Determination of gap junctional intercellular communication by capacitance measurements

Electrical coupling between cells is usually measured using the double patch-clamp technique with cell pairs. Here, a single patch-clamp technique that is not limited to cell pairs is described to determine electrical coupling between cells. Capacitance measurements in clusters of normal rat kidney (NRK) fibroblasts were used to study intercellular communication. In the whole-cell patch-clamp configuration capacitive transients were evoked by applying small voltage pulses. Total membrane capacitance was calculated from these capacitive transients after determination of access resistance, membrane conductance, and the decay constant of the transients, or alternatively by integrating the current transient. We found that in clusters of one to ten cells, membrane capacitance increased linearly with cell number, showing that the cells are electrically coupled. Membrane conductance of the cluster of cells also increased, as expected for cells that are well coupled. In subconfluent and confluent cultures, high membrane conductances together with large capacitive transients were observed, indicative of electrical coupling. Capacitance could only be determined qualitatively under these conditions, due to space clamp problems. In the presence of the gap junctional inhibitors halothane, heptanol or octanol, capacitance of all clusters of cells fell to single-cell levels, showing a complete uncoupling of the cells. The tumour promoter 12-O-tetradecanoylphor-bol-13-acetate (TPA) also uncoupled the cells completely, within 10 min. We conclude that capacitance measurements can provide a useful tool to study changes in intercellular communication in clusters of cells.     

HSV-2 disrupts gap junctional intercellular communication between mammalian cells in vitro

Infection by herpes simplex virus-2 (HSV-2) disrupts both dye and electrical coupling in Vero (African green monkey kidney) cell cultures. Vero cells in vitro were iontophoretically injected with the fluorescent dye Lucifer yellow CH, the spread of which revealed that cells throughout the confluent sheet shared open gap junctions. However, 24 h after infection with the virus (but before cells became rounded), dye always remained only within the target cell. Intracellular electrophysiological measurements of ionic coupling revealed a 0.4 coupling coefficient for adjacent cells in uninfected control cultures. By 3 h following infection significant down-regulation of gap junctions had begun, preceding by many hours any signs of infection visible with the light microscope. Measurements between adjacent cells 3 h post-infection, a period when HSV-2 gene expression is known to be at a maximum, yielded an average coupling coefficient of 0.35. By 6 h post-infection (a period of known viral DNA replication) average coupling coefficient for adjacent cells was 0.25, while by 24 h post-infection the average fill still further to <0.08. A coupling coefficient of <0.08 suggests that infection by HSV-2 completely disabled the gap junctions.     

Alpha-synuclein overexpression reduces gap junctional intercellular communication in dopaminergic neuroblastoma cells

Alpha-synuclein has been implicated in the pathology of certain neurodegenerative diseases, including Parkinson disease (PD) and dementia with Lewy bodies (LBs). Overexpression of human alpha-synuclein in neuronal cells reduces cell viability, but the precise cellular and molecular mechanisms remain poorly understood. Gap junctional intercellular communication (GJIC) is thought to be essential for maintaining cellular homeostasis and growth control. In the present study, the effect of alpha-synuclein overexpression on GJIC in human dopaminergic neuroblastoma SH-SY5Y cells was investigated. Cells overexpressing wild-type alpha-synuclein were more vulnerable to hydrogen peroxide and 6-hydroxydopamine. GJIC was decreased in cells overexpressing alpha-synuclein. In addition, alpha-synuclein binds directly to connexin-32 (Cx32). As such, the post-translational modification of Cx32 was enhanced in cells overexpressing alpha-synuclein. These findings suggest that alpha-synuclein can modulate GJIC in a dopaminergic neuronal cell line through specific binding to Cx32.     

Age-dependent carcinogenic susceptibility in rat liver is related to potential of gap junctional intercellular communication

Connexin 32 (Cx32) is a major gap junction protein in the liver. The authors previously demonstrated that transgenic rats carrying a dominant negative mutant of Cx32 (Cx32ΔTg) have much decreased capacity for gap junctional intercellular communication (GJIC) and increased susceptibility to diethylnitrosamine (DEN)-induced hepatocarcinogenesis as compared to littermate wild-type (wt) rats. To evaluate the age-dependent susceptibility to DEN-induced hepatocarcinogenesis and alteration of GJIC function, male Cx32ΔTg and wt rats at 10, 30, or 85 weeks old were given a single intraperitoneal administration of DEN (40 mg/rat) and sacrificed 12 weeks later. The number and area of glutathione S-transferase placental form (GST-P)-positive preneoplastic foci were significantly increased in the liver of 10- and 30-wk-old Cx32ΔTg rats compared with age-matched wt. However, in the 85-wk-old rats, both Cx32ΔTg and wt rats had similarly large number and area of GST-P-positive foci, and the difference was not significant. Interestingly, function of hepatic GJIC was reduced and protein and mRNA expression of Cx32 were decreased with aging in wt rats. These results suggest that a decline of hepatic intercellular communication through gap junction results in increased susceptibility to DEN-induced hepatocarcinogenesis in aged rats.     

Hydroxy apatite microspheres enhance gap junctional intercellular communication of human osteoblasts composed of connexin 43 and 45

The aseptic loosening of artificial joints with associated periprosthetic bone resorption may be partly due to the suppression of osteoblast function to form new bone by wear debris from the joint. To assess the effect of wear debris on osteoblasts, effects of model wear debris on gap junctional intercellular communication (GJIC) of normal human osteoblasts were estimated. The GJIC activity of the osteoblasts after a 1-day incubation with the microspheres was similar to that of normal osteoblasts. However, hydroxy apatite particles, which have been reported to enhance the differentiation of osteoblasts in contact with them, enhanced the GJIC function of the osteoblasts. From RT-PCR studies, not only connexin 43 but also connexin 45 is suggested to play a role in the GJIC of the osteoblasts in an early stage of coculture with the microspheres, although it is still unclear how these connexins work and are regulated in the GJIC and differentiation. However, this study suggests that there is a relationship between the early levels of GJIC and the differentiation of the cells. Therefore, estimating the effect of biomaterials, even in the microsphere form, on the GJIC of model cells, with which the biomaterials may be in contact in vivo, can provide important information about their biocompatibility.     

Chemical, oncogene and growth factor inhibition gap junctional intercellular communication: an integrative hypothesis of carcinogenesis

Most, if not all, cancer cells have some dysfunction in gap-junction-mediated intercellular communication, either because of defects in cell adhesion or inability to have functional gap junctional communication. In addition, most, if not all, tumor-promoting chemicals and conditions down-regulate gap junction function, while some antitumor-promoting chemicals can up-regulate gap junctional communication. Several oncogenes are associated with down-regulation of gap junction function and several hormone and growth regulators, known to be tumor promoters, are also able to down-regulate gap junction function. On the other hand, some tumor suppressor genes have been linked to the up-regulation of gap junctions. Based on these observations, it is hypothesized that, if a progenitor cell is unable to perform gap junctional intercellular communication, normal growth control and cell differentiation would not be possible, thereby favoring the development of malignant neoplasia.     

Oxidative-dependent integration of signal transduction with intercellular gap junctional communication in the control of gene expression

Research on oxidative stress focused primarily on determining how reactive oxygen species (ROS) damage cells by indiscriminate reactions with their macromolecular machinery, particularly lipids, proteins, and DNA. However, many chronic diseases are not always a consequence of tissue necrosis, DNA, or protein damage, but rather to altered gene expression. Gene expression is highly regulated by the coordination of cell signaling systems that maintain tissue homeostasis. Therefore, much research has shifted to the understanding of how ROS reversibly control gene expression through cell signaling mechanisms. However, most research has focused on redox regulation of signal transduction within a cell, but we introduce a more comprehensive-systems biology approach to understanding oxidative signaling that includes gap junctional intercellular communication, which plays a role in coordinating gene expression between cells of a tissue needed to maintain tissue homeostasis. We propose a hypothesis that gap junctions are critical in modulating the levels of second messengers, such as low molecular weight reactive oxygen, needed in the transduction of an external signal to the nucleus in the expression of genes. Thus, any comprehensive-systems biology approach to understanding oxidative signaling must also include gap junctions, in which aberrant gap junctions have been clearly implicated in many human diseases.     

Gap junctional intercellular communication in hypoxia-ischemia-induced neuronal injury

Brain hypoxia-ischemia is a relatively common and serious problem in neonates and in adults. Its consequences include long-term histological and behavioral changes and reduction in seizure threshold. Gap junction intercellular communication is pivotal in the spread of hypoxia-ischemia related injury and in mediating its long-term effects. This review provides a comprehensive and critical review of hypoxia-ischemia and hypoxia in the brain and the potential role of gap junctions in the spread of the neuronal injury induced by these insults. It also presents the effects of hypoxia-ischemia and of hypoxia on the state of gap junctions in vitro and in vivo. Understanding the mechanisms involved in gap junction-mediated neuronal injury due to hypoxia will lead to the development of novel therapeutic strategies.     

Re-establishment of gap junctional intercellular communication (GJIC) between human endometrial carcinomas by prostaglandin E2

Reduced intercellular communication via gap junctions is correlated with carcinogenesis. Gap junctional intercellular communication (GJIC), between normal human endometrial epithelial cells is enhanced when endometrial stromal cells were present in culture. This enhancement of GJIC between normal epithelial cells also occurs when they are cultured in medium conditioned by stromal cells. This observation indicated that a soluble compound (or compounds) produced and secreted by stromal cells mediates GJIC in epithelial cells. Previous studies have shown that endometrial stromal cells release prostaglandin E₂ (PGE₂) and prostaglandin F_2α (PGF_2α) under physiological conditions. When we evaluated the response of normal endometrial epithelial cells to various concentrations of PGE_2, we found enhanced GJIC with 1 nM PGE₂. This is a smaller increase in GJIC than that induced by medium conditioned by stromal cells. When the extracellular concentration of PGE₂ was measured after incubation with stromal cells, it was found to be similar to the concentrations showing maximal GJIC between the normal epithelial cells. When indomethacin was used to inhibit prostaglandin synthesis by stromal cells, GJIC was reduced but not eliminated between normal endometrial epithelial cells. These observations suggest that although PGE₂ secreted by stromal cells is an important mediator of GJIC between the epithelial cells, it is not the sole mediator. Transformed endometrial epithelial cells did not demonstrate GJIC even in the presence of stromal cells. However, we were able to re-establish GJIC in transformed epithelial cells when we added PGE₂ to the cells. Our findings show that PGE₂ may serve as an intercellular mediator between stromal and epithelial cells that regulates GJIC in normal and malignant epithelial cells. This suggests that maintenance of GJIC by preserving or replacing PGE₂ secretion by endometrial stromal cells may have the potential to suppress carcinogenesis in endometrial epithelial cells.     

Transgenic disruption of gap junctional intercellular communication enhances early but not late stage hepatocarcinogenesis in the rat

Much experimental evidence supports the conclusion that loss of gap junctional intercellular communication (GJIC) contributes to carcinogenesis. Transgenic rats featuring a dominant negative mutant of the connexin 32 gene under albumin promoter control (Cx32Delta Tg-High and Cx32Delta Tg-Low lines, respectively with high and low copy numbers of the transgene) have disrupted GJIC, as demonstrated by scrape dye-transfer assay in vivo as previous report by Asamoto et al. (2004). In the present study, we investigated the susceptibility of these transgenic rats to a single intraperitoneal administration of diethylnitrosamine (DEN), and found a significant increase in preneoplastic glutathione S-transferase placental form (GST-P) positive lesions in the livers of Cx32Delta Tg-High but not Cx32Delta Tg-Low rats. However, incidences of adenomas and hepatocellular carcinomas were not elevated at the end of the experiment (52 weeks). In addition, we investigated the promotional effect of phenobarbital (PB) on Cx32Delta Tg-High rats pretreated with DEN and found enhanced formation of GST-P positive lesions, in contrast to the lack of promoting effects reported for Cx32 deficient mice. The results indicate that although both high and low expression of the dominant negative connexin 32 mutant gene in our rats is able to inhibit gap junctional capacity, only high expression is effective at enhancing susceptibility to early stage DEN-induced liver carcinogenesis.     

Enhancement of gap junctional intercellular communication of normal human dermal fibroblasts cultured on polystyrene dishes grafted with poly-N-isopropylacrylamide

Technology developed to allow recovery of cells without enzyme treatment, involving a dish grafted with a thermoreactive polymer gel of poly-N-isopropylacrylamide (PIPAAm), was found to significantly enhance gap junctional intercellular communication (GJIC) in normal human dermal fibroblasts (NHDF cells). NHDF cells were cultured for 4 days on PIPAAm-grafted dishes irradiated with various doses of electron beams, and GJIC was assayed by the scrape-loading dye transfer method. The area of dye transfer was greater in the PIPAAm-grafted dishes than in the control culture dishes, indicating that the PIPAAm-grafted dishes enhanced the GJIC of NHDF cells. Connexin-43 (Cx43) expression was analyzed because Cx43 is considered to be a main component of the gap junctional channel. PIPAAm-grafted dishes irradiated with 100, 250, or 500 kGy of electron beams showed significantly enhanced expression of Cx43-NP, Cx43-P1, and especially Cx43-P2. Enhanced expression of Cx43-P2, a functional transmembrane protein, may be related to the promotion of GJIC. These results suggest that the PIPAAm-grafted dish not only enables the enzyme-free recovery of a cell monolayer for use in the construction of a three-dimensional artificial tissue, but also significantly contributes to the enhancement of GJIC, which may partly promote tissue strength on the surface of the PIPAAm-grafted dish.     

Regulation of hematopoiesis by gap junction-mediated intercellular communication

Gap junctions are intercellular channels formed by individual structural units known as connexins (Cx) that allow the intercellular exchange of small molecules between cells. The presence of Cx protein in bone marrow and thymic stromal cells and the demonstration that these cells are functionally coupled have led to the hypothesis that groups of stromal cells in the bone marrow and thymus form a functional syncytium through which their hematopoietic support capacity is coordinated. The validity of this hypothesis was recently tested in a newly developed strain of mice in which the gene encoding Cx43, the principal Cx expressed in hematopoietic tissues, was disrupted. Studies of myelopoiesis and lymphopoiesis in these Cx43-deficient mice revealed that expression of Cx43 in the bone marrow and thymus is critically important during periods of active hematopoiesis, such as during embryogenesis and after recovery from cytoablative treatments. The clinical implications of these observations, as well as issues that remain to be addressed to understand the mechanism(s) by which gap junctions regulate hematopoiesis, are addressed.     

肝癌细胞中connexin32、connexin43的表达及其与间隙连接通讯功能的相关性

目的：研究肝细胞肝癌和正常肝细胞间隙连接蛋白connexin32（Cx32)、connexin43(Cx43）的表达，及其对间隙连接通讯功能（GJIC）的影响。方法：应用应用培养及流式细胞分析技术（FCM），研究肝癌细胞系HHCC、SMMC－7721和正常肝系QZG细胞中Cx32和Cx43的表达。结合Ｌucifer Yellow划痕标记荧光传输技术（SLDT），检测上述细胞的间隙连接通讯功能。结果：流式细胞仪分析证实，Cx32蛋白在肝癌细胞系HHCC、SMMC－7721和正常肝细胞系QZG细胞中表达的阳性率分别为1．9％、0．7％和99．0％；Cx43蛋白在HHCC、SMMC－7721和QZG细胞中表达的阳性率分别为7．3％、26．5％和99．1％。SLDT检测发现肝癌细胞HHCC，SMMC－7721的间隙连接通讯功能较正常肝细胞QZG明显减弱。结论；Cx3、Cx43蛋白在正常肝细胞中具有较高水平的表达，在肝癌细胞中表达水平显著降低，肝癌细胞的间隙连接通讯功能较正常肝细胞亦明显减弱。Cx32、Cx43表达调控异常引起的间隙连接通讯障碍可能与肝癌的发生密切相关。     

The inhibitory mechanism of gap junctional intercellular communication induced by polyethylene and the restorative effects by surface modification with various proteins

Gap junctional intercellular communication (GJIC) is a function that plays an important role in maintaining cell and tissue homeostasis and in regulating cell growth, development, and differentiation. Change in this function of V79 fibroblasts cultured on polyethylene films modified with albumin or collagen was estimated using fluorescence redistribution after photobleaching (FRAP) analysis. The GJIC function of V79 cells on nontreated polyethylene was strongly inhibited in comparison with those on a glass coverslip. When the cells were culture on collagen-immobilized polyethylene film, this function was recovered to about 70% of the cells cultured on the coverslip. However, albumin immobilization did not recover the function as much as collagen immobilization. Western blotting analysis and immunostaining of connexin 43, which is a major protein constituting gap junctional channel of these cells, revealed its abnormal expression and distribution in the cells on nontreated polyethylene, whereas its almost normal distribution was observed in the cells on collagen-immobilized polyethylene. This abnormal expression and distribution of connexin 43 induced by the surface of polyethylene may be ascribed to a strong inhibition of GJIC of V79 fibroblasts.     

Regulation of gap junctional communication in CFTR-expressing pancreatic epithelial cells

Gap junction channels provide a pathway for coordinating multicellular activity. To evaluate the contribution of cell-to-cell communication in the function of epithelial cells, we studied the strength of gap junctional coupling in pancreatic acinar and duct cells exposed to agents known to elevate the intracellular concentration of Ca(2+) or cAMP. In acinar cells, we observed that maximal concentrations of acetylcholine evoked a biphasic increase in cytosolic Ca(2+) mobilization. The second sustained phase, which depends on Ca(2+) influx into the cell, was associated with the rapid closure of gap junction channels. In duct cells, stimulation of CFTR-dependent Cl(-) currents with cAMP analogs markedly increased gap junctional conductance in pairs of cells. Interestingly, cAMP had no effect on intercellular communication between cells harboring the DeltaF508 mutation of CFTR. An abnormal pattern of gap junctional coupling may contribute to the altered functions of tissues affected in cystic fibrosis.     

De novo reestablishment of gap junctional intercellular communications during reprogramming to pluripotency and differentiation

Gap junctional intercellular communication (GJIC) has been described in embryonic stem cells (ESCs) and various somatic cells. GJIC has been implicated in the regulation of cell proliferation, self-renewal, and differentiation. Recently, a new type of pluripotent stem cells was generated by direct reprogramming of somatic cells. Here, for the first time, we show that during reprogramming events GJIC is re-established upon reaching complete reprogramming. The opposite process of cell differentiation from the pluripotent state leads to the disruption of GJIC between pluripotent and differentiated cell subsets. However, GJIC is subsequently re-established de novo within each differentiated cell type in vitro, forming communication compartments within a histotype. Our results provide the important evidence that reestablisment of functional gap junctions to the level similar to human ESCs is an additional physiological characteristic of somatic cell reprogramming to the pluripotent state and differentiation to the specific cell type.     

Seroprevalence of herpes simplex virus-type 2 in African-American college women.

This study examines the relationship between sexual behaviors and prevalence of herpes simplex virus-type 2 (HSV-2) among African-American college women. Subjects (n = 138) were recruited randomly from a state university to participate in a study regarding sexual attitudes and behaviors and to have their blood drawn for type-specific HSV seroprevalence. Sera were analyzed for 96 college women with a mean age of 21 years. Of the 96 women, 29 (30%) were HSV-2 seropositive. The results of this study revealed that a history of sexually transmitted disease was predictive of HSV-2 infection. Number of lifetime partners, however, was not related to HSV-2 seropositivity. Four (31%) of the 13 women who reported only one lifetime partner were seropositive. These findings indicate that for young African-American college women, the risk of being infected with HSV-2 is high even with only one lifetime partner. Behavioral strategies focused on decreasing the number of sexual partners are not likely to be sufficient in preventing the spread of HSV-2 infection among young African-American women. The development and use of alternative approaches to prevent the spread of HSV-2 among young African Americans should be considered.     

Reduction of herpes simplex virus-type 2 plaque formation by urea.

The effect of urea on plaque formation by herpes simplex virus type 2 (HSV-2) was examined in two systems at concentrations within or approximating the range found in human urine. Approximately 7--10 mg urea/ml, added 2, 4, or 8 hours after infection, reduced plaque formation by 50% in African green monkey kidney cells. The growth of this system was affected slightly by continuous treatment with urea at 7--10 mg/ml. Plaque formation was reduced in the monkey kidney system, albeit diminishingly, even after addition of urea 12 hours after infection. In the human lung fibroblast system, urea at 10 mg/ml reduced plaque numbers by 50% but depressed the growth of cells completely.