Quantitative evaluation of gap junctions in rat brown adipose tissue after cold acclimation

Summary The decrease in the metabolic capacity of rat brown adipose tissue during the late postnatal period can be reversed by cold acclimation of the animals. In order to find out whether a parallel decrease in capability for intercellular communication observed during this period is also reversed by cold acclimation, gap junction size and number per unit area of cell surface have been quantified in freeze-fracture replicas; cell diameters have been measured in semi-thin sections. It was found that the specific number of gap junctions remains unchanged during cold acclimation. However, the mean gap junction size increases by 75% and the ratio of gap junctional area per cell volume, an index for intercellular exchange capacity, is doubled. This result illustrates further the parallelism between metabolic capacity and cell communication in brown fat.     

Down-regulation of membrana granulosa cell gap junctions is correlated with irreversible commitment to resume meiosis in golden Syrian hamster oocytes

One of the currently popular hypotheses for the regulation of meiotic resumption in mammalian oocytes proposes that the preovulatory surge of luteinizing hormone causes down-regulation of follicular gap junctions, which in turn disrupts transfer of a meiotic arrester from the somatic cells into the oocyte. The present study has investigated this hypothesis by examining the integrity of membrana granulosa cell gap junctions during the period of irreversible commitment to maturation of golden Syrian hamster oocytes in vivo. Our results have revealed a significant progressive decrease in the fractional area of cell surface occupied by gap junction membrane with increasing percentage of oocytes irreversibly committed to mature (1.946% and 0.921% fractional gap junction area at 0% and 100% oocytes irreversibly committed to mature, respectively, P less than 0.05). This net loss of membrana granulosa cell gap junctions from the cell surface was accompanied by a significant decrease in density of gap junction particles, whether they were arranged in rectilinear or non-rectilinear packing patterns. Furthermore, the number of gap junction particles per unit area of surface membrane scanned also underwent a significant progressive decrease with increasing percentage of oocytes irreversibly committed to mature. These data with the hamster are consistent with the hypothesis that down-regulation of membrana granulosa cell gap junctions may be of central importance in the regulation of gonadotropic stimulation of meiotic resumption in mammalian oocytes.     

Gap junctions and intercellular communication in the hepatopancreas of the crayfish (Orconectes propinquus) during molt

Summary The crustacean hepatopancreas is a major metabolic center intimately involved in molting and vitellogenesis. Cells of the hepatopancreas exhibit one of the richest endowments of gap junctions known and are thus presumed to be linked for intercellular communication. In order to monitor hepatopancreatic activity during the molt cycle of crayfish (Orconectes propinquus), the electrical coupling between cells of the hepatopancreatic tubules was measured during postmolt, intermolt and premolt. Samples of hepatopancreas from each of these stages were fixed and freeze-fractured to correlate morphologic features of gap junctions with electrophysiological data. Analysis of the data revealed that ionic coupling was greater in postmolt and premolt tubule cells than in cells of intermolt animals. Platinum replicas of hepatopancreatocyte plasmalemmata revealed that in postmolt, gap junction plaques were smaller and more numerous than those in intermolt and premolt; however, the total area of gap junction plaques per unit membrane area analyzed was approximately the same for hepatopancreatocytes from all molt stages. Although the hepatopancreatic gap junctions exhibited no quantitative differences, those from post- and premolt animals were rounded with tightly packed particles, while plaques from intermolt animals were generally pleomorphic with loosely packed particles. Results of this study suggest that cells of the crayfish hepatopancreas are more coupled in pre- and postmolt, with macular plaques of tightly packed particles, perhaps as a response to the increased metabolic demands of molt, and less well coupled, with irregular plaques of loosely packed junctional particles, during intermolt. The only recognizable morphological correlates of increased cell coupling were tight packing of junctional particles into rounded plaques, while decreased coupling corresponded to junctions with loosely packed irregular aggregates of particles.Supported by the Natural Sciences and Engineering Research Council of Canada (RRS)     

Dibutyryl cyclic AMP modulation of gap junctions in SW-13 human adrenal cortical tumor cells

Cultured human adrenal cortical adenocarcinoma cells (SW-13) form a confluent monolayer of epithelial-like cells when seeded into culture flasks. Following a 24-48 hr non-mitotic period, cells begin to divide and become confluent within a week after seeding at 5 X 10(4) cells/cm2. The SW-13 cells were exposed to dibutyryl cyclic AMP (DbcAMP), cyclic AMP (cAMP), sodium butyrate, and adrenocorticotropin (ACTH). The rate of SW-13 cell proliferation was measured with a DNA microfluorometric assay, as well as by procedures measuring the incorporation of 3H-thymidine. In addition, following administration of ACTH and DbcAMP, the fractional area of membrane covered by gap junctions was quantitated with freeze-fracture electron microscopic techniques. Dibutyryl cyclic AMP at a concentration of 1 X 10(-3) M decreased the growth rate of the cell population. There was a corresponding increase in the fractional area of gap junctions found on the cell membrane in 96-hr DbcAMP-treated cultures. ACTH (40 mU/ml) exposure failed to produce an increase in the fractional area of gap junctions or to alter the rate of cell proliferation. From these data it can be suggested that elevations in cAMP levels within the cell can be related to both the proliferation of gap junctions and the decrease in cell proliferation in the SW-13 tumor cell.     

Increase of gap junctions between pancreatic B-cells during stimulation of insulin secretion

The development of gap junctions between pancreatic B-cells was quantitatively assessed in freeze-fracture replicas of isolated rat islets under different conditions of insulin secretion. The results show that in resting B-cells, gap junctions are small and scarce but that these junctions increase when insulin secretion is stimulated. Both a short (90 min) stimulation by glucose in vitro and a prolonged (2.5 d) stimulation by glibenclamide in vivo raise the number of gap junctions; in addition, the glibenclamide stimulation causes an increase in the size of individual gap junctions. As a consequence, the total area occupied by gap junctions on the B-cell membrane and the ratio of this area to the cell volume were found significantly increased in the latter condition. The slight increase of these values observed after the glucose stimulation did not reach significance. These data indicate a change of gap junctions during the secretory activity of the pancreatic B-cells. The possibility that the coupling of the cells is affected by the treatment is discussed.     

Downregulation of Connexin 32 Attenuates Hypoxia/Reoxygenation Injury in Liver Cells

Gap junction intercellular communication is involved in ischemia–reperfusion (IR) injury of organs. Connexins are proteins that are critical to the function of gap junctions. To clarify the role of gap junctions in IR injury in liver cells, the function of gap junctions was modulated in an in vitro hypoxia/reoxygenation (H/R) model. BRL‐3A rat liver cells, endogenously expressing connexins Cx32 and Cx43, were used to model the process of hepatic IR injury. Suppression of gap junction activity was achieved genetically, using Cx32‐specific small interfering RNA (siRNA), or chemically, with pharmacological inhibitors, oleamide, and 18‐α‐GA. BRL‐3A cells subjected to H/R exhibited reduced cell survival and pathologies indicative of IR injury. Cx32‐specific siRNA, oleamide, and 18‐α‐GA, respectively, decreased gap junction permeability, as assessed by the parachute assay. Pretreatment with Cx32‐specific siRNA increased cell survival. Pretreatment with oleamide or 18‐α‐GA did not improve cell survival. Modulating gap junction by Cx32 gene silencing protected BRL‐3A liver cells from H/R.     

The lesion in a metabolic cooperation-defective embryonal carcinoma variant is of broad specificity with regard to metabolite and to contiguous cell type

Homotypic and heterotypic permeable junction formation between a metabolic cooperationdefective embryonal carcinoma variant R5/3 and its parent PC13TG8 have been studied by uridine prelabelling. The results indicate that the lesion results not in a modified specificity of cell recognition but in a deficiency in forming permeable junctions irrespective of contiguous cell type. New techniques have been developed for the study of intercellular transfer of sodium ions and of amino acids of the urea cycle. These have been used to demonstrate that the R5/3 lesion reduces the capacity of the cells to participate in intercellular transfer of three unrelated categories of small molecule.     

Cell-cell interactions in regulating lung function

Tight junction barrier formation and gap junctional communication are two functions directly attributable to cell-cell contact sites. Epithelial and endothelial tight junctions are critical elements of the permeability barrier required to maintain discrete compartments in the lung. On the other hand, gap junctions enable a tissue to act as a cohesive unit by permitting metabolic coupling and enabling the direct transmission of small cytosolic signaling molecules from one cell to another. These components do not act in isolation since other junctional elements, such as adherens junctions, help regulate barrier function and gap junctional communication. Some fundamental elements related to regulation of pulmonary barrier function and gap junctional communication were presented in a Featured Topic session at the 2004 Experimental Biology Conference in Washington, DC, and are reviewed in this summary.     

Effects of polyploidy on photosynthesis

In polyploid plants the photosynthetic rate per cell is correlated with the amount of DNA per cell. The photosynthetic rate per unit leaf area is the product of the rate per cell times the number of photosynthetic cells per unit area. Therefore, the photosynthetic rate per unit leaf area will increase if there is a less than proportional increase in cell volume at higher ploidal levels, or if cell packing is altered to allow more cells per unit leaf area. In autopolyploids (Medicago sativa, C₃ species, and Pennisetum americanum, C₄ species) there is a doubling of photosynthesis per cell and of cell volume in the tetraploid compared to the diploid. However, there is a proportional decrease in number of cells per unit leaf area with this increase in ploidy such that the rate of photosynthesis per leaf area does not change. There is more diversity in the relationship between ploidal level (gene dosage) and photosynthetic rates per unit leaf area in allopolyploids. This is likely to reflect the effects of natural selection on leaf anatomy, and novel genetic interactions from contributed genomes which can occur with allopolyploidy. In allopolyploid wheat (C₃ species) a higher cell volume per unit DNA at the higher ploidal level is negatively correlated with photosynthesis rate per unit leaf area. Although photosynthesis per cell increases with ploidy, photosynthesis per leaf area decreases, being lowest in the allohexaploid, cultivated bread wheat (Triticum aestivum). Alternatively, doubling of photosynthetic rate per cell with doubling of DNA, with apparent natural selection for decreased cell volume per unit DNA, results in higher rates of photosynthesis per leaf area in octaploid compared to tetraploid Panicum virgatum (C₄) which may be a case of allopolyploidy. Similar responses probably occur in Festuca arundinacea. Therefore, in some systems anatomical factors affecting photosynthesis are also affected by ploidal level. It is important to evaluate that component as well as determining the effect on biochemical processes. Current information on polyploidy and photosynthesis in several species is discussed with respect to anatomy, biochemistry and bases for expressing photosynthetic rates.Abbreviations Chl chlorophyll - RuBPC ribulose-1,5-bisphosphate carboxylase     

Gap junction modulation in rat uterus. III. Structure-activity relationships of estrogen receptor-binding ligands on myometrial and serosal cells

A number of steroidal and nonsteroidal estrogen receptor-binding ligands were tested for their ability to affect the formation and internalization of gap junctions in hypophysectomized rat uterine myometrial and serosal cells. Potent estrogen, including diethylstilbestrol, estradiol benzoate (EB), estradiol-17 beta, and the weak estrogens, estriol and estrone, stimulate formation of macular and annular gap junctions in myometrium in a dose-dependent fashion when administered in daily injections over 5 days. Induction of annular gap junctions in the uterine serosal epithelium follows a similar dose-dependent pattern of estrogen stimulation but requires lower levels of hormone to initiate the response. In myometrium, differential stimulation of circular and longitudinal myometrial cell layers was observed, with 3 to 5 times more gap junctions detected in the circular than in the longitudinal layer. Progesterone, estriol, or estrone suppress the myometrial gap junction response to EB when administered concurrently with EB. However, the EB-stimulated appearance of myometrial cell gap junctions was blocked when the progesterone-to-estrogen ratio exceeded 100:1. The estrogen receptor-binding androgens, 5 alpha-androstane-3 beta,17 beta-diol (Adiol) and delta 5-androstene-3 beta,17 beta-diol failed to induce myometrial gap junctions at doses up to 5 mg/day for 5 days, whereas Adiol did induce annular gap junctions in the serosal cells at the highest dosage tested. Of the triphenylethylene derivatives and related compounds evaluated, including mixed isomers of tamoxifen and CI 628, the cis (zuclomiphene, ZUC) and trans (enclomiphene) isomers of clomiphene citrate, and a fixed-ring antiestrogen, nafoxidine, only ZUC was able to induce gap junctions in myometrial and serosal cells. These studies indicate that induction of gap junctions in rat uterine myometrial cells is an estrogen-dependent response that requires higher levels of estrogen than other estrogen-dependent target cell responses in the rodent uterus.     

The muscle of a monogonont rotifer, Trichocerca rattus. II. The central retractor muscles

This work concerns the ultrastructural characteristics of the two cells of the paired, bicellular, central retractor muscles (CRM) of the rotifer Trichocerca rattus. By transverse ultrathin serial sections, precise measurements where made on the following cytological characteristics: the length, diameter and average number by unit surface area for the myofilaments; the percentage of cell volume for the myoplasm and mitochondria; and the average number of peripheral elements of the sarcoplasmic reticulum (dyads) by unit surface area. These characteristics agree with a phasic fibre type for the CRM. The muscular insertions are described, as are the junctions between the two cells of each CRM: hemidesmosomes, desmosomes and gap junctions. The two symmetrical CRM are coupled by a large gap junction between two subcerebral sarcoplasmic processes. Some of these processes partially enter the cerebral neuropile; each CRM is innervated at this level. The functions of the cytological specializations are discussed in the light of the behaviour assumed by the CRM: the retraction of the rotatory apparatus in the trunk of T. rattus.     

Decreased incidence of gap junctions between Chinese hamster V-79 cells upon exposure to the tumor promoter 12-O-tetradecanoyl phorbol-13-acetate

Previous studies have shown that metabolic cooperation between Chinese hamster V-79 cells is inhibited by the tumor-promoting phorbol esters, but not by those phorbol esters inactive in tumor promotion. Metabolic cooperation is believed to be mediated by gap junctions. Therefore, in the present study we have used freeze-fracture and quantitative morphological techniques to examine the effect of the most potent tumor-promoting phorbol ester, 12-O-tetradecanoyl phorbol-13-acetate (TPA) and of the inactive analog, 4α-phorbol-12,13-didecanoate (4α-PDD) on the frequency of gap-junctional contacts between V-79 cells. In both control and in 4α-PDD treated cultures the junctions were frequent, though rather small in size. In contrast, in the TPA-treated cultures, gap junctions were few, and the area of membrane occupied by gap junctions was reduced more than 20-fold from that found for controls. These results suggest that the TPA-induced inhibition of metabolic cooperation between V-79 cells is a consequence of a decrease in the number of gap junctions.     

Structural,immunocytochemical and initial biochemical characterization of NAOH-extracted gap junctions from an insect,Heliothis virescens

Subcellular fractions enriched in gap junctions with an ultrastructure similar to those in intact insect tissue have been obtained by extracting crude membranes from the tobacco budworm Heliothis virescens (Lepidoptera: Noctuidae) with 2.5 mM NaOH. n-Octyl--d-glucopyranoside (OG) was used to further purify integral membrane proteins in the NaOH-extracted fractions. A polyclonal antibody (R16) is described that specifically labels nonextracted and NaOH-extracted gap junctions in cell fractions by electron microscope immunocytochemistry. R16 immunostaining of sectioned Heliothis testis at the light-microscope level yields a pattern of immunoreactivity consistent with the distribution of gap junctions in the tissue. R16 identifies a 40-kDa protein as a candidate gap junction protein on immunoblots of crude membrane, NaOH-extracted and NaOH/OG-extracted fractions.     

Structural and functional studies of myometrial gap junctions

Gap junctions are believed to be sites of metabolic and electrical coupling between cells. These contacts are present between myometrial cells immediately prior to and during parturition. We report the results of studies to investigate the control and the function of myometrial gap junctions. Injection of estradiol (500 micrograms/day) with or without progesterone into immature and ovariectomized mature rats demonstrated that estradiol stimulated whereas progesterone suppressed gap junction formation. Indomethacin treatment was also shown to potentiate the action of estradiol. Also, pregnant rats treated with oestradiol developed numerous myometrial gap junctions and aborted their fetuses. These results suggest that the steroid hormones and prostaglandins may control myometrial gap junction development. Diffusion studies of 3H-2-deoxyglucose in longitudinal myometrial strips revealed a significant increase in the diffusion coefficient in delivering versus ante-partum rat tissues. This indicates that there is increased metabolic transfer during parturition when gap junctions are present. The results of these studies show that steroid hormones and prostaglandins may regulate myometrial gap junctions and that metabolic, as well as electrical coupling, of uterine smooth muscle cells increase at parturition concomitant with the development of gap junctions.     

Gap junctions are non-randomly distributed inDrosophila wing discs

Summary The distribution of gap junctions in mature larvalDrosophila melanogaster wing discs was analyzed by means of quantitative electron microscopy. Gap junctions are non-randomly distributed in the proximal-distal disc axis and in the apical-basal cell axis of the epithelium. In the epithelial cells, the surface density, number and length of gap junctions are greatest in the apical cell region and distal disc region. The average gap junction surface density is 0.0572 m^–1 and 2.77% of the lateral cell surface is composed of gap junctions. In the adepithelial cells, the gap junction surface density is 0.0005 m^–1 and 0.06% of the cell surface is composed of gap junctions. No gap junctions were observed between epithelial cells and adepithelial cells. The absolute area of gap junctions was estimated in a proximal-distal strip of cells in the disc and is considerably less in the folded regions of the epithelium compared to the flat notum and wing pouch regions. The results are discussed with respect to pattern formation and growth control in imaginal discs.     

Nexuses between the smooth muscle cells of the guinea-pig ileum

The circular musculature of the guinea-pig ileum has been studied by freeze-fracture to analyze quantitatively the gap junctions (nexuses) between its smooth muscle cells. The average cell surface area and cell volume are 5,074 micron 2 and 3,260 micron 3. The packing density of nexuses is 48/1,000 micron 2 of cell surface or approximately 244/muscle cell. Nexuses range in area from less than 0.1 to approximately 1.5 micron 2 and they occupy 0.212% of the cell surface. The average packing density of intramembrane particles or pits in nexuses is approximately 7,200/micron 2 of nexal surface, indicating that there may be approximately 77,000 intercellular channels in the full complement of nexuses of one muscle cell.     

Ultrastructural changes of the intracellular surfactant pool in a rat model of lung transplantation-related events

Background

Ischemia/reperfusion (I/R) injury, involved in primary graft dysfunction following lung transplantation, leads to inactivation of intra-alveolar surfactant which facilitates injury of the blood-air barrier. The alveolar epithelial type II cells (AE2 cells) synthesize, store and secrete surfactant; thus, an intracellular surfactant pool stored in lamellar bodies (Lb) can be distinguished from the intra-alveolar surfactant pool. The aim of this study was to investigate ultrastructural alterations of the intracellular surfactant pool in a model, mimicking transplantation-related procedures including flush perfusion, cold ischemia and reperfusion combined with mechanical ventilation.

Methods

Using design-based stereology at the light and electron microscopic level, number, surface area and mean volume of AE2 cells as well as number, size and total volume of Lb were determined in a group subjected to transplantation-related procedures including both I/R injury and mechanical ventilation (I/R group) and a control group.

Results

After I/R injury, the mean number of Lb per AE2 cell was significantly reduced compared to the control group, accompanied by a significant increase in the luminal surface area per AE2 cell in the I/R group. This increase in the luminal surface area correlated with the decrease in surface area of Lb per AE2. The number-weighted mean volume of Lb in the I/R group showed a tendency to increase.

Conclusion

We suggest that in this animal model the reduction of the number of Lb per AE2 cell is most likely due to stimulated exocytosis of Lb into the alveolar space. The loss of Lb is partly compensated by an increased size of Lb thus maintaining total volume of Lb per AE2 cell and lung. This mechanism counteracts at least in part the inactivation of the intra-alveolar surfactant.     

In vitro, rapid assembly of gap junctions is induced by cytoskeleton disruptors

We report here rapid assembly of gap junctions in prostate epithelial cells in vitro. Assembly of gap junctions can be induced by incubation at 0 degrees C followed by incubation at 37 degrees C. Colchicine (10(- 5) M, 10(-3) M) and cytochalasin B (25 micrograms/ml), 100 micrograms/ml) at room temperature or at 37 degrees C also induce assembly of gap junctions. Assembly of the junctions proceeds even in the presence of a metabolic inhibitor (dinitrophenol) or of an inhibitor of protein synthesis (cycloheximide). We conclude that assembly of gap junctions can proceed from a pool of pre-existing precursors. The experimental conditions that result in gap-junction assembly involve perturbation of the cytoskeleton. Therefore, we propose that the assembly of gap junctions requires convergent migration of precursor molecules whose positional control in the membrane is released by perturbation of the cytoskeleton. Aggregates of particles and rugosities, whose distribution size and shape is similar to that of gap junctions, may represent intermediate assembly stages. This would indicate that the final stages in the assembly take place only after convergence of the precursor molecules to the junctional site and involve profound conformational changes required for establishment of fully assembled connexons.     

Intercellular junctions and transfer of small molecules in primary vascular endothelial cultures

The ultrastructure of gap and tight junctions and the cell-to-cell transfer of small molecules were studied in primary cultures and freshly isolated sheets of endothelial cells from calf aortae and umbilical veins. In thin sections and in freeze-fracture replicas, the gap and tight junctions in the freshly isolated cells from both sources appeared similar to those found in the intimal endothelium. Most of the interfaces in replicas had complex arrays of multiple gap junctions either intercalated within tight junction networks or interconnected by linear particle strands. The particle density in the center of most gap junctions was noticeably reduced. In confluent monolayers, after 3-5 days in culture, gap and tight junctions were present, although reduced in complexity and apparent extent. Despite the relative simplicity of the junctions, the cell-to-cell transfer of potential changes, dye (Lucifer Yellow CH), and nucleotides was readily detectable in cultures of both endothelial cell types. The extent and rapidity of dye transfer in culture was only slightly less than that in sheets of freshly isolated cells, perhaps reflecting a reduced gap junctional area combined with an increase in cell size in vitro.     

Cell-to-cell communication and myogenesis

Cell-to-cell communication was characterized in prefusion chick embryo myoblast cultures, and it was determined that the prefusion myoblasts can interact via gap junctions, ionic coupling, and metabolic coupling. The biological relevance of this communication was supported by the detection of gap junctions between myoblasts in embryonic muscle. Communication was also examined in fusion-arrested cultures to determine its potential relationship to fusion competency. In cultures that were fusion arrested by treatment with either 1.8 mM ethyleneglycolbis-(beta-aminoethyl ether)N,N'-tetraacetic acid (EGTA), 3.3 X 10(-6) M 5-bromodeoxyuridine (BUdR), or 1 microgram/ml cycloheximide (CHX), both gap junctions and ionic coupling were present. Therefore, it is possible to conclude that cell communication is not a sufficient property by itself, to generate fusion between myob- asts. The potential role of communication in myogenesis is discusssed with respect to these observations.