Prevention of the down-regulation of gap junctional intercellular communication by green tea in the liver of mice fed pentachlorophenol

Much evidence has been documented supporting the hypothesis that the down-regulation of gap junctional intercellular communication (GJIC) is a cellular event underlying the tumor promotion process and that treatment to prevent the down-regulation or to up-regulate GJIC is important in preventing tumor promotion. We explored the potential preventive effects of green tea against the promoting action of pentachlorophenol (PCP) in mouse hepatocarcinogenesis, examining whether drinking green tea prevents the down-regulation of GJIC inhibition in the liver caused by tumorigenic doses of PCP. We used a modified in vivo GJIC assay, the incision loading/dye transfer method. Male B6C3F1 mice were given a green tea infusion for 1 week and then PCP was fed at a dose of 300 or 600 p.p.m. in the diet for the following 2 weeks, along with green tea treatment. A dose-related inhibition of GJIC in the hepatocytes was evident in the mice treated with PCP alone that was associated with a reduction in connexin32 (Cx32) plaques in the plasma membrane and an increase in the cell proliferation index. Drinking green tea significantly protected mice against GJIC inhibition, the reduction in Cx32 and the elevation of the labeling index. These findings suggest that green tea might act as an anti-promoter against PCP-induced mouse hepatocarcinogenesis via its ability to prevent down-regulation of GJIC.

Restoration of gap junctional intercellular communication by caffeic acid phenethyl ester (CAPE) in a ras-transformed rat liver epithelial cell line

Caffeic acid phenethyl ester (CAPE), an active ingredient of honeybee propolis, has been identified as having anti-inflammatory, anti-viral and anti-cancer properties. Since the deficiency of gap junctional intercellular communication (GJIC) has been shown to be a characteristic of most cancer cells, this study was designed to test the hypothesis that the anti-carcinogenic activity of CAPE might be related to its ability to restore GJIC in tumorigenic GJIC-deficient cells (WB-ras2 cells). The results showed that CAPE restored GJIC, phosphorylation of connexin 43 (Cx43) and its normal localization on the plasma membrane in WB-ras2 cells after 3 days at 5 microg/ml concentration. Additionally, CAPE inhibited growth in soft agar and decreased the protein level of p21(ras). The results are consistent with the hypothesis that the anti-cancer mechanism of CAPE may be mediated by its ability to restore GJIC.

Cooperation of bcl-2 and myc in the neoplastic transformation of normal rat liver epithelial cells is related to the down-regulation of gap junction-mediated intercellular communication

The objectives of this study were to isolate several rat liver epithelial cell clones containing the human bcl-2 and myc/bcl-2 genes in order to study their potential cooperative effect on neoplastic transformation and gap junction-mediated intercellular communication (GJIC) and to test the hypothesis that the loss of GJIC leads to tumorigenesis. Using anchorage-independent growth as a surrogate marker for neoplastic transformation, we transfected both normal rat liver epithelial cells, WB-F344, and a WB-F344 cell line overexpressing v-myc with human bcl-2 cDNA. Those cell lines that only expressed v-myc or human bcl-2 were unable to form colonies in soft agar. However, those cell lines that overexpressed both v-myc and human bcl-2 showed varying ability to form colonies in soft agar, which did not correlate with their human bcl-2 expression level. In order to test if there was a correlation between cell line growth in soft agar and the ability to communicate through gap junctions, we performed scrape load dye transfer and fluorescence recovery after photobleaching assays. Our results show that v-myc and human bcl-2 can cooperate in the transformation of normal cells, but the degree to which the cells are transformed is dependent on the cells' ability to communicate through gap junctions.

Lambda-carrageenan-induced inhibition of gap-junctional intercellular communication in rat liver epithelial cells

lambda-Carrageenan, a food additive extracted from red seaweed, is widely used as an emulsifier, stabilizer, or thickener. Previously, it has been shown that carrageenan could play a role in carcinogenesis. However, the mechanism by which it might influence the multimechanism, multistep process of carcinogenesis is not known. Gap-junctional intercellular communication (GJIC) has been associated with maintaining homeostatic regulation of cell proliferation and differentiation. Most cancer cells have dysfunctional GJIC, and many tumor-promoting chemicals, growth factors, and oncogenes can downregulate GJIC. The experiments in this study were designed to test the hypothesis that carrageenan might function as a tumor-promoting chemical by inhibiting GJIC. To test this hypothesis, nontumorigenic rat liver epithelial cells were exposed to carrageenan, and GJIC was measured. Western blot analysis and immunofluorescent staining were used to monitor the phosphorylation and localization of connexin 43. The data revealed inhibition of GJIC by carrageenan similar to that by the well-documented tumor promoter phorbol ester. However, the phosphorylation and localization of connexin 43 were not altered. Although the mechanism by which carrageenan inhibits GJIC is unknown, carrageenan's influence on the carcinogenic process might be via its ability to be a tumor promoter.

Human health consequences of environmentally-modulated gene expression: potential roles of ELF-EMF induced epigenetic versus mutagenic mechanisms of disease

In order to determine if there might be biological and health consequences after exposures to extremely-low frequency electromagnetic fields (ELF-EMF), either experimentally or epidemiologically, mechanistic understanding of the potential means by which any environmental agent can affect cells in a multicellular organism has to be reviewed. The goal of this limited review is to demonstrate that, while the prevailing paradigm of the environmentally-induced acute and chronic diseases involves either cell killing (cytotoxicity) or gene/chromosome mutations (genotoxicity), alteration of the expression of genetic information at the transcriptional (turning genes "on" or "off"), translational (stabilizing or de-stabilizing the genetic message), or posttranslational (altering the gene product or protein) levels has the potential to contribute to various diseases. This latter mechanism, "epigenetic" toxicity, unlike the former two which are irreversible, is characterized by threshold-like action, multiple biochemical pathways and chronic, regular exposures to be effective. Ultimately, epigenetic toxicants affect one of four potential cell states, namely alteration of cell proliferation, cell differentiation, programmed cell death (apoptosis) or adaptive responses of differentiated cells.

Preventive effect of epicatechin and ginsenoside Rb(2) on the inhibition of gap junctional intercellular communication by TPA and H(2)O(2)

The anticarcinogenic effects of epicatechin (EC) and ginsenoside Rb(2) (Rb(2)), which are major components of green tea and Korea ginseng, respectively, were investigated using a model system of gap junctional intercellular communication (GJIC) in WB-F344 rat liver epithelial cells. 12-O-tetradecanoylphorbol-13-acetate (TPA) and hydrogen peroxide, known as cancer promoters, inhibited GJIC in the epithelial cells as determined by the scrape loading/dye transfer assay, fluorescence redistribution assay after photobleaching, and immunofluorescent staining of connexin 43 using a laser confocal microscope. The inhibition of GJIC by TPA and H(2)O(2) was prevented with treatment of Rb(2) or EC. The effect of EC on GJIC was stronger in TPA-treated cells than in H(2)O(2)-treated cells, while the effect of Rb(2) was opposite to that of EC. EC, at the concentration of 27.8 microg/ml, prevented the TPA-induced GJIC inhibition by about 60%. Rb(2,) at the concentration of 277 microg/ml, recovered the H(2)O(2)-induced GJIC inhibition by about 60%. These results suggest that Rb(2) and EC may prevent human cancers by preventing the down-regulation of GJIC during the cancer promotion phase and that the anticancer effect of green tea and Korea ginseng may come from the major respective components, EC and Rb(2).

Induction of gap junctional intercellular communication, connexin43 expression, and subsequent differentiation in human fetal neuronal cells by stimulation of the cyclic AMP pathway

Expression of gap junction proteins and cell-cell communication was studied in the human neural-glial cell line, SVG, as a first step in defining whether the SVG cells could be used as a model system to study the role of gap junctions in neuronal precursor cells. SVG cells were found to express connexin43 protein that co-migrated with WB-F344 rat liver connexin43 and that reacted with connexin43-specific antibodies on Western blots. However, fluorescence recovery after photobleaching analysis of 5,6-carboxyfluorescein-loaded cells failed to show significant dye coupling. Agents that stimulate the adenylyl cyclase/cAMP pathway were used to induce gap junctional intercellular communication in the SVG cultures. A 24-48 h treatment of SVG cells with 5 microM forskolin or 5 microM forskolin + 200 microM 3-isobutyl-1-methylxanthine increased the percentage of dye-coupled cells from 5-65%, using the fluorescent recovery after photobleaching method. The increase in dye coupling induced by forskolin or forskolin + 3-isobutyl-1-methylxanthine was inhibited by octanol, which is known to block gap junction-mediated cell communication. Western blot analysis of total protein extracts revealed the appearance of a higher molecular weight connexin43 protein band after treatment of SVG cells with forskolin or forskolin + 3-isobutyl-1-methylxanthine, that was not observed in vehicle-treated controls. Alkaline phosphatase treatment of total protein extracts from forskolin or forskolin + 3-isobutyl-1-methylxanthine-treated cells reduced the higher molecular weight band to approximately 41,000 the same as observed in the control extracts. The alkaline phosphatase treatment demonstrates that the higher molecular weight band was due to a phosphorylation event stimulated by forskolin or the forskolin + 3-isobutyl-1-methylxanthine combination. In addition, treatment of the SVG cells with the forskolin or forskolin + 3-isobutyl-l-methylxanthine stimulated outgrowth of neurite-like processes from the cell body which immunostained positive for the connexin43 protein as well as protein markers for neurons and oligodendrocytes. We hypothesize that the SVG cells may represent a neuronal progenitor cell population that has the ability to differentiate when exposed to the appropriate signals.

Cell population dynamics (apoptosis, mitosis, and cell-cell communication) during disruption of homeostasis

The sequence of events involved in maintenance of homeostasis must encompass mechanisms within single cells as well as interactions between cells within a population. To investigate the interaction among these inter- and intracellular mechanisms, disruption of homeostasis by serum deprivation was performed in WB-F344, a normal diploid epithelial cell line. Changes in cell-cell communication (gap junction function) at the population level and in individual cells were monitored using the scrape load/dye transfer and fluorescence redistribution after photobleaching assays. Apoptosis and mitosis were measured using internucleosomal DNA ladder assays and fluorescence-activated cell sorting. The results indicate that a common element in early apoptosis and early mitosis is sustained gap junction function. As cell life (mitosis) and cell death (apoptosis) progressed, a common process of change in gap junction function occurred. A transient stimulation of mitosis concomitant with increased apoptosis was also observed during serum deprivation. Gap junctions may play a regulatory role during initiation of these opposite yet equally important mechanisms of maintaining homeostasis. This model system is useful for further studies on the relationships among inter- and intracellular mechanisms of homeostasis.

Gap junctions and the regulation of cellular functions of stem cells during development and differentiation

In multicellular organisms, the role of gap junction intercellular communication (GJIC) in the regulation of cell proliferation, cell differentiation, and apoptosis is becoming increasingly recognized as one of the major cellular functions from the start of the fertilized egg, through normal development of the embryo and fetus, to the sexual maturation of the adult and ultimately to the maintenance of health of the aging adult. Given that the function of this membrane-associated protein channel is to synchronize electrotonic or metabolic functions, differential regulation of function at the transcriptional, translational, and posttranslational levels of a family of highly evolutionarily conserved genes (connexins) needs to be considered. Both inherited mutations and environmental modulation of GJIC could, in principle, affect the function of gap junctions to control cell proliferation, cell differentiation, and apoptosis, thereby leading to a wide variety of pathologies. We review a few techniques used to characterize the ability of stem and progenitor cells to perform GJIC.

Modulation of cell-cell communication in the cause and chemoprevention/chemotherapy of cancer

Chemopreventive or chemotherapeutic agents have been those that either kill cancer cells to a differential degree over the non-cancer cells or those chemicals that either block the induction of tumors in carcinogen-treated animals or retard transplanted tumors in animals. Carcinogenesis is a multi-stage, multi-mechanism process, involving the irreversible alteration of a stem cell ("initiation"), followed by the clonal proliferation of the initiated cell ("promotion"). To develop a strategy for intervention with chemoprevention/chemotherapeutic chemicals, the basic mechanism(s) of carcinogenesis must be understood. Gap junction intercellular communication (GJIC) regulates cell growth, differentiation, apoptosis and adaptive functions of differentiated cells. Normal cells have functional GJIC while cancer cells do not. Tumor promoters and oncogenes inhibit GJIC, while anti-tumor promoter and anti-oncogene drugs can reverse the down-regulation of GJIC. Transfection of gap junction genes (connexins) has been shown to reverse the tumorigenic phenotype. If prevention/treatment of cancer is to occur, prevention of the chronic down regulation of GJIC by tumor promoters in non-tumorigenic but initiated cells or the up-regulation of GJIC in stably down-regulated GJIC in tumor cells must occur to prevent or to treat cancers.

High susceptibility of a human breast epithelial cell type with stem cell characteristics to telomerase activation and immortalization

We have recently characterized two types of normal human breast epithelial cells (HBECs) from reduction mammoplasty. Type I cells express estrogen receptor, luminal epithelial cell markers, and stem cell characteristics (i.e., the ability to differentiate into other cell types and to form budding/ductal structures on Matrigel), whereas Type II cells show basal epithelial cell phenotypes. In this study, we have examined whether Type I HBECs are more susceptible to telomerase activation and immortalization after transfection with SV40 large T-antigen. The results show that both types of cells acquire extended life span [(EL); i.e., bypassing senescence] at a comparable frequency. However, they differ significantly in the ability to become immortal in continuous culture, ie., 11 of 11 Type I EL clones became immortal compared with 1 of 10 Type II EL clones. Both parental Type I and Type II cells as well as their transformed EL clones at early passages [approximately 30 cumulative population doubling level (cpdl)] showed a low level of telomerase activity as measured by the telomeric repeat amplification protocol assay. For all 11 of the Type I EL clones and the single Type II EL clone that became immortal, telomerase activities were invariably activated at middle passages (approximately 60 cpdl) or late passages (approximately 100 cpdl). For the four Type II EL clones randomly selected from the nine Type II clones that did not become immortal, the telomerase activities were found to be further diminished at mid-passage, before the end of the life span. Thus, normal HBECs do have a low level of telomerase activity, and Type I HBECs with stem cell characteristics are more susceptible to telomerase activation and immortalization, a basis on which they may be major target cells for breast carcinogenesis.

Comments on "What is a tumor promoter?"

Comments on Tennant's article: What is a tumor promoter? [Editorial]. Environ Health Perspect 107:A390-A391 (1999).

Up-regulation of gap junctional intercellular communication by hexamethylene bisacetamide in cultured human peritoneal mesothelial cells

Gap junctional intercellular communication (GJIC) is believed to be an important means of regulating cell growth and the malignant potential of tumors. This study examined the effect of hexamethylene bisacetamide (HMBA), a hybrid polar compound and a potent differentiation inducer, on GJIC in cultured primary human peritoneal mesothelial cells. The redistribution of fluorescence after photobleaching was used to detect GJIC. After the incubation of confluent cell cultures with 3 or 6 mM HMBA for 3 and 6 days, GJIC was significantly increased in a concentration-dependent manner compared with cultures without HMBA. Western blotting showed that connexin 43 (Cx43), the major functional protein of gap junctions in peritoneal mesothelial cells, was present in unphosphorylated and phosphorylated forms in control cell cultures. The addition of HMBA to cultures induced a significant increase of total Cx43 protein because of an increase of the phosphorylated forms. Immunofluorescence studies showed that HMBA increased the intensity of fluorescence for Cx43 at cell membrane borders. Quantitative reverse transcription and PCR analysis revealed that the addition of HMBA to cultures resulted in the concentration-dependent up-regulation of mRNA for Cx43. These results indicate that HMBA induces the enhancement of GJIC in peritoneal mesothelial cells through both the up-regulation of Cx43 messages and an increase of post-translational phosphorylation. HMBA may contribute to the maintenance of cellular homeostasis through the up-regulation of GJIC.

The role of oval cells and gap junctional intercellular communication in hepatocarcinogenesis

The role of oval cells, and Gap Junctional Intercellular Communication (GJIC) in hepatic differentiation and neoplasia is controversial. Oval cells accumulate in great number when hepatocyte regeneration is blocked following massive hepatotoxicity or after treatment with some hepatocarcinogens. This suggests oval cells are facultative stem cells or close progeny of liver stem cells that are activated only under specific conditions. Studies with oval cell lines clearly indicate that they can differentiate into hepatocytes and that neoplastic derivatives of oval cells can produce hepatocellular and biliary neoplasms. Because hepatocytes express Cx32 and biliary cells express Cx43, the differentiation of oval cells into hepatocytes or In addition, because Cx32 hemichannels and Cx43 hemichannels cannot form heterotypic patent channels, the type of connexin expressed by the differentiating oval cell will determine whether it communicates with hepatocytes or biliary epithelial cells, respectively. This communication may be necessary for the further differentiation and regulated growth of the differentiating oval cells and impairment of this GJIC may contribute to the formation of hepatocellular and cholangiocellular neoplasms. The type of connexin expressed may also determine the susceptibility of the differentiating oval cells to the various types of rodent liver tumor promoters. Thus, three major points have been developed here. First, Cx32 or Cx43 expression and GJIC with hepatocytes or biliary epithelial cells, respectively, may determine the final differentiated fate of oval cells. Secondly, blocked GJIC may determine whether oval cells progress to hepatocellular or cholangiocellular carcinoma. Lastly, the ability of tumor promoters to block Cx32 or Cx43-mediated GJIC in differentiating oval cells may determine whether these agents promote the formation of hepatocellular or cholangiocellular carcinomas. Thus, GJIC may be the key factor in the differentiation of oval cells and blocked GJIC may promote their neoplastic transformation in a lineage-specific manner. In this chapter, we have outlined several new hypotheses on the role of oval cells and GJIC in hepatocarcinogenesis. We hope that other investigators will consider our ideas, but realize these views will be contentious to many. Our intent, however, was to stimulate discussion and debate, even argument, because truth often arises amidst controversy and may be found in the most peculiar places.

The effect of acrylonitrile on gap junctional intercellular communication in rat astrocytes

Rats chronically exposed to acrylonitrile (ACN) have shown a dose-dependent increase in the incidence of astrocytomas in the brain. The mechanism(s) by which ACN induces cancer in rodents has not been established. ACN does not appear to be directly genotoxic in the brain and thus a nongenotoxic mode of action has been proposed. Inhibition of gap junctional intercellular communication (GJIC) has been shown to be a property of many nongenotoxic carcinogens. The present study examined the effects of ACN on GJIC in a rat astrocyte transformed cell line, DI TNC1 cells (a target cell for ACN carcinogenicity) and primary cultured hepatocytes (a nontarget cell for ACN carcinogenicity). ACN inhibited GJIC in rat astrocytes in a dose-dependent manner. Inhibition of GJIC was observed following 2 h treatment with 0.10 mmol/L and 1.00 mmol/L ACN. However, in primary cultured hepatocytes, ACN exposed did not result in inhibition of GJIC even after 48 h of continued treatment. In the astrocytes, GJIC inhibition plateaued after 4 h of treatment and remained blocked throughout the entire experimental period examined. Inhibition of GJIC in DI TNC1 cells was reversed by removal of ACN from the culture medium after 4 or 24 h of treatment. Cotreatment of astrocytes with vitamin E reduced the effect of ACN-induced inhibition of GJIC. Similarly, inhibition of GJIC was prevented by treatment with 2-oxothiazolidine-4-carboxylic acid (OTC), a precursor of glutathione synthesis. Decreasing cellular glutathione by treatment with buthionine sulfoxamine alone (without ACN) did not affect GJIC in astrocytes. Collectively, these results demonstrate that treatment with ACN caused a selective inhibition of GJIC in rat DI TNC1 astrocytes (the target cell type), but not in rat hepatocytes (a nontarget tissue). Inhibition of GJIC in astrocytes was reversed by treatment with antioxidants and suggests a potential role for oxidative stress in ACN-induced carcinogenesis.

Polycyclic aromatic hydrocarbons with bay-like regions inhibited gap junctional intercellular communication and stimulated MAPK activity

Many polycyclic aromatic hydrocarbons (PAHs) are known carcinogens. A considerable amount of research has been devoted to predicting the genotoxic, tumor-initiating potential of PAHs based on chemical structure. However, information on the correlation of structure with the non-genetoxic, epigenetic events of tumor promotion is sparse. PAHs containing a bay or bay-like region were shown to be potent inhibitors of gap-junctional intercellular communication (GJIC), an epigenetic event involved in the removal of an initiated cell from growth suppression. We tested the epigenetic toxicity of PAHs containing bay-like regions by comparing the effects of methylated vs. chlorinated isomers of anthracene on the temporal activation of mitogen-activated protein kinase (MAPK) and the regulation of GJIC. Specifically, we used anthracene, 1-methylanthracene, 2-methylanthracene, 9-methylanthracene, 9,10-dimethylanthracene, 1-chloroanthracene, 2-chloroanthracene, and 9-chloroanthracene. We determined the effect of these compounds on GJIC and on the activation of extracellular receptor kinase (ERK 1 and 2), a MAPK, in F344 rat liver epithelial cells. Results showed that bay or bay-like regions, formed by either chlorine or a methyl group, reversibly inhibited GJIC at the same doses, time, and time of recovery, whereas the linear-planar isomers had no effect on GJIC. Similarly, the GJIC-inhibitory isomers also induced the phosphorylation of ERK 1 and ERK 2, while the non-inhibitory isomers had no effect on the activation of these MAPKs. MAPK activation occurred 10-20 min after the inhibition of GJIC, which indicates that MAPK is not involved in the initial regulation of GJIC; instead altered GJIC may be affecting MAPK activation. The present study revealed that there are structural determinants of PAHs, which clearly affect epigenetic events known to be involved in the non-genetoxic steps of tumor promotion. These events are the release of a cell from growth suppression involving the reduction of GJIC, followed by the activation of intracellular mitogenic events.

Laser scanning analysis of cell-cell communication in cultured human prostate tumor cells

OBJECTIVE

To investigate gap-junctional intercellular communication (GJIC) in LNCaP and DU145 human prostate cancer cells.

STUDY DESIGN

Normal rat liver F344 (WB1) cells were used as positive controls. Functional GJIC was inspected using either the scrape-loading/dye transfer (SL/DT) method or fluorescence recovery after photobleaching (FRAP) analysis. In the former, GJIC activity was expressed as a measure of the extent of diffusion of Lucifer Yellow after cell monolayers were scraped using a surgical blade and exposed to dye for a few minutes at room temperature. In the latter, cells were incubated for 15 minutes at 37 degrees C with 5,6-carboxyfluorescein diacetate dye and the dye transfer visualized by photobleaching individual cells with a 488-nm laser and monitoring the recovery of fluorescence using a laser cytometer.

RESULTS

The preliminary results obtained indicate that neither LNCaP nor DU145 cells have functional GJIC, while, as expected, WB1 cells show unimpaired GJIC activity. Equivalent results were consistently obtained using either SL/DT or the FRAP approach. However, using FRAP analysis, DU145 cells only showed weak recovery of fluorescence after a total observation interval of 15 minutes.

CONCLUSION

The present data, though preliminary, suggest that disruption of GJIC may play a role in development of malignancy in the human prostate.

Epigenetic toxicology as toxicant-induced changes in intracellular signalling leading to altered gap junctional intercellular communication

Communication mechanisms [extra-, intra-, and gap junctional inter-cellular communication (GJIC)] control, from the fertilized egg, through embryogenesis to maturity and aging, whether a cell proliferates, differentiates, dies by apoptosis, or if differentiated, adaptively responds to endogenous and exogenous signals. From the egg to the 100 trillion cells in the human body, health is maintained when these communication processes between stem, progenitor and terminally differentiated cells are integrated. Each cell choice involves 'epigenetic' mechanisms to alter the expression of genes at the transcriptional, translational or post-translational levels. Disruption of the communication mechanisms can be either adaptive or maladaptive. Modulation of extra-cellular communication, either by genetic imbalances of growth factors, hormones or neurotransmitters or by environmental, exogenous chemicals can trigger signal transducing intra-cellular mechanisms. These intra-cellular signals can modulate gene expression at the transcriptional, translational or post-translational levels while also modulating GJIC. Untimely or chronic disruption of GJIC during embryonic or fetal development could lead to embryonic lethality or teratogenesis. By modulation of GJIC, homeostatic control of cell growth, differentiation or apoptosis could lead to specific diseases, such as neurological, cardiovascular, reproductive or endocrinological dysfunction. Chemical modulation or oncogene down-regulation of GJIC in initiated tissues has been shown to lead to tumor promotion. Genetic syndromes carrying a mutated gap junction gene, together with some transgenic and knock-out gap junction gene mice, provide evidence for the importance of this organelle found only in metazoans. Implications for 'thresholds' to toxicants and for risk assessment are evident.

Inhibition of gap junctional intercellular communication by perfluorinated fatty acids is dependent on the chain length of the fluorinated tail

Perfluorinated fatty acids (PFFAs), such as perfluorooctanoic acid (PFOA) and perfluorodecanoic acid (PFDA), are known peroxisome proliferators and hepatocarcinogens. A causal link between an increase in the oxidative stress by peroxisomes and tumor promotion has been proposed to explain the hepatocarcinogenicity of PFOA and PFDA. However, the down-regulation of gap junctional intercellular communication (GJIC) has also been linked to the tumor-promoting properties of many carcinogens. Therefore, the effect of PFFAs on GJIC in WB-rat liver epithelial cells was determined. The chain length of the PFFAs tested for an effect on GJIC ranged from 2 to 10, 16 and 18 carbons. Carbon lengths of 7 to 10 inhibited GJIC in a dose-response fashion, whereas carbon lengths of 2 to 5, 16 and 18 did not appreciably inhibit GJIC. Inhibition occurred within 15 min and was reversible, with total recovery from inhibition occurring within 30 min after the removal of the compound from the growth medium. This short time of inhibition suggests that GJIC was modified at the post-translational level. Also, this short time period was not long enough for peroxisome proliferation. The post-translational modification of the gap junction proteins was not a consequence of altered phosphorylation as determined by Western blot analysis. Perfluorooctanesulfonic acid also inhibited GJIC in a dose-response fashion similar to PFDA, indicating that the determining factor of inhibition was probably the fluorinated tail, which required 7-10 carbons. Our results suggest that PFFAs could potentially act as hepatocarcinogens at the level of gap junctions in addition to or instead of through peroxisome proliferation.

Inhibitory effect of pentachlorophenol on gap junctional intercellular communication in rat liver epithelial cells in vitro

To understand the initiating/promoting actions of pentachlorophenol (PCP), a non-mutagenic hepatocarcinogen, and its metabolite, tetrachlorohydroquinone (TCHQ), we investigated the effects of each chemical on gap junctional intercellular communication (GJIC) in rat liver epithelial cells (WB cells) by the scrape-loading and dye transfer method. After treatment with PCP, the GJIC was initially inhibited at 4 h but was restored in 6-8 h, followed by a second phase of inhibition between 16 and 24 h. Both the first and second inhibitions were concentration-dependent and were restored by 2-4 h after removal of PCP. The phosphorylation state of connexin 43 (CX43) and its localization on the plasma membrane were unchanged up to 24 h after treatment; however, this was accompanied by a decrease in the CX43 protein level. No inhibitory effect was apparent on the GJIC of cells treated with TCHQ. These results suggest that PCP may play a critical role of promoting activity via non-mutagenic mechanisms.

Modulated gap junctional intercellular communication as a biomarker of PAH epigenetic toxicity: structure-function relationship

Cancer is a multistage multimechanism process involving gene and/or chromosomal mutations (genotoxic events), altered gene expression at the transcriptional, translational, and post-translational levels (epigenetic events), and altered cell survival (proliferation and apoptosis or necrosis), resulting in an imbalance of the organism's homeostasis. Maintenance of the organism's homeostasis depends on the intricate coordination of genetic and metabolic events between cells via extracellular and intercellular communication mechanisms. The release of a quiescent cell, whether normal or premalignant, from the suppressing effects of communicating neighbors requires the downregulation of intercellular communication via gap junctions, thereby allowing factors that control intracellular events to exceed a critical mass necessary for the cell to either proliferate or undergo apoptosis. Therefore, determining the role an environmental pollutant must play in the multistage carcinogenic process includes mechanisms of epigenetic toxicity such as the effects of a compound on gap junctional intercellular communication (GJIC). A classic example of a class of compounds in which determination of carcinogenicity focused on genotoxic events and ignored epigenetic events is polycyclic aromatic hydrocarbons (PAHs). The study of structure-activity relationships of PAHs has focused exclusively on the genotoxic and tumor-initiating properties of the compound. We report on the structure-activity relationships of two- to four-ringed PAHs on GJIC in a rat liver epithelial cell line. PAHs containing a bay or baylike region were more potent inhibitors of GJIC than the linear PAHs that do not contain these regions. These are some of the first studies of determine the epigenetic toxicity of PAHs at the epigenetic level.

Cooperative effects of v-myc and c-Ha-ras oncogenes on gap junctional intercellular communication and tumorigenicity in rat liver epithelial cells

The objective of this study was to isolate and partially characterize several rat liver epithelial cell clones containing myc, ras and myc/ras oncogenes in order to study their roles in apoptosis and to test the hypothesis that gap junctional intercellular communication is necessary for apoptosis in solid tissues and that the loss of junctional communication leads to tumorigenesis. The co-transfection of the myc and ras oncogenes in the normal rat liver epithelial cell line (WB-F344) resulted in a loss of functional channels and normal growth regulation; cell-cell communication was significantly decreased and tumorigenicity determined in adult male F344 rats was induced. We examined cell growth properties, gap junctional intercellular communication (GJIC), using the scrape-loading-dye transfer and fluorescence-redistribution-after-photobleaching assays, and tumorigenicity in a series of normal and v-myc-, c-Ha-ras- and v-myc/c-Ha-ras-transfected WB-F344 cell lines. The c-Ha-ras- and the v-myc/c-Ha-ras-transduced cell lines appeared distinctly different from the other lines, having spindle-shaped morphology, shorter generation time and contact insensitivity. On the other hand, the normal WB-F344 cell line and the v-myc-transduced cell line showed excellent GJIC. Moreover, the c-Ha-ras-transduced cell lines displayed decreasing levels of GJIC associated with their increasing tumorigenicity. The v-myc/c-Ha-ras-transformed cell lines showed the lowest levels of GJIC and were also the most tumorigenic. These findings suggest that the reduction of GJIC in c-Ha-ras- and v-myc/c-Ha-ras-transformed WB-F344 cells is linked to their tumorigenic potential. These cell lines should provide valuable tools to study the role of GJIC in apoptosis during tumorigenesis.

Preferential cytotoxicity of cells transduced with cytosine deaminase compared to bystander cells after treatment with 5-flucytosine

In vitro experiments from our laboratory and others have suggested that herpes simplex virus thymidine kinase (HSV-TK)/ganciclovir (GCV) gene therapy depends on gap junctional intercellular communication (GJIC) to produce a strong bystander effect. Furthermore, we have shown that cells transduced with HSV-TK can be protected from GCV-mediated toxicity by GJIC with bystander cells. We wished to determine whether GJIC affected either the bystander or protective effect of the cytosine deaminase (CD)/5-flucytosine (5-FC) gene therapy approach, in which CD converts 5-FC to 5-fluorouracil (5-FU). To test this, we designed a coculture system using communication-competent WB rat hepatocytes and a noncommunicating subclone (aB1), which were transduced with CD and with antibiotic resistance genes so that we could independently determine the survival of the CD-containing or bystander cells. We found that, compared to the HSV-TK/GCV strategy, bystander killing resulting from treatment with CD/5-FC does not depend on GJIC. However, our most striking finding was that both communication-competent and -incompetent CD-transduced cells were preferentially killed, by a factor of up to 500, compared to bystander cells. The lesser dependence of the CD/5-FC system on GJIC, combined with the finding that most cancer cells lack the capacity for GJIC, suggest that the CD/5-FC system may be superior to the HSV-TK/GCV approach for gene therapy. However, the premature death of the CD-transduced 5-FU "factory" suggests that other strategies may be necessary to produce a sufficient quantity of 5-FU for a duration long enough to produce permanent tumor regression.

Neoplastic phenotype of gap-junctional intercellular communication-deficient WB rat liver epithelial cells and its reversal by forced expression of connexin 32

Gap-junctional intercellular communication (GJIC) is involved in cellular growth control and is often reduced in neoplastic cells. In this study, four GJIC-deficient rat liver epithelial cell lines (WB-aB1, WB-bA2, WB-cD6, and WB-dA2) were examined for altered growth and tumorigenicity in comparison with their GJIC-competent parental cell line, WB-F344. WB-aB1 cells were also forced to express connexin 32 (Cx32) by transduction with a Cx32 cDNA retroviral expression vector to help determine whether the restoration of GJIC could reverse their neoplastic phenotype. WB-aB1 and WB-bA2 cells had faster population doubling times (PDTs) and higher saturation densities (SDs) than did WB-F344 cells. In contrast, the growth of WB-cD6 and WB-dA2 cells was not significantly different from that of WB-F344 cells. WB-aB1 and WB-bA2 cells formed tumors in male F344 rats, but WB-cD6 and WB-dA2 cells did not. After transduction of WB-aB1 cells with Cx32, four stable clones (WB-a/32-3, -8, -9, and -10) were isolated that had GJIC levels of 5.2%, 44.5%, 69.8%, and 90.5%, respectively. The growth of poorly coupled clones 3 and 8 was similar to that of parental WB-aB1 cells, but the growth of well-coupled clones 9 and 10 was similar to that of WB-F344 cells. The tumorigenicity of WB-a/32-9 and WB-a/32-10 cells was also significantly lower than that of WB-aB1 cells. Our results suggest that reduced GJIC contributes to neoplastic transformation of WB cells, that additional changes are necessary, and that restoration of GJIC by forced Cx32 protein expression can suppress the neoplastic phenotype of these cells.