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JUNCTIONAL CELL-TO-CELL COMMUNICATION AND GROWTH CONTROL (1980)

Loewenstein, W. R.

Oxford, UK : Blackwell Publishing Ltd

Annals of the New York Academy of Sciences 339 (1980), S. 0

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ISSN: 1749-6632

Source: Blackwell Publishing Journal Backfiles 1879-2005

Topics: Natural Sciences in General

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1111/j.1749-6632.1980.tb15966.x

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Cell junction and cyclic AMP: III. Promotion of junctional membrane permeability and junctional membrane particles in a junction-deficient cell type (1981)

Azarnia, R. ; Dahl, G. ; Loewenstein, W. R.

Springer

The journal of membrane biology 63 (1981), S. 133-146

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ISSN: 1432-1424

Keywords: Intercellular communication ; cell junction ; gap junction ; junctional permeability ; cell-to-cell membrane channels ; promotion of cell-to-cell membrane channels ; membrane permeability ; cyclic AMP ; cancer cell

Source: Springer Online Journal Archives 1860-2000

Topics: Biology , Chemistry and Pharmacology

Notes: Summary The cyclic nucleotide effect on junction was studied in C1-1D cells, a mouse cancer cell type that fails to make permeable junctions in ordinary confluent culture. Upon administration of cyclic AMP, dibutyryl cyclic AMP, dibutyryl cyclic AMP plus caffeine (db-cAMP-caffeine), or cholera toxin (an adenylate cyclase activator), the cells acquired permeable junctions; they became electrically coupled and transferred fluorescent tracer molecules among each other—a transfer exhibiting the molecular size limit of permeation of normal cell-to-cell channels. The effect took several hours to develop. With the db-cAMP-caffeine treatment, junctional permeability emerged within two hours in one-fifth of the cell opopulation, and within the next few hours in the entire population. This development was not prevented by the cytokinesis inhibitor cytochalasin B. Permeable junctions formed also in two other conditions where the cell-endogenous cyclic AMP level may be expected to increase: serum starvation and low cell density. After three weeks of starving the cells of serum, a junctional permeability arose in confluent cultures, which on feeding with serum disappeared within two to three days. At low cell density, namely below confluency, the cells made permeable junctions, unstarved. In cultures of rather uniform density, the frequency of permeable junctions was inversely related to the average density, over the subconfluent range; at densities of about 1×104 cells/cm2, where the cells had few mutual contacts, 80% of the pairs presumed to be in contact were electrically coupled. In cultures with adjoining territories of high (confluent) and low cell density, there was coupling only in the last, and in this low-density state the cells were also capable of coupling with other mammalian cell types (mouse 3T3-BalbC and human Lesch-Nyhan cells). Correlated electron microscopy of freeze-fractured cell junctions showed no membrane differentiation in confluent C1-1D cultures. The junctions acquired differentiations, namely particle clusters of gap junction and strands of tight junction, upon cyclic nucleotide application or serum starvation and in the lowdensity condition. With db-cAMP-caffeine, these differentiations appeared within 4 hr of the treatment (confluent cultures), growing in size over the next hours. Treatment with cycloheximide, but not with cytochalasin B, prevented the development of recognizable gap junction and tight junction in cultures supplied with db-cAMP-caffeine.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF01969454

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Studies on the formation of a permeable cell membrane junction (1974)

Ito, S. ; Sato, E. ; Loewenstein, W. R.

Springer

The journal of membrane biology 19 (1974), S. 305-337

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ISSN: 1432-1424

Source: Springer Online Journal Archives 1860-2000

Topics: Biology , Chemistry and Pharmacology

Notes: Summary Individual cells (macroblastomeres) of newt embryo were brought into contact, and electrical coupling was monitored during the formation of permeable membrane junction. In one set of experiments, the cells were allowed to establish contact at random membrane spots by spontaneously moving cell processes. Coupling became detectable 8–14 min after contact. In another set, contact was imposed, by micromanipulation, at membrane spots of known junctional history. The basic experiment was (i) to make a junction (conditioning junction) at randomly chosen membrane spots, (ii) to pull the cells apart interrupting their electrical coupling (uncoupling), and (iii) to make a new junction (test junction) either at the same spots that contained the conditioning junction or at different ones. The times required for coupling onset at test junctions fell into two classes, depending on whether in the uncoupling step the membrane continuity between the two cells had been broken or preserved. When all membrane continuity had been broken, coupling through the test junctions became detectable within 4–20 min after membrane contact. This was so when the spots of membrane contact contained conditioning junction as well as when they did not. When membrane continuity (but not coupling) had been preserved in the form of submicroscopic strands, coupling through the test junction set in within 1 sec of joining the cells at spots containing conditioning junction. This capacity for rapid coupling persisted for roughly 10 min following the uncoupling step; thereafter the time of coupling onset was of the class with broken membrane continuity. During development of junction, the coupling coefficients rose gradually over 10–30 min from the detectable level (0.03 or 0.05) to a plateau (0.3–0.9). The cells were capable of developing and of maintaining coupling throughout their entire 100-min division cycle. Treatments with colchicine (0.2–1.1mm) and with cytochalasin B (0.5–1 μm), blocking cytokinesis and division, did not prevent the development or maintenance of coupling. Treatment with dinitrophenol (1mm) prevented the development of coupling, but not that of cell adhesion, and (3mm) blocked reversibly the coupling in established junction.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF01869984

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Intercellular communication and tissue growth (1971)

Azarnia, R. ; Loewenstein, W. R.

Springer

The journal of membrane biology 6 (1971), S. 368-385

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ISSN: 1432-1424

Source: Springer Online Journal Archives 1860-2000

Topics: Biology , Chemistry and Pharmacology

Notes: Summary A method is described for testing communication between a normal and a cancerous cell in culture without inserting microprobes into either cell; microprobes are put into other normal cells coupled to the normal cell in question. It is shown with this method that a cell strain (class-A), of epithelial morphology, isolated from Morris' liver tumor (H-5123) fails to make communicative junctions with several types of normal cells; small inorganic ions and fluorescein do not pass from the normal cells to the class-A cells (they do pass from the normal cells to normal cells, even between normal cells of different type). The class-A cells also appear incapable of junctional communication among themselves. The cells of class-A are cancerous: they are not ‘contact inhibited’ by each other or by the normal cells and they form malignant tumors when injected into test animals. Another cell strain (class-B), of fibroblastic morphology, derived from the same liver tumor as class-A makes communicative junctions readily. This strain is ‘contact inhibited’ and does not produce tumors when injected into the animals.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF02116580

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Cell junction and cyclic AMP: II. Modulations of junctional membrane permeability, dependent on serum and cell density (1981)

Flagg-Newton, J. L. ; Loewenstein, W. R.

Springer

The journal of membrane biology 63 (1981), S. 123-131

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ISSN: 1432-1424

Keywords: Cell junctions ; gap junction ; junctional permeability ; membrane permeability ; cell-to-cell channels ; cyclic AMP ; cell density ; serum

Source: Springer Online Journal Archives 1860-2000

Topics: Biology , Chemistry and Pharmacology

Notes: Summary Junctional molecular transfer (as indexed by the number of cell interfaces transferring fluorescent-labelled molecules) and concentration of endogenous cAMP were determined in mammalian cells in culture at varying serum concentration and cell density. In several cell types, on stepping the serum concentration from 10% (the concentration to which the cells had been adapted) to zero, the junctional transfer rose (reversibly) within 48 hr, as the endogenous cAMP concentration rose. The junctional transfer was inversely related to serum concentration over a range, most steeply so the transfer of large and charged molecules. one cell type showed no junctional change in response to serum; it showed also no endogenous cAMP change. Junctional transfer varied inversely with cell density over the range of 0.7–7 (104 cells/cm2) in 3T3 cells. In cultures seeded to various densities, or growing to various densities on their own, junctional transfer fell with rising density, and so did the endogenous cAMP concentration. Upon downstep from high density, junctional transfer rose over 24–48 hr. In B cells, junctional transfer was independent of cell density over the aforementioned range, and so was the endogenous cAMP concentration. These results, in conjunction with the effects of exogenous cAMP described in the preceding paper of this series, point to a cAMP-mediated junctional effect; a possible teleonomy for control of membrane junction is discussed.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF01969453

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Hormonal regulation of cell junction permeability: Upregulation by catecholamine and prostaglandin E1 (1982)

Radu, A. ; Dahl, G. ; Loewenstein, W. R.

Springer

The journal of membrane biology 70 (1982), S. 239-251

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ISSN: 1432-1424

Keywords: cell junction permeability ; cell-to-cell communication ; membrane permeability ; cell-to-cell membrane channels ; gap junction ; hormones ; catecholamine ; prostaglandin E1 ; cyclic AMP

Source: Springer Online Journal Archives 1860-2000

Topics: Biology , Chemistry and Pharmacology

Notes: Summary By cellular activation with hormones, we test the proposition (Loewenstein, W.R.,Physiol. Rev. 61:829, 1981) that the permeability of cell junction is upregulated through elevation of the level of cyclic AMP. Cultured rat glioma C-6 cells, with β-adrenergic receptors, and human lung WI-38 cells, with prostaglandin receptors, were exposed to catecholamine (isoproterenol) and prostaglandin E1, respectively, while their junctions were probed with microinjected fluorescent-labelled mono-, di-, and triglutamate. Junctional permeability, as indexed by the proportion of cell interfaces transferring the probes, rose after the hormone treatments. The increase in permeability took several hours to develop and was associated with an increase in the number of gap-junctional membrane particles (freeze-fracture electron microscopy). Such interaction between hormonal and junctional intercellular communication may provide a mechanism for physiological regulation of junctional communication and (perhaps as part of that) for physiological coordination of responses of cells in organs and tissues to hormones.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF01870566

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Intercellular communication and the control of growth: XII. Alteration of junctional permeability by simian virus 40. roles of the large and smallT antigens (1984)

Azarnia, R. ; Loewenstein, W. R.

Springer

The journal of membrane biology 82 (1984), S. 213-220

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ISSN: 1432-1424

Keywords: cell junction ; cell-to-cell communication ; cell-to-cell channel ; gap junction ; simian virus 40 ; DNA virus ; tumor antigens ; transformation ; cancer

Source: Springer Online Journal Archives 1860-2000

Topics: Biology , Chemistry and Pharmacology

Notes: Summary We studied the action of temperature-sensitive mutant simian virus 40—a transformation-inducing DNA virus—on the junctional permeability to mono-, di- and triglutamate in rat embryo-, pancreas islet (epithelia)-, and 10T1/2 cell cultures. Junctional permeability was reduced (reversibly) in the transformed state. To dissect the genetics of this alteration, we used two kinds of mutant virus DNA. One kind had a temperature-sensitive mutation on theA gene, rendering the largeT antigen (the gene product) thermolabile (T + ⇆T −). The other had a deletion on theF gene, in addition, abolishing (permanently) the expression of the littlet antigen (t −). The junctional alteration occurred in the conditionT + t +, but not in the conditionsT − t +,T + t − orT − t −. Both antigens, thus, are necessary for this junctional alteration—a genetic requirement identical to that for decontrol of growth (but distinct from that of the cytoskeletal alteration).

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF01871631

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Intercellular communication and tissue growth (1972)

Azarnia, R. ; Michalke, W. ; Loewenstein, W. R.

Springer

The journal of membrane biology 10 (1972), S. 247-258

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ISSN: 1432-1424

Source: Springer Online Journal Archives 1860-2000

Topics: Biology , Chemistry and Pharmacology

Notes: Summary Three cancer cell strains that fail to make permeable membrane junctions were tested for ability to transfer an endogenous hypoxanthine derivative from cell to cell. The cells of these strains, loaded with3H-hypoxanthine, were grown in contact with cells from a mutant line incapable of incorporating exogenous hypoxanthine. The transfer of the3H-hypoxanthine derivative to the mutant cells was determined by radio-autography and, in the same preparations, the presence of permeable membrane junctions was determined by intercellular fluorescein tracer diffusion and electrical measurement. The cells of the three strains showed no transfer of hypoxanthine derivative to contiguous mutant cells; the cells that make permeable junctions did show such transfer, under the same conditions. In contrast to this contact-requiring mode of transfer, a contact-independent transfer phenomenon was observed with these three cancer cell strains.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF01867858

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Studies on the formation of a permeable cell membrane junction (1974)

Ito, S. ; Sato, E. ; Loewenstein, W. R.

Springer

The journal of membrane biology 19 (1974), S. 339-355

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ISSN: 1432-1424

Source: Springer Online Journal Archives 1860-2000

Topics: Biology , Chemistry and Pharmacology

Notes: Summary Coupling by permeable membrane junction between single pairs of newt embryo cells (macroblastomeres) was inducedin vitro. At the same time, the resistance of the developing cell-to-cell diffusion channels (junctional membrane) and that of their insulation from the exterior (junctional insulation) were determined by electrical measurement. From the moment the cell coupling was first detected electrically, the resistance of junctional membrane fell gradually to a relatively steady level during 0.5–1 hr. Meanwhile, the resistance of junctional insulation rose gradually to a peak, then declined somewhat to a relatively steady level. An upper limit for the steady-level resistivity of junctional membrane was estimated from measurements on partly separated cells coupled by 3–4 strands of 1 μ2 cross-section; this estimate is 10−2 Ω cm2, 6 orders of magnitude less than the resistivity of nonjunctional membrane. Viewed in the light of a model proposed earlier (W. R. Loewenstein, 1966), these results suggest that junctional coupling may develop by accretion of diffusion-channel units of ≦10−2 Ω cm2 resistivity.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF01869985

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Cell junction and cyclic AMP: I. Upregulation of junctional membrane permeability and junctional membrane particles by administration of cyclic nucleotide or phosphodiesterase inhibitor (1981)

Flagg-Newton, J. L. ; Dahl, G. ; Loewenstein, W. R.

Springer

The journal of membrane biology 63 (1981), S. 105-121

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ISSN: 1432-1424

Keywords: Cell-to-cell junction ; gap junction ; junctional permeability ; membrane permeability ; cell-to-cell membrane channels ; membrane channel recruitment ; cyclic AMP

Source: Springer Online Journal Archives 1860-2000

Topics: Biology , Chemistry and Pharmacology

Notes: Summary Mammalian cells in culture were exposed to cyclic AMP, dibutyrul cyclic AMP, the phosphodiesterase inhibitor caffeine, or a combination of the last two, while junctional molecular transfer was probed with the series of microinjected, fluorescentlabelled linear molecules Glu, Glu-Glu, Glu-Glu-Glu, and Leu-Leu-Leu-Glu-Glu. The junctional permeability for these molecules increased with each of the agents, most markedly with the dibutyryl cyclic AMP-caffeine combination, as the intracellular cyclic nucleotide concentration rose. The junctional permeability effect developed over several hours. When probed with molecules close to the limit of cell-to-cell channel permeation (the most sensitive setting), the effect was detectable both, as an increase in the (relative) junctional transit rate and as an increase in the number of transferring cell interfaces in the test populations. The number of transferring cell interfaces reached a maximum by 4 hr, when the junctional transit rate, hence the junctional permeability, was still rising. Nonjunctional membrane permeability for the probe molecules, as determined by intracellular fluorescence loss, was not significantly changed (nor was there significant nonjunctional cell-to-cell transfer of molecules before or after the treatments). The rise in junctional permeability was associated with an increase in the number of gap junctional membrane particles, as determined by freeze-fracture electron microscopy: the average size of the particle clusters increased, and the frequency of the clusters increased, particularly that of the smaller (and presumably newer) clusters. This effect was blocked by treatments with the protein synthesis inhibitors cycloheximide or puromycin. These agents caused particle diminution (diminution of cluster frequency but not of average cluster size), with or without cyclic nucleotide. The junctional effects may represent a cyclic AMP-promoted proliferation of cell-to-cell channels. Some physiological implications, in particular, implications for hormone-regulated tissues, are discussed.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF01969452

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