SR.     

Reversible histochemical modifications of endoplasmic reticulum following arginine vasopressin stimulation of granular cells of toad bladder

The endoplasmic reticulum is generally absent from schematic representations of transport phenomena, although it shows a well-organized network in most transport epithelial cells. In order to examine the correlation between this organelle and cellular activity, bladders of Bufo marinus were studied under different experimental conditions and fixed by immersion in glutaraldehyde, followed by OsO₄ impregnation for 3 days. Normal granular and mitochondria-rich cells showed a rich cytoplasmic network of canaliculi, well-impregnated by osmium deposits. Following a 2 to 15-min stimulation (serosal bath) with arginine vasopressin, the V₂ receptor agonist dD-arginine-vasopressin or cyclic AMP (cAMP), the staining of endoplasmic reticulum in granular cells disappeared. After washing out of the hormone or the agonist, impregnation of the endoplasmic reticulum could be observed once again. Arginine vasopressin did not modify the impregnation of endoplasmic reticulum of either mitochondria-rich or basal cells. Our data indicate a correlation between the reactivity of endoplasmic reticulum to osmium, and a cAMP-dependent effect of arginine vasopressin through its V₂ receptors. Incubation of toad bladders carried out with agents interfering with cellular calcium (calcium ionophores, high or low bath calcium) or with calcium release from the endoplasmic reticulum (TMB-8, thapsigargin) suggested that an early step in the cAMP-dependent effect of arginine vasopressin must involve the release of intracellular calcium from the endoplasmic reticulum. However, calcium ATPases in this organelle do not seem to participate in the hormonal effect. The reversible loss of osmium impregnation induced by arginine vasopressin may represent protein changes in the endoplasmic reticulum accompanying a cAMP-dependent calcium release, from the organelle.     

Three-dimensional arrangement of sarcoplasmic reticulum in crayfish as seen by high voltage electron microscope

Summary Sections several m thick of single fibres from the crayfish muscle were examined by means of a high voltage electron microscope to find out the geometry of the sarcoplasmic reticulum (SR). A sufficient contrast of the SR was achieved by lead acetate histochemical method for calcium. Longitudinally oriented files of SR vesicles at the level of A bands and interruptions in otherwise continuous SR net are the most conspicuous features.     

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.