A tubulo-cisternal endoplasmic reticulum system in the potassium transporting marginal cells of the stria vascularis and effects of the ototoxic diuretic ethacrynic acid

Summary Sections of metal impregnated tissue and freeze-fracture have been used to examine intracellular membrane systems in marginal cells of the stria vascularis in mammalian cochleae. A continuous network of elements of the smooth endoplasmic reticulum was revealed. Notable features of this system were a series of flattened cisternae just inside and parallel with the lateral plasma membrane in continuity with an apical network of tubules, cisternae and sheets oriented in parallel with the luminal membrane. The whole system was closely associated with mitochondria. These characteristics suggest that the potassium transporting marginal cells possess a tubulo-cisternal endoplasmic reticulum (TER) like that found in many sodium transporting epithelial cells. The lateral elements of the TER dilated, appearing like vacuoles, and opened to the lateral extracellular space in response to the effects of ethacrynic acid. This diuretic impairs ion transport in the stria vascularis. It is suggested that the TER in marginal cells is involved in the transport of ions and fluid from the cell to the intercellular space when ion balance is disturbed and may play a role in cell volume regulation.This work was supported by the Medical Research CouncilPart of this work was presented at the 18th Workshop on Inner Ear Biology, Montpellier, September, 1981     

Three-dimensional organization of a transcellular tubulocisternal endoplasmic reticulum in epithelial cells of Reissner's membrane in the guinea-pig

Summary The ultrastructure of the epithelial cells of Reissner's membrane (membrana vestibularis) in the guinea-pig is described following vascular perfusion with glutaraldehyde of live, anaesthetised and artificially respirated animals. Postfixation in a solution containing O_sO₄ and potassium ferricyanide revealed a well-developed tubulocisternal endoplasmic reticulum, not previously described, the continuity of which has been mapped by serial sectioning and reconstruction. Large disc-shaped subsurface cisternae lining the cell membrane, but separated from it by a space approximately 10 nm wide, are in continuity with the smooth endoplasmic reticulum, forming an elaborated transcellular canalicular pathway. This structure is compared to that found in solute-transporting epithelia, e.g., renal proximal tubule, gall bladder, small intestine and choroid plexus. The fixation method used in the present study is compared to other techniques used for preservation of Reissner's membrane. Each epithelial cell of Reissner's membrane is endowed with one kinocilium, one to four multivesicular bodies, and a number of intercalated bodies. The functional significance of the canalicular pathway is discussed.     

Connections between mitochondria and endoplasmic reticulum in rat liver and onion stem

Summary Smooth-surfaced elements of endoplasmic reticulum contact and are attached to the outer membranes of mitochondria in rat liver and onion stem. Some connections appear as short, 150–300 Å diameter tubules that bridge the space between the conjoining elements. In liver, the smooth-surfaced endoplasmic reticulum cisternae connected to the outer mitochondrial membrane are shown to be continuous with rough-surfaced endoplasmic reticulum. Here, the smooth-surfaced endoplasmic reticulum is identified in negatively stained preparations of isolated cell fractions and in thin sections of tissues by the presence of lipoprotein particles characteristic of this cell component. In onion, the identification of endoplasmic reticulum is based on continuity with rough-surfaced endoplasmic reticulum.     

Evidence for a transcellular cisternal route across the caecal epithelium of an insect

Summary The cells of the mesenteric caeca in the midgut of certain insects possess a labyrinth of transepithelial cisternae. Their existence can be seen in thin sections of lanthanum-incubated tissue, where the tracer enters not only the intercellular clefts but also membranous cisternae which are inpocketings from, and, in continuity with, both the lateral clefts and basal membrane. These infoldings, which are numerous, run from the basal or lateral surfaces into the perinuclear region of the cells, where they are found, laden with lanthanum, as smooth cisternae or vesicles in the peripheral cytoplasm near the plasma membrane. These can be followed in serial sections and are quite distinct from other sub-surface cisternae of the lateral borders which are studded with ribosomes on the cytoplasmic surface. Near the luminal surface, tracer-laden structures in the form of vesicles and granules become increasingly predominant over those in the form of cisternae. Freeze-fracture replicas confirm the above observations, in that the plasma membrane of the intercellular cleft can be characterized as such unequivocally, since it exhibits smooth septate junctional E face grooves and P face ridges. Lateral infoldings, cisternae and vesicles can be seen arising directly from these junction-bearing membranes. The transepithelial cisternae and vesicles may be the morphological basis of an insect transcellular transport system, comparable to the tubulocisternal endoplasmic reticulum present in the transporting secretory and absorptive epithelia of vertebrate tissues. However, in insect midgut caecal epithelia, the cisternae appear to be, albeit presumably transiently, in direct continuity with the extracellular space, forming a plasma membrane reticular system which seems not to be the case with the tubulo-cisternal endoplasmic reticulum which terminates in subsurface cisternae.     

The trans Golgi face in rat small intestinal absorptive cells

In the small intestine cell differentiation from immature crypt cells to mature absorptive cells localized along the villi is accompanied by alterations in the organization of the trans Golgi side. In immature crypt cells the transmost Golgi cisterna is usually located closely adjacent to the other cisternae thus being a component of the stack. Concomitantly with cell differentiation the transmost cisterna of an increasing number of Golgi stacks sets off from the other cisternae being then located at various distances to the stacks. This transmost cisterna has, as in several other cell types, been interpreted as "GERL" (Golgi associated endoplasmic reticulum lysosomes [20, 28]) and thus, has been postulated to represent a specialized region of the endoplasmic reticulum. Our results, however, have shown that the cytochemical staining pattern which has been used as a basis for the differentiation of GERL from Golgi components is not present in crypt cells nor in mature absorptive cells of the proximal small intestine: identical cisternae react for thiamine pyrophosphatase, inosine diphosphatase, and acid phosphatase. Thiamine pyrophosphatase and inosine diphosphatase--enzymes characteristic for Golgi cisternae--are apparent over transmost cisternae defined as GERL, too, and in addition, acid phosphatase--postulated as GERL-marker--is demonstrable over stacked Golgi cisternae. This overlapping cytochemical reaction, as well as the alterations during cell differentiation, indicate that those structures which have been described as GERL are to be interpreted as Golgi components rather than as endoplasmic reticulum. On the other hand, endoplasmic reticulum is a constant component of the trans Golgi face in undifferentiated crypt-base cells and in maturing cells of the crypt-top region. From its localization closely adjacent to trans Golgi cisternae it may be termed "Golgi-associated endoplasmic reticulum"; however, these cisternae of endoplasmic reticulum are constantly devoid of acid phosphatase. No indications exist for continuities with the thiamine pyrophosphatase-, inosine diphosphatase-, and acid phosphatase-positive transmost Golgi cisternae, and for an engagement in production of lysosomes.     

Cytomembranes in first cleavage xenopus embryos

Summary The ultrastructure and interrelationships of the Golgi body, endoplasmic reticulum and lipid droplets have been studied in the first cleavage Xenopus embryos. Lipid droplets, usually spherical or sometimes multilobed, did not have a discernible limiting membrane, although some had an incomplete electron dense partition. The Golgi bodies and endoplasmic reticulum were seen continuous with lipid droplets and the profiles indicated a probable formation of these membranes from lipid droplet material. Rough endoplasmic reticulum (ER) mainly consisted of paired tubular cisternae and vesicles containing filamentous material that gave a fringed appearance. The relationships of paired cisternae with the Golgi body suggested a transformation of ER membranes into the Golgi body membranes. In addition, paired ER cisternae showed a close apposition with the limiting membrane of the yolk platelet. Lone ER cisternae that contained moderately electron dense material instead of filaments were also present and showed numerous associated vesicles near the Golgi body. The Golgi body showed several morphological forms including a single fenestrated cisterna, two to four flat or cup-shaped cisternae, or up to seven cisternae, some of which were dilated and similar to fringed ER in appearance. These forms could be different developmental stages of the organelle. Coated vesicles were seen continuous with the cisternae of the Golgi body. A probable route for the assembly of the cell surface material has been proposed.This work was supported by a grant from the Medical Research Council of Canada to one of us (E.J.S.).     

Annulate lamellae as a precursor or a product of paired cisternae in human adenomatous parathyroid cells

Clusters of chief cells from a fragment of human parathyroid adenoma possess relatively few rough endoplasmic reticulum (RER) cisternae with scattered annulate lamella (AL) pores in cytoplasmic sectors close to the nucleus. Some of these cisternae exhibit winding profiles with smooth segments lying very close to the outer nuclear membrane. Other groups of cells exhibit well-developed stacks of RER either in continuity with or separated from AL. Two other tumor fragments show chief cells with few RER cisternae scattered in the cytoplasm and possess stacks with various amounts of AL and/or paired cisternae (PC), occasionally at perinuclear sites. Compartmental continuity between AL and PC is a frequent finding. Pore density in AL varies considerably between the stacks from different cells.     

The Sertoli cell membrane body in the skink.

The structure of the Sertoli cell and its physical relationship with the germ cells was studied in laboratory maintained skinks, Eumeces laticeps (Schneider) in January, and September, corresponding to the periods of prenuptial and postnuptial spermatogenesis respectively. Light micrographs obtained using 1 micron thick plastic sections, show the Sertoli cell to have a large polymorphic nucleus located in the basal portion of the cell, and a darkly staining juxtanuclear body. In ultrathin sections, this body consists of a complex array of thin, electron dense membranous structures resembling the endoplasmic reticulum. The lumina of these membranous channels appear empty. Between the channels, there are structures that resemble the expanded cisternae of the endoplasmic reticulum. In some sections, these dilated cisternae are confluent with the channels, indicating that the channels and the cisternae are parts of the same structure. Three organelles, namely, mitochondria, lysosomes and microfilaments are found among the elements of the membrane body. There is no structural modification of the channels where they come in contact with mitochondria, but they are dilated in proximity to lysosomes. In some sections bundles of microfilaments are clearly visible within the diamond shaped region of contact between two channels, suggesting that these organelles are involved in structural or functional organization of the membrane body.     

Morphological studies on secretion in the silk glands of the caddis fly larvae,Platyphylax designatus walker

Summary Actively secreting silk gland cells of caddis fly larvae show the following fine structure: a well developed rough-surfaced endoplasmic reticulum, continuity between roughsurfaced and smooth-surfaced endoplasmic reticulum adjacent to the Golgi saccules, dense material (secretion) in the margins of the Golgi saccules, some of which appear in the form of blebs and discrete membane bounded secretion granules; the latter seem to coalesce and migrate to the surface of the cell where they are discharged. Intracisternal granules appear in glands where the secretion cycle has apparently been interrupted. These observations suggest a secretion cycle for the silk glands comparable to that demonstrated by both morphological and experimental methods in certain other protein secreting cells: namely, synthesis by the ribosomes, transport to the Golgi complex through the cisternae of the endoplasmic reticulum, concentration by the Golgi complex and movement of the secretion granules through the cytoplasm to the surface of the cell where they are discharged.This research was supported by grants from the National Institutes of Health (RG-4706, 5479) and the National Science Foundation (G-9879).     

Insulin degradation. XXIII. Distribution of glutathione-insulin transhydrogenase in isolated rat hepatocytes as studied by immuno-ferritin and electron microscopy.

The distribution of glutathione-insulin transhydrogenase (glutathione: protein-disulphide oxidoreductase, EC 1.8.4.2) in isolated rat hepatocytes that had been first treated with rabbit antiserum against purified rat liver transhydrogenase and then with ferritin-conjugated goat anti-rabbit gamma-globulin was examined by electron microscopy. In cells with intact plasma membrane, the immunoferritin labeling of glutathione-insulin transhydrogenase was observed on a few external microvillous projections at the outside of the cell. In cells with breaks in the plasma membrane, the immunoferritin labeling appeared extensively on smooth vesicles just inside the plasma membrane and on smooth endoplasmic reticulum extending to and including the outer nuclear membrane, in addition to the external microvillous projections. There was some immunoferritin labeling on rough endoplasmic reticulum and on the inner surface of the plasma membrane. The mitochondria and the outer surface of the plasma membrane of the cell did not show the ferritin labeling. Control parallel samples in which the antiserum was substituted with normal (i.e. non-immune) serum or with neutralized antiserum (prepared by absorption with the transhydrogenase) showed little or no immunoferritin labeling. These results are consistent with the idea that gluthalione-insulin transhydrogenase probably synthesized in the endoplasmic reticulum and that the transhydrogenase accessible to cell surface (or found in the isolated plasma membrane preparations) probably represents a functional continuity between the endoplasmic reticulum and the plasma membrane.     

Insulin degradation XXIII. Distribution of glutathione-insulin transhydrogenase in isolated rat hepatocytes as studied by immuno-ferritin and electron microscopy

The distribution of glutathione-insulin transhydrogenase (glutathione: protein-disulphide oxidoreductase, EC 1.8.4.2) in isolated rat hepatocytes that had been first treated with rabbit antiserum against purified rat liver transhydrogenase and then with ferritin-conjugated goat anti-rabbit γ-globulin was examined by electron microscopy. In cells with antact plasma membrane, the immunoferritin labeling of glutathione-insulin transhydrogenase was observed on a few external microvillous projections at the outside of the cell. In cells with breaks in the plasma membrane, the immunoferritin labeling appeared extensively on smooth vesicles just inside the plasma membrane and on smooth endoplasmic reticulum extending to and including the outer nuclear membrane, in addition to the external microvillous projections. There was some immunoferritin labeling on rough endoplasmic reticulum and on the inner surface of the plasma membrane. The mitochondria and the outer surface of the plasma membrane of the cell did not show the ferritin labeling. Control parallel samples in which the antiserum was substituted with normal (i.e. non-immune) serum or with neutralized antiserum (prepared by absorption with the transhydrogenase) showed little or no immunoferritin labeling. These results are consistent with the idea that gluthalione-insulin transhydrogenase probably synthesized in the endoplasmic reticulum and that the transhydrogenase accessible to cell surface (or found in the isolated plasma membrane preparations) probably represents a functional continuity between the endoplasmic reticulum and the plasma membrane.     

Continuity between cytoplasmic endomembranes and outer mitochondrial membranes in fungi

Summary Several types of intimate association are shown between endoplasmic reticulum or endoplasmic reticulum-like membranes and the outer membranes of mitochondria in fungal hyphae. These include close physical association, contact, thread-like continuity, and direct luminal continuity. Membranes are smooth surfaced in the immediate region of association or continuity, and some have ribosomes at other sites along their surfaces. The continuities represent sites of membrane interaction which may facilitate exchange between adjacent membrane components. Additional continuities are shown between mitochondria and other endomembrane components. Observations are discussed in relation to the body of information linking mitochondria and endoplasmic reticulum in a variety of eukaryotic cells.     

Enzyme cytochemistry of the alveolar sacs and golgian-like cisternae in the ciliate Ichthyophthirius multifiliis

In the cell cortex of the parasitic ciliate Ichthyophthirius multifiliis different kinds of cisternae were observed: the alveolar sacs, thick membrane cisternae and the endoplasmic reticulum. The thick membrane cisternae possess coated dilated rims and sometimes could be observed close to the endoplasmic reticulum. Using cytochemical techniques acid phosphatase, thiamine pyrophosphatase and nucleoside diphosphatase activities were detected in the thick membrane cisternae and in the alveolar sacs of trophozoites. In the endoplasmic reticulum acid phosphatase activity was not detected and only very small amounts of thiamine pyrophosphatase and nucleoside diphosphatase reaction product were observed. After exit from the host, a reduction in acid phosphatase activity was evident in the alveolar sacs. At theront stage acid phosphatase activity is absent from these structures. However, high thiamine pyrophosphatase and nucleoside diphosphatase activities remain in the alveolar sacs during the whole life cycle. On the other hand, acid phosphatase, thiamine pyrophosphatase and nucleoside diphosphatase activities were detected in thick membrane cisternae of theronts. Based on the morphological aspects and enzymatic content the thick membrane cisternae of the cell cortex are designated as golgian-like cisternae. The cytochemical results point out a relationship between the alveolar sacs and the Golgi complex.     

Observations on the cytoplasmic membranes of testicular cells,examined by phase contrast and electron microscopy

In freshly isolated cells of the guinea pig germinal epithelium examined with phase contrast, dark contours are seen in the cytoplasm that appear to be optical sections of the cisternae of the endoplasmic reticulum. These increase in contrast, in number, and in linear extent with increasing time up to 4 hours after isolation of the cells from the testis. During this period, cisternae originally present in the cells are extended and new ones appear to be formed by coalescence of tubular and vesicular elements of the reticulum. The cisternae become associated in parallel array and ultimately form elaborate concentric systems resembling structures that have often been interpreted as intracellular "myelin figures." Until now our knowledge of the endoplasmic reticulum has been based largely upon electron micrographs. The observation that the cisternae are visible in certain cell types under phase contrast optics opens the way for experimental investigations on the behavior of this class of cytoplasmic membranes in living cells.     

Observations on the Cytoplasmic Membranes of Testicular Cells,Examined by Phase Contrast and Electron Microscopy

In freshly isolated cells of the guinea pig germinal epithelium examined with phase contrast, dark contours are seen in the cytoplasm that appear to be optical sections of the cisternae of the endoplasmic reticulum. These increase in contrast, in number, and in linear extent with increasing time up to 4 hours after isolation of the cells from the testis. During this period, cisternae originally present in the cells are extended and new ones appear to be formed by coalescence of tubular and vesicular elements of the reticulum. The cisternae become associated in parallel array and ultimately form elaborate concentric systems resembling structures that have often been interpreted as intracellular "myelin figures." Until now our knowledge of the endoplasmic reticulum has been based largely upon electron micrographs. The observation that the cisternae are visible in certain cell types under phase contrast optics opens the way for experimental investigations on the behavior of this class of cytoplasmic membranes in living cells.     

Freeze-fracture analysis of phloem structure in plant tissue cultures. I. The sieve element reticulum

During the differentiation of phloem sieve elements, the endoplasmic reticulum undergoes unique modifications to form the sieve element reticulum (SER) which persists in mature, functioning sieve tubes. Cisternae of the SER lack ribosomes and are restricted to the periphery of the sieve element at late stages of development. Some of the SER is seen as single cisternae that are in close contact with the sieve element plasma membrane. Thin sections and freeze-fracture images of sieve elements formed in tissue cultures demonstrate that the SER consists of both single cisternae and regions of stacked cisternae at some stages of maturity. The unstacked regions of the SER are continuous with the cisternae of the stacked regions. In freeze-fracture images the single cisternae adjacent to the plasma membrane are seen to be fenestrated and the openings allow continuity between the plasma membrane and the cell lumen. It is concluded that the interface between the SER and the plasma membrane of the sieve element serves to allow membrane functions such as proton efflux, proton-sucrose cotransport and compensating movements of ions to occur in a microenvironment that is separated from the moving translocation stream in the sieve element lumen. Passage of water and translocated solutes from the plasma membrane or the SER/PM interface to the interior of the cell is enhanced by the openings in the fenestrated regions of the SER. It is suggested tha the SER may also play a role in channeling ATP from mitochondria associated with the SER to the proton-pumping ATPase in the plasma membrane and that the SER may function in the uptake and release of potassium ions in the sieve element.     

Cytological differentiation in the uropygial gland.

Ultrastructural changes were studied in the cells undergoing secretory differentiation in zone I of the tubules of the uropygial gland of White Plymouth Rock chickens. A layer of basal cells and four secretory stages are recognized as the cells migrate from the periphery to the lumen of tubules and progressively elaborate a secretion product. Basal cells, containing rough endoplasmic reticulum and free ribosomes, rest on the basement membrane and are the source from which secretory cells arise. Dilated perinuclear cisternae and the proliferation of smooth endoplasmic reticulum in the form of vesicles, invaginated sacs and cusp-shaped cisternae indicate the onset of lipgenesis in stage I cells. The perinuclear cisternae are more dilated and the endoplasmic reticulum is composed on saccules and cisternae in stage II cells. Stage III cells are characterized by concentric lamellae of endoplasmic reticulum surrounding secretory droplets. Dilated cisternae of endoplasmic reticulum and secretory droplets both contain a reticular substance. The perinuclear cisternae of stage III cells have returned to normal dimensions. Large mature lucent secretory droplets, lined with electron-dense material, fill the cytoplasm ostage IV cells which degenerate and release their secretory product into the tubule lumen. Spherical membrane-bound compartments containing a mottled substance of moderate electron density occur in basal cells and all subsequent secretory stages. These mottled bodies are surrounded by saccules of endoplasmic reticulum in stage II cells and are intimately associated with secretory droplets in stage III cells, but there is no evidence that they give rise to secretory droplets and their role in secretory differentiation is unknown.     

Enzyme Cytochemistry of the Alveolar Sacs and Golgian-Like Cisternae in the Ciliate Ichthyophthirius multifiliis

In the cell cortex of the parasitic ciliate Ichthyophthirius multifiliis different kinds of cisternae were observed: the alveolar sacs, thick membrane cisternae and the endoplasmic reticulum. The thick membrane cisternae possess coated dilated rims and sometimes could be observed close to the endoplasmic reticulum. Using cytochemical techniques acid phosphatase, thiamine pyrophosphatase and nucleoside diphosphatase activities were detected in the thick membrane cisternae and in the alveolar sacs of trosphozoites. In the endoplasmic reticulum acid phosphatase activity was not detected and only very small amounts of thiamine pyrophosphatase and nucleoside diphosphatase reaction product were observed. After exit from the host, a reduction in acid phosphatase activity was evident in the alveolar sacs. At theront stage acid phosphatase activity is absent from these structures. However, high thiamine pyrophosphatase and nucleoside diphosphatase activities remain in the alveolar sacs during the whole life cycle. On the other hand, acid phosphatase, thiamine pyrophosphatase and nucleoside diphosphatase activities were detected in thick membrane cisternae of theronts. Based on the morphological aspects and enzymatic content the thick membrane cisternae of the cell cortex are designated as golgian-like cisternae. The cytochemical results point out a relationship between the alveolar sacs and the Golgi complex.     

Acid phosphatase in the guinea-pig oocytes

In guinea-pig oocytes, at every developmental stage, acid phosphatase is found histochemically in cytoplasmic granules. Ultracytochemically the reaction product is located in lysosomes and is some cisternae of the rough endoplasmic reticulum, but not in cortical granules or in vesicles with a rough endoplasmic reticulum membrane which are filled with a moderately dense homogeneous substance. It is discussed whether the acid phosphatase transforms reserve material into a storable form as has been proposed for the deposition of vitellogenin in the oocytes of lower vertebrates.     

Regional differences in the ultrastructure of Purkinje cells of the rat

Summary In the albino rat, perikaryal diameter, volume density of the granular endoplasmic reticulum and Golgi apparatus, and lumenal diameter of cisternae of the granular endoplasmic reticulum are larger in Purkinje cells of lobule Via (neocerebellum) than in those of lobule X (archicerebellum). In contrast, only the surface density of cisternae of the granular endoplasmic reticulum is larger in Purkinje cells of lobule X. The cisternae of granular endoplasmic reticulum are arranged into conspicuous Nissl bodies parallel to the nuclear membrane, but the content of ribosomes and polysemes is markedly less in lobule-X cells than in cells from lobule VI a. These results indicate qualitative and quantitative differences between the metabolically important organelles in Purkinje cells of the neo- and archicerebellum (cf. Larsell 1952).Supported by a grant from the Deutsche Forschungsgemeinschaft (La 184/7)