Freeze-fracture cytochemistry: localization of wheat-germ agglutinin and concanavalin A binding sites on freeze-fractured pancreatic cells

The combined application of thin-section and critical-point-drying "fracture-label" is used to determine the pattern of distribution and partition of wheat-germ agglutinin and concanavalin A binding sites on the membrane faces of freeze-fractured exocrine and endocrine rat pancreatic cells. Whereas the exoplasmic face of plasma membrane is preferentially labeled by both lectins, the endoplasmic reticulum and nuclear envelope are strongly and uniformly labeled by concanavalin A but not by wheat-germ agglutinin. The results support current views in the glycosylation of membrane proteins and do not support the backflow of sialidated glycoproteins to the endoplasmic reticulum.     

Gap junctions between sertoli and germ cells of rat seminiferous tubules

Ultrastructural observations of rat seminiferous tubules show clearly the presence of plasma membrane junctions between Sertoli and germ cells in the basal and adluminal compartments. Results obtained from the freeze fracture and thin section techniques were correlated in order to elucidate the nature of these intercellular junctions. We suggest that these intercellular membrane specializations are gap junctions which occur within regions of plasma membrane that also exhibit adherens-like modifications.     

Tritrichomonas foetus: Localization of filipin-sterol complexes in cell membranes

The polyene antibiotic, filipin, was used as a probe for the detection of sterols in the freeze-fractured plasma membrane and the flagellar membranes of the pathogenic protozoa, Tritrichomonas foetus. A homogeneous distribution of filipin-sterol complexes was seen throughout the plasma membrane, and the membrane of the three anterior and the one recurrent flagella. No or very few filipin-sterol complexes were observed in some specialized regions such as the base of the flagella (necklace), the portion of the recurrent flagellum, and that part of the cell body to which the flagellum was attached. The density of filipin-sterol complexes varied from one cell to the other. In some cells, about 205 complexes/μm² were seen. A larger number of filipin-sterol complexes were observed on both faces of the membrane of cytoplasmic structures, probably corresponding to vacuoles. No complexes were seen in the nuclear membrane and in the membrane of the endoplasmic reticulum. Very few or no complexes were observed in the membrane of the hydrogenosomes. Treatment of living cells with filipin induced aggregation of filipin-sterol complexes at some points of the plasma membrane.     

The inositol 1,4,5-trisphosphate-binding site in adrenal cortical cells is distinct from the endoplasmic reticulum

The distribution of binding sites for the calcium-mobilizing second messenger inositol 1,4,5-trisphosphate (Ins(1,4,5)P3) was investigated in subcellular fractions of bovine adrenal cortex. The [3H]Ins(1,4,5)P3-binding capacity was enriched in the microsomal fraction, which contained a single class of high affinity binding sites with a Kd of 21.6 +/- 3.0 nM. The specific [3H]Ins(1,4,5)P3 binding appeared to be sharply pH dependent and was inhibited by millimolar concentrations of ATP. Upon fractionation of microsomes on sucrose density gradient there was a clearcut separation of the Ins(1,4,5)P3 receptor-containing fractions from those enriched in specific endoplasmic reticulum markers such as sulfatase C activity or RNA content. The microsomes enriched in Ins(1,4,5)P3-binding sites were of lower density than the endoplasmic reticulum and co-purified partly with the plasma membrane. In addition, Ins(1,4,5)P3-sensitive 45Ca2+ uptake into the microsomes was maximal in the lighter fractions. This distinction between Ins(1,4,5)P3-binding sites and endoplasmic reticulum-derived microsomes was confirmed upon fractionation according to their electrophoretic mobilities by free flow electrophoresis. These results indicate that in adrenal cortical cells, the source of Ca2+ mobilized by Ins(1,4,5)P3 upon stimulation with an agonist is not located in the endoplasmic reticulum. Our data support the hypothesis that a specialized vesicular organelle, distinct from endoplasmic reticulum and in close apposition with the plasma membrane, is involved in intracellular Ca2+ homeostasis.     

Freeze-fracture of membrane fusions during exocytosis in pancreatic B- cells

To examine the freeze-fracture appearance of membrane alterations at sites of exocytosis in mammalian cells, we studied the secretory granule and plasma membrane of rat pancreatic B-cells during glucose-stimulated insulin secretion. Constant features observed were the scarcity of particles in secretory-granule P-fracture faces and the almost total clearance of intramembranous particles in P-and E fracture faces of the plasma membrane in areas of close apposition of these two membranes preceding fusion; also observed was the temporary persistence of particle-cleared regions after the fusion was completed. Our observations thus support the concept that membranes fuse at sites of closely apposed, particle-free regions and that the physiologically created clear areas found in freeze-fracture replicas of the plasma membrane are the hallmarks of incipient or recent membrane fusion.     

Association of gap junctions with endoplasmic reticulum in rat parotid glands

Summary Examination of the parotid gland of the rat has shown specific associations of cisterns of the endoplasmic reticulum with gap junctions. About 20% of the junctions are so intimately associated with cisterns of the endoplasmic reticulum that in freeze fractured material the cisternal membranes remain attached to the junctional membrane faces, obscuring most of the junctional array except for a thin ring of telltale particles. This association was seen only in the parotid gland of the rat, but not that of the other species examined.     

百合花粉母细胞间染色质穿壁运动前次生胞间连丝形成的研究

百合花粉母细胞间染色质穿壁运动前(细线期到偶线期)的花药,用一般电镜制片法和铅沉淀法对酸性磷酸酶活性的细胞化学反应产物的定位实验,其结果总结如下:(1)形成次生胞间连丝通道水解作用所需的酶可能是由“类溶酶体”小泡或由内质网腔直接分泌的;(2)次生胞间连丝通道的水解作用,可在细胞壁的两边细胞同时开始,先形成半胞间连丝,然后贯穿??在一起;或从一侧开始,一直穿孔到另一边,最后两者都能形成胞间连丝;(3)用铅沉淀法进行的酸性磷酸酶细胞化学的定位实验表明:在质膜、内质网、类溶酶体小泡中的酶活性反应产物沉积的部位与一般电镜法制备的切片上看到的电子致密度物质的分布情况完全一致,(4)用X-射线微区能谱分析的结果表明:沉淀物中含有铅元素,确实是磷酸铅。因此我们推测所谓“类溶酶体”以及内质网所分泌的水解酶,可能具有果胶酶、纤维素酶和半纤维素酶的性质,它们都能降解、穿孔各自的细胞壁形成胞间连丝。     

An ER clamp for endosome fission

Endosomes are known to undergo budding and fission reactions that separate regions destined for lysosomal degradation from carriers to be recycled to the plasma membrane. A recent paper (Rowland et al, 2014 ) shows that contact sites between endosomes and the endoplasmic reticulum (ER) define the position and timing for fission. This uncovers an unanticipated role for the ER in controlling endosomal sorting and maturation.     

Ultrastructural studies of a vesicle system associated with endoplasmic reticulum in exo-erythrocytic forms of Plasmodium berghei

Fine structural studies of a specialized vesicle system associated with the endoplasmic reticulum (ER) of exo-erythrocytic Plasmodium berghei suggest that this system may be the equivalent of a Golgi apparatus. Patches of ER, randomly distributed in the cytoplasm of developing parasites, are formed of smooth and ribosome-studded cisternae intermingled with each other. The vesicle systems are located between as well as at the edges of ER aggregates and appear to be in different stages of budding from the cisternae. Prolonged osmication reveals distinct staining of the nuclear envelope and ER of the parasites as well as part of the Golgi apparatus of the hepatocytes. However, the small vesicles associated with the parasite's ER are unstained, as are the coated vesicles in the Golgi region of the liver cell. These sites in the parasite cytoplasm seem comparable to the concave surface of the Golgi apparatus in liver cells. The pinched-off vesicles fuse with others to form the prominent peripheral vacuolization characteristic of the nearly mature exoerythrocytic form. The formation of these peripheral vacuoles and their subsequent fusion with the parasite membrane may be an exocytosis mechanism supplying the rapidly expanding parasite with new plasma membrane material.     

Ultrastructure of the cell wall regeneration of isolated protoplasts of Skimmia japonica thunb

Isolated protoplasts obtained from leaves and from stem callus cultures of Skimmia japonica were cultivated for 72 h to regenerate a new cell wall. During this process the structural changes in the protoplasts and at the surface of the plasmalemma were studied in ultrathin sections and after freeze-fracturing and deep-etching.The cultured protoplasts show an apparent increase in cell organelles compared to the freshly isolated protoplasts. In particular, mitochondria, endoplasmic reticulum, and ribosomes, many of them appear as polysomes, become numerous. Moreover, special connections between the ER and the plasmalemma are visible. Most important are the fracture faces of the plasmalemma with two different arrangements of membrane-bound particles: (1) particles in hexagonal arrays and (2) rows of ca. 14 particles. Their orientation usually conforms with that of the regenerated microfibrils of the cell wall. According to these results the following model for microfibril synthesis and orientation in higher plants is proposed: While the cytoplasmic activity is involved in the production of cellulose precursors and enzymes, the hexagonal arrays may respresent specialized regions for the outward passage of these cellulose precursors. The rows of membrane-associated particles may function as a linear enzyme complex (matrix) for microfibril biosynthesis and orientation.Abbreviations ER endoplasmic reticulum - IAA -indolylacetic acid - 2,4-D 2,4-dichlorophenoxy acetic acid     

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.     

Protein folding includes oligomerization - examples from the endoplasmic reticulum and cytosol

A correct three-dimensional structure is a prerequisite for protein functionality, and therefore for life. Thus, it is not surprising that our cells are packed with proteins that assist protein folding, the process in which the native three-dimensional structure is formed. In general, plasma membrane and secreted proteins, as well as those residing in compartments along the endocytic and exocytic pathways, fold and oligomerize in the endoplasmic reticulum. The proteins residing in the endoplasmic reticulum are specialized in the folding of this subset of proteins, which renders this compartment a protein-folding factory. This review focuses on protein folding in the endoplasmic reticulum, and discusses the challenge of oligomer formation in the endoplasmic reticulum as well as the cytosol.     

Association of androgen binding sites with the endoplasmic reticulum of rat ventral prostate

Microsomes from ventral prostate of 24-h castrated rats contain a single set of tissue-specific high-affinity, low-capacity androgen binding sites. These sites are indigenous to the endoplasmic reticulum, as shown by purification procedures associated with marker enzymes and electron microscopic analyses. When prostatic microsomal membranes are separated from plasma membranes using the nuclear or the mitochondrial pellets as the source of fractionation in sucrose gradients, the androgen binding activity is selectively associated with fractions rich in rough endoplasmic reticulum and ribosomes. Eighty-four percent of the total content of Na+/K+ adenosine triphosphatase (ATPase) and only 27% of the total binding capacity were concentrated in fractions rich in smooth-surfaced vesicular membranes, when nuclear suspensions constituted the membrane source. In contrast, the region of the same gradient when enriched in rough endoplasmic reticulum and deficient in plasma membrane content contained 73% of the androgen-binding capacity and only 14% of the ATPase. For fractions collected using mitochondrial suspensions as starting material, the ratio (total glucose-6-phosphatase/total binding capacity) was closer to 1.0 than similar ratios of ATPase/binding capacity, indicating co-sedimentation of binding sites with microsomal membranes and not with plasma membranes. Na+/K+ ATPase, but not 5' nucleotidase, is a valid plasma membrane marker for ventral prostate. Microsomal androgen receptors may constitute a new level of regulation of androgen action in target cells.     

Freeze-fracture analysis of gap junction disruption in rat ovarian granulosa cells

The effects of chemical dissociation on rat ovarian granulosa cell gap junctions has been studied using freeze-fracture electron microscopy. Sequential exposure of granulosa cells within follicles to solutions containing 6·8 mM EGTA [ethylene-bis-(β-aminoethyl ether)-N,N′-tetra acetic acid] and 0·5 M sucrose results in extensive cellular dissociation of the follicular epithelium. Freeze-fracture replicas made from fixed, control or EGTA-treated ovarian follicles exhibit extensive gap junctions between granulosa cells that are characterized by a range of packing order of constituent P-face particles or E-face pits. In contrast, exposure to 0·5 M sucrose containing 1·8 mM EGTA for as little as 1 min results in a consistently close packing of particles or pits which is accompanied by splitting of gap junctions between granulosa cells. The process of junction splitting was studied in detail in replicas prepared from follicles treated sequentially for various periods of time with EGTA and sucrose solutions. Initially, large gap junctions lose their regular shape and fragment into numerous tightly packed aggregates of P-face particles or E-face pits which are separated by unspecialized areas of plasma membrane. Subsequent to junction fragmentation, individual junction plaques separate at sites of cell contact and generate hemijunctions that border the intercellular space, Hemijunctions undergo particle dispersion of the P fracture face which results in an increased density of large intramembrane particles; no corresponding change in E-face pits is discernible at this stage. Morphometric analysis of replicas of tissue undergoing junction splitting indicates that junctional surface area decreases to 10–20% of control levels during this same treatment and so further supports the qualitative observations on junction fragmentation. Viabilities of granulosa cells obtained by these techniques also agree with the sequence observed in the morphometric analysis of the replicas. Finally, within 15 min after placing ovaries in isotonic, Ca²⁺-containing salt solutions, gap junction reformation occurs by aggregation of particles at sites of intercellular contact. These sites are distinguished by the appearance of short surface protrusions or indentations on their respective P and E fracture faces. The data suggest a mechanism for EGTA-sucrose mediated cellular dissociation in the follicular epithelium in which gap junctional particles are free to move in the plane of the plasma membrane and may be re-utilized to form gap junctions in the presence of extracellular calcium.     

Ultrastructural Studies of a Vesicle System Associated with Endoplasmic Reticulum in Exo-Erythrocytic Forms of Plasmodium berghei1

ABSTRACT. Fine structural studies of a specialized vesicle system associated with the endoplasmic reticulum (ER) of exo-erythrocytic Plasmodium berghei suggest that this system may be the equivalent of a Golgi apparatus. Patches of ER, randomly distributed in the cytoplasm of developing parasites, are formed of smooth and ribosome-studded cisternae intermingled with each other. The vesicle systems are located between as well as at the edges of ER aggregates and appear to be in different stages of budding from the cisternae. Prolonged osmication reveals distinct staining of the nuclear envelope and ER of the parasites as well as part of the Golgi apparatus of the hepatocytes. However, the small vesicles associated with the parasite's ER are unstained, as are the coated vesicles in the Golgi region of the liver cell. These sites in the parasite cytoplasm seem comparable to the concave surface of the Golgi apparatus in liver cells. The pinched-off vesicles fuse with others to form the prominent peripheral vacuolization characteristic of the nearly mature exo-erythrocytic form. The formation of these peripheral vacuoles and their subsequent fusion with the parasite membrane may be an exocytosis mechanism supplying the rapidly expanding parasite with new plasma membrane material.     

Dengue virus-induced modifications of host cell membranes.

Enzymatic markers and electron microscopy were utilized to determine the cellular origin of the membrane types isolated from type 2 dengue virus-infected BHK cells by discontinuous sucrose gradient centrifugation. The results showed an apparent separation of plasma membrane, smooth and rough endoplasmic reticulum with increasing density. Virus-induced protein and RNA synthesis, as indicated by the incorporation of radiolabled precursors, was localized on the rough endoplasmic reticulum. Glycosylation, measured by the incorporation of radiolabeled glucosamine into membrane-associated proteins, was most active in the bands of intermediate and smooth endoplasmic reticulum. Polyacrylamide gel electrophoresis of isolated membrane bands, radiolabeled in the presence of actinomycin D, after pulse inhibition by cycloheximide, revealed seven virus-specific proteins associated with all membrane fractions. Viral structural protein V-3, and nonstructural proteins NV-3 and NV-2, increased with decreasing density, whereas NV-5 and NV-4 remained constant. The viral capsid protein V-2 was depleted in the intermediate and smooth endoplasmic reticulum, suggesting that these membranes may serve as the sites for viral maturation. NV-3 was the most prominent virus-specified protein found in the plasma membrane.     

Membrane structure of caveolae and isolated caveolin-rich vesicles

 Caveolae are specialized invaginated domains of the plasma membrane. Using freeze-fracture electron microscopy, the shape of caveolae and the distribution of intramembrane particles (integral membrane proteins) were analyzed. The caveolar membrane is highly curved and forms flask-like invaginations with a diameter of 80–120 nm with an open porus of 30–50 nm in diameter. The fracture faces of caveolar membranes are nearly free of intramembrane particles. Protein particles in a circular arrangement surrounding the caveolar opening were found on plasma membrane fracture faces. For isolation of caveolin-enriched membrane vesicles, the method of Triton X-100 solubilization, as well as a detergent-free isolation method, was used. The caveolin-rich vesicles had an average size of between 100 and 200 nm. No striated coat could be detected on the surface of isolated caveolin-rich vesicles. Areas of clustered intramembrane particles were found frequently on membrane fracture faces of caveolin-rich vesicles. The shape of these membrane protein clusters is often ring-like with a diameter of 30–50 nm. Membrane openings were found to be present in the caveolin-rich membrane vesicles, mostly localized in the areas of the clustered membrane proteins. Immunogold labeling of caveolin showed that the protein is a component within the membrane protein clusters and is not randomly distributed on the membrane of caveolin-rich vesicles. Accepted: 16 September 1998     

Affinity cytochemical differentiation of glycoconjugates of small intestinal absorptive cells using Pisum sativum and Lens culinaris lectins

We studied the subcellular localization of glycoconjugates recognized by the garden pea and lentil lectins (Pisum sativum, PSA; Lens culinaris, LCA) in mature absorptive cells of duodenum and jejunum of fasted rats. PSA and LCA are mannose-, glucose-, and N-acetyl-glucosamine-recognizing lectins that bind with high affinity to fucosylated core regions of N-glycosidically linked glycans. The binding reactions were cytochemically demonstrated in a pre-embedment incubation system using peroxidase-labeled lectins. Both pea and lentil lectins bound with constituents of nuclear envelope and endoplasmic reticulum, cisternae of the Golgi apparatus, several Golgi-associated vesicles, lysosomes, and portions of the plasma membrane. PSA and LCA label was non-homogeneous in the endoplasmic reticulum; in the Golgi apparatus the reactions were most intense in the cis and medial cisternae of the stacks. For inhibition of the intense reactions apparent in the Golgi apparatus, in lysosomes, and at the plasma membrane, considerably higher concentrations of competitive sugars were necessary than for abolition of the endoplasmic reticulum label. This indicates that endoplasmic reticulum glycoconjugates bind at low affinities with pea and lentil lectins, and that high-affinity PSA/LCA-binding glycoconjugates, which may correspond to corefucosylated N-linked glycans, predominate in cis and medial Golgi cisternae, lysosomes, and at the plasma membrane.     

Plasma membrane associated membranes (PAM) from Jurkat cells contain STIM1 protein: Is PAM involved in the capacitative calcium entry?

A proper cooperation between the plasma membrane, the endoplasmic reticulum and the mitochondria seems to be essential for numerous cellular processes involved in Ca²⁺ signalling and maintenance of Ca²⁺ homeostasis. A presence of microsomal and mitochondrial proteins together with those characteristic for the plasma membrane in the fraction of the plasma membrane associated membranes (PAM) indicates a formation of stabile interactions between these three structures. We isolated the plasma membrane associated membranes from Jurkat cells and found its significant enrichment in the plasma membrane markers including plasma membrane Ca²⁺-ATPase, Na⁺, K⁺-ATPase and CD3 as well as sarco/endoplasmic reticulum Ca²⁺ ATPase as a marker of the endoplasmic reticulum membranes. In addition, two proteins involved in the store-operated Ca²⁺ entry, Orai1 located in the plasma membrane and an endoplasmic reticulum protein STIM1 were found in this fraction. Furthermore, we observed a rearrangement of STIM1-containing protein complexes isolated from Jurkat cells undergoing stimulation by thapsigargin. We suggest that the inter-membrane compartment composed of the plasma membrane and the endoplasmic reticulum, and isolated as a stabile plasma membrane associated membranes fraction, might be involved in the store-operated Ca²⁺ entry, and their formation and rebuilding have an important regulatory role in cellular Ca²⁺ homeostasis.     

Immunoelectron microscopic studies of the intracellular transport of the membrane glycoprotein (G) of vesicular stomatitis virus in infected Chinese hamster ovary cells

An immunoelectron microscopic study was undertaken to survey the intracellular pathway taken by the integral membrane protein (G-protein) of vesicular stomatitis virus from its site of synthesis in the rough endoplasmic reticulum to the plasma membrane of virus-infected Chinese hamster ovary cells. Intracellular transport of the G-protein was synchronized by using a temperature-sensitive mutant of the virus (0-45). At the nonpermissive temperature (39.8 degrees C), the G-protein is synthesized in the cell infected with 0-45, but does not leave the rough endoplasmic reticulum. Upon shifting the temperature to 32 degrees C, the G-protein moves by stages to the plasma membrane. Ultrathin frozen sections of 0-45-infected cells were prepared and indirectly immunolabeled for the G-protein at different times after the temperature shift. By 3 min, the G-protein was seen at high density in saccules at one face of the Golgi apparatus. No large accumulation of G-protein-containing vesicles were observed near this entry face, but a few 50-70-mm electron-dense vesicular structures labeled for G-protein were observed that might be transfer vesicles between the rough endoplasmic reticulum and the Golgi complex. At blebbed sites on the nuclear envelope at these early times there was a suggestion that the G-protein was concentrated, these sites perhaps serving as some of the transitional elements for subsequent transfer of the G-protein from the rough endoplasmic reticulum to the Golgi complex. By 3 min after its initial asymmetric entry into the Golgi complex, the G-protein was uniformly distributed throughout all the saccules of the complex. At later times, after the G-protein left the Golgi complex and was on its way to the plasma membrane, a new class of G-protein-containing vesicles of approximately 200-nm diameter was observed that are probably involved in this stage of the transport process. These data are discussed, and the further prospects of this experimental approach are assessed.