Determination of bisphenol A and bisphenol S concentrations and assessment of estrogen- and anti-androgen-like activities in thermal paper receipts from Brazil, France, and Spain

Bisphenol A (BPA) is a high-production-volume chemical with endocrine disrupting properties commonly used as color developer in thermal paper. Concerns about the potential hazards of human BPA exposure have led to the increasing utilization of alternatives such as bisphenol S (BPS) and bisphenol F (BPF). This study was designed to assess: (i) BPA, BPS, and BPF concentrations in 112 thermal paper receipts from Brazil, France, and Spain by liquid chromatography coupled to mass spectrometry (LC-MS); and (ii) hormone-like activities of these receipts using two receptor-specific bioassays, the E-Screen for (anti-)estrogenicity and PALM luciferase assay for (anti-)androgenicity. BPA was present in 95.3% of receipts from Spain, 90.9% of those from Brazil, and 51.1% of those from France at concentrations up to 20.27 mg/g of paper. Only two samples from Brazil, two from Spain, and ten from France had a BPS concentration ranging from 6.46 to 13.29 mg/g; no BPA or BPS was detected in 27.7% of French samples. No BPF was detected in any receipt. Estrogenic activity was observed in all samples from Brazil and Spain and in 74.5% of those from France. Anti-androgenic activity was observed in > 90% of samples from Brazil and Spain and in 53.2% of those from France. Only 25.5% of French samples were negative for both estrogenic and anti-androgenic activity. Estrogenic and anti-androgenic activities per gram of paper were up to 1.411 µM estradiol (E₂) equivalent units (E₂eq) and up to 359.5 mM procymidone equivalent units (Proceq), respectively. BPA but not BPS concentrations were positively correlated with both estrogenic and anti-androgenic activities. BPA still dominates the thermal paper market in Brazil and Spain, and BPS appears to be one of the main alternatives in France. There is an urgent need to evaluate the safety of alternatives proposed to replace BPA as developer in thermal printing. The large proportion of samples with hormonal activity calls for the adoption of preventive measures.

Correction: Exposure to 1.8 GHz electromagnetic fields affects morphology, DNA-related Raman spectra and mitochondrial functions in human lympho-monocytes

[This corrects the article DOI: 10.1371/journal.pone.0192894.].

Exposure to 1.8 GHz electromagnetic fields affects morphology, DNA-related Raman spectra and mitochondrial functions in human lympho-monocytes

Blood is a fluid connective tissue of human body, where it plays vital functions for the nutrition, defense and well-being of the organism. When circulating in peripheral districts, it is exposed to some physical stresses coming from outside the human body, as electromagnetic fields (EMFs) which can cross the skin. Such fields may interact with biomolecules possibly inducing non thermal-mediated biological effects at the cellular level. In this study, the occurrence of biochemical/biological modifications in human peripheral blood lympho-monocytes exposed in a reverberation chamber for times ranging from 1 to 20 h to EMFs at 1.8 GHz frequency and 200 V/m electric field strength was investigated. Morphological analysis of adherent cells unveiled, in some of these, appearance of an enlarged and deformed shape after EMFs exposure. Raman spectra of the nuclear compartment of cells exposed to EMFs revealed the onset of biochemical modifications, mainly consisting in the reduction of the DNA backbone-linked vibrational modes. Respirometric measurements of mitochondrial activity in intact lympho-monocytes resulted in increase of the resting oxygen consumption rate after 20 h of exposure, which was coupled to a significant increase of the FoF1-ATP synthase-related oxygen consumption. Notably, at lower time-intervals of EMFs exposure (i.e. 5 and 12 h) a large increase of the proton leak-related respiration was observed which, however, recovered at control levels after 20 h exposure. Confocal microscopy analysis of the mitochondrial membrane potential supported the respiratory activities whereas no significant variations in the mitochondrial mass/morphology was observed in EMFs-exposed lympho-monocytes. Finally, altered redox homeostasis was shown in EMFs-exposed lympho-monocytes, which progressed differently in nucleated cellular subsets. This results suggest the occurrence of adaptive mechanisms put in action, likely via redox signaling, to compensate for early impairments of the oxidative phosphorylation system caused by exposure to EMFs. Overall the data presented warn for health safety of people involved in long-term exposure to electromagnetic fields, although further studies are required to pinpoint the leukocyte cellular subset(s) selectively targeted by the EMFs action and the mechanisms by which it is achieved.

To breathe or not to breathe: the haematopoietic stem/progenitor cells dilemma

Adult haematopoietic stem/progenitor cells (HSPCs) constitute the lifespan reserve for the generation of all the cellular lineages in the blood. Although massive progress in identifying the cluster of master genes controlling self-renewal and multipotency has been achieved in the past decade, some aspects of the physiology of HSPCs still need to be clarified. In particular, there is growing interest in the metabolic profile of HSPCs in view of their emerging role as determinants of cell fate. Indeed, stem cells and progenitors have distinct metabolic profiles, and the transition from stem to progenitor cell corresponds to a critical metabolic change, from glycolysis to oxidative phosphorylation. In this review, we summarize evidence, reported in the literature and provided by our group, highlighting the peculiar ability of HSPCs to adapt their mitochondrial oxidative/bioenergetic metabolism to survive in the hypoxic microenvironment of the endoblastic niche and to exploit redox signalling in controlling the balance between quiescence versus active cycling and differentiation. Especial prominence is given to the interplay between hypoxia inducible factor-1, globins and NADPH oxidases in managing the mitochondrial dioxygen-related metabolism and biogenesis in HSPCs under different ambient conditions. A mechanistic model is proposed whereby 'mitochondrial differentiation' is a prerequisite in uncommitted stem cells, paving the way for growth/differentiation factor-dependent processes. Advancing the understanding of stem cell metabolism will, hopefully, help to (i) improve efforts to maintain, expand and manipulate HSPCs ex vivo and realize their potential therapeutic benefits in regenerative medicine; (ii) reprogramme somatic cells to generate stem cells; and (iii) eliminate, selectively, malignant stem cells.

LINKED ARTICLES

This article is part of a themed section on Emerging Therapeutic Aspects in Oncology. To view the other articles in this section visit http://dx.doi.org/10.1111/bph.2013.169.issue-8.

HCV infection induces mitochondrial bioenergetic unbalance: causes and effects

Cells infected by the hepatitis C virus (HCV) are characterized by endoplasmic reticulum stress, deregulation of the calcium homeostasis and unbalance of the oxido-reduction state. In this context, mitochondrial dysfunction proved to be involved and is thought to contribute to the outcome of the HCV-related disease. Here, we propose a temporal sequence of events in the HCV-infected cell whereby the primary alteration consists of a release of Ca(2+) from the endoplasmic reticulum, followed by uptake into mitochondria. This causes successive mitochondrial alterations comprising generation of reactive oxygen and nitrogen species and impairment of the oxidative phosphorylation. A progressive adaptive response results in an enhancement of the glycolytic metabolism sustained by up-regulation of the hypoxia inducible factor. Pathogenetic implications of the model are discussed.

Coexistence of mutations in PINK1 and mitochondrial DNA in early onset parkinsonism

AIMS AND BACKGROUND

Various genes have been identified for monogenic disorders resembling Parkinson's disease. The products of some of these genes are associated with mitochondria and have been implicated in cellular protection against oxidative damage. In the present study we analysed fibroblasts from a patient carrying the homozygous mutation p.W437X in the PTEN-induced kinase 1 (PINK1), which manifested a very early onset parkinsonism.

RESULTS

Patient's fibroblasts did not show variation in the mtDNA copy number or in the expression of the oxidative phosphorylation complexes. Sequence analysis of the patient's mtDNA presented two new missense mutations in the ND5 (m.12397A>G, p.T21A) and ND6 (m. 14319T>C, p.N119D) genes coding for two subunits of complex I. The two mutations were homoplasmic in both the patient and the patient's mother. Patient's fibroblasts resulted in enhanced constitutive production of the superoxide anion radical that was abrogated by inhibitor of the complex I. Moreover enzyme kinetic analysis of the NADH:ubiquinone oxidoreductase showed changes in the substrates affinity.

CONCLUSION

To our knowledge, this is the first report showing co-segregation of a Parkinson's disease related nuclear gene mutation with mtDNA mutation(s). Our observation might shed light on the clinical heterogeneity of the hereditary cases of Parkinson's disease, highlighting the hitherto unappreciated impact of coexisting mtDNA mutations in determining the development and the clinical course of the disease.

Topological organization of NADPH-oxidase in haematopoietic stem cell membrane: preliminary study by fluorescence near-field optical microscopy

The aim of this study was to characterize the local distribution and organization of the plasma membrane NADPH-oxidase (NOX) in human haematopoietic stem cell (HSC) by means of the fluorescence scanning near-field optical microscopy approach. The presence of NOX in haematopoietic stem cells is thought to have a functional role as O(2) sensor and/or as low-level reactive oxygen species (ROS) producer to be used as redox messenger for controlling cell growth and differentiation. Given the harmful potential of ROS, a fine-tuning of NOX activity is needed. The high resolution imaging of haematopoietic stem cell membrane obtained in this study combined with the immunodetection of NOX indicates for this the occurrence of a cluster-organized structure. These membrane 'rafts'-like micro-compartments may constitute localized protein aggregates whereby the assembly/activation of the NOX components are functionally integrated with upstream factors constituting signal-transduction platforms.

[Promoter effect induced by HgCl2 by studying the intercellular communication]

This work aims at assessing at molecular level the effect caused by the HgCl9 intercellular communication inhibition at non-cytotoxic doses. On the basis of our previous experiences, we exposed the human keratinocytes (HUKE) at 10 nM of HgCl2 for 24 hours Next, we estimated: a) the protein expression of connexines Cx43, Cx32 and Cx26 by western blotting; b) the amount of mRNA corresponding to the three connexines by semi-quantitative RT-PCR; and c) the production of reactive oxygen species in HgCl2 treated cells using a specific probe, i.e. DCF in confocal microscopy. Our study demonstrated a higher expression of the transcripts for Cx26, Cx32, Cx43, and a higher amount of proteins Cx43, Cx32 and Cx26, compared to the negative controls. Furthermore, we studied the effect of HgCl2 on the ROS production in keratinocytes, by the analysis in confocal microscopy carried out with the DCF, fit for marking the oxygen free radicals. In HgCl2 treated keratinocytes we obtained an increase of the ROS production compared to controls; and further the mitochondrions resulted the place of ROS production. The results of this study suggest that non-cytotoxic HgCl2 concentrations, might cause an unbalancing of the redox cellular state (ROS increased level), and we can assume that the activation of a redox signalling involves the inactivation of gap junctions.

Mitochondrial dysfunction in hepatitis C virus infection

The mechanisms of liver injury in chronic hepatitis C virus (HCV) infection are poorly understood though HCV induces a state of hepatic oxidative stress that is more pronounced than that present in many other inflammatory diseases. This mini-review will focus on recent findings revealing an unexpected role of mitochondria in providing a central role in the innate immunity and in addition will illustrate the application of stably transfected human-derived cell lines, inducibly expressing the entire HCV open reading frame for in vitro studies on mitochondria. Results obtained by a comparative analysis of the respiratory chain complexes activities along with mitochondrial morpho-functional confocal microscopy imaging show a detrimental effect of HCV proteins on the cell oxidative metabolism with specific inhibition of complex I activity, decrease of mtDeltaPsi, increased production of reactive oxygen species. A possible de-regulation of calcium recycling between the endoplasmic reticulum and the mitochondrial network is discussed to provide new insights in the pathogenesis of hepatitis C.

Regulation by the cAMP cascade of oxygen free radical balance in mammalian cells

A study is presented of the effect of the cAMP cascade on oxygen metabolism in mammalian cell cultures. Serum-starvation of the cell cultures resulted in depression of the forward NADH-ubiquinone oxidoreductase activity of complex I, decreased content of glutathione, and enhancement of the cellular level of H2O2. Depressed transcription of cytosolic Cu/Zn-SOD 1, mitochondrial glutathione peroxidase and catalase was also observed. Activation of the cAMP cascade reversed the depression of the activity of complex I and the accumulation of H2O2. The effect of cAMP involved the cAMP-dependent protein kinase.

The cryoglobulins: an overview

Cryoglobulins are cold-precipitable immunoglobulins associated with a number of infectious, autoimmune and neoplastic disorders. Their appearance along with rheumatoid factor (RF) can be considered a normal event in the clearance of immune complexes and rarely produces any symptoms. The association between hepatitis C virus (HCV) and mixed cryoglobulinemia (MC) has been rendered evident since the recognition of serological markers of HCV infection. There is thus every reason to suppose that direct or indirect involvement of B cells on the part of the HCV results in their persistent stimulation, clonal expansion and release of molecules with RF activity. The formation of RF/IgG immune complexes is the key pathogenetic mechanism. The close correlation between HCV infection and MC also throws new light on the interpretation of autoimmune phenomena in the course of viral infection and on the close link between autoimmune diseases and lymphoproliferative disorders. The higher risk of non-Hodgkin's lymphoma (NHL) displayed by HCV positive subjects, especially in the Mediterranean basin, suggests that the HCV's chronic lymphoproliferative drive may progress towards frank lymphoid neoplasia. The presence of MC does not represent an in situ or 'occult' NHL, because recent evidences indicate that none of the clones interpreted as predominant displays the molecular features of a true neoplastic process. The cryoglobulinemic syndrome is probably the consequence of pathogenic noxae that act upon the immune system of a host in which regulation of the peripheral T cell response appears to be in some way altered.

Molecular characterization of B cell clonal expansions in the liver of chronically hepatitis C virus-infected patients

PCR DNA amplification of IgH genes was performed on liver biopsy samples of 42 unselected hepatitis C virus (HCV)-positive patients. Genotypic analysis and signal amplification by branched DNA were used to characterize and quantitate HCV RNA genomic sequences. Intraportal lymphoid follicle-like structures were isolated from surrounding hepatocytes by microdissection technique. IgH VDJ PCR products were cloned and sequenced. IgH VDJ gene rearrangements were detected in the liver of 26 (62%) patients. Unequivocal monoclonal or oligoclonal patterns of B cell expansions were found in 14 (33.3%) and 12 (28.6%) patients, respectively. Patients with intrahepatic B cell monoclonal expansions showed liver HCV RNA levels higher than those with oligoclonal or polyclonal features (1106.4 +/- 593.5 vs 677.3 +/- 424.3 vs 406.2 +/- 354.3 pg HCV RNA/g tissue; p = 0.048 and p = 0.001, respectively). Although a single dominant band was obtained with total DNA, characterization of DNA recovered from intraportal inflammatory aggregates resulted in the detection of multiple IgH VDJ gene rearrangements, pointing to an oligoclonal pattern of lymphoproliferation. Cloning and sequence analyses showed that B cell clonalities were differently distributed in adjacent portal tracts of the same liver area. In addition, HCV RNA genomic sequences could be consistently amplified from each of the portal inflammatory aggregates examined. These data support the concept that in chronic HCV infection the intrahepatic B cell repertoire is frequently clonally restricted and that HCV may have a direct role in sustaining in situ B cell proliferation.

The lymphoid system in hepatitis C virus infection: autoimmunity, mixed cryoglobulinemia, and Overt B-cell malignancy

Like other hepatotropic viruses, hepatitis C virus (HCV) shares the property of inducing hepatocellular damage, possibly through induction of immune mechanisms that lead to hepatocellular necrosis. After infection of hepatocytes, and possibly other cells, humoral and cellular responses occur aimed at prevention of virus dissemination and elimination of infected cells. The early activated mechanisms include production of nonspecific and specific antibodies that represent the first-line of defense against invading foreign pathogens. As a consequence, circulating immune complexes are promptly formed, and antigen uptake and processing by specialized cells are enhanced. A major fraction of circulating immunoglobulins (Igs) are part of the spectrum of the so-called natural antibodies, which include anti-idiotypic antibodies and molecules with rheumatoid factor (RF) activity. They mainly belong to the IgM class, are polyclonal, and have no intrinsic pathogenetic potential. In 20-30% of HCV-infected patients, RFs share characteristics of high affinity molecules, are monoclonal in nature, and result in the production of cold-precipitating immune complexes and mixed cryoglobulinemia. It has been shown that anti-idiotypic antibodies and polyclonal and monoclonal RF molecules have the same cross-reactive idiotype, called WA, suggesting that their production is highly restricted. This strongly indicates that they arise from stimulation with the same antigen, likely HCV. It has also been speculated that B-1 (CD5+) and B-2 (CD5-) B-cell subsets, which use a limited number of VH germline genes, underlie the production of low-affinity polyclonal and high-affinity monoclonal antibodies, respectively. The persistent production of monoclonal RF molecules implies the existence of a further mechanism capable of restricting the reactivity and reflects a distinct selection of a cell population that can be maintained throughout life because they are continuously exposed to antigen pressure. Either polyclonal or monoclonal profiles of B-cell expansion are demonstrable in the liver of most HCV-infected patients. The occurrence of B-cell clonal expansion is strictly related to intrahepatic production of RF molecules, and this suggests that liver is a microenvironment, other than lymphoid tissue, in which a germinal centerlike reaction is induced. The frequent detection of oligoclonal B-cell expansion may, indeed, represent a key pathobiologic feature that sustains nonmalignant B-cell lymphoproliferation. The preferential expansion of one clone would in turn lead to a monoclonal pattern that could favor stochastic oncogenic events. It can be postulated that HCV is the stimulus not only for the apparent benign lymphoproliferative process underlying a wide spectrum of clinical features, but also for the progression to frank lymphoid malignancy in a subgroup of patients. Current data indicate a higher prevalence of overt B-cell non-Hodgkin's lymphoma in HCV-infected patients, especially in some geographic areas.

Osseointegrated Implant for Single-Tooth Replacement: A Retrospective Multicenter Study on Routine Use in Private Practice

BACKGROUND

Implant restorations first started with total edentulism. Later, the scientific community gave its approval for restorations in partial edentulism, and only recently some studies confirmed the validity of the treatment for single-tooth replacement.

PURPOSE

The purpose of the study was to evaluate implant survival and prosthesis stability of Brånemark implants (titanium screws) when used routinely for single-tooth replacement in all regions.

MATERIALS AND METHODS

Two hundred and fourteen patients received 252 implants for single-tooth replacement over a period of 8 years at five private clinics in Italy. The patients were treated in accordance with the protocol for Brånemark implants, and the data gathered have been analyzed according to established evaluation methods.

RESULTS

During the observation period, 10 failures were recorded and 229 restorations were carried out. After the first year of loading, the total cumulative survival rate (CSR) was 96%, which then remained stable over the study time. The most frequent complication was loosening of the abutment screws (n = 22), amounting to 35% of all of the complications. This problem was related mainly to earlier types of abutments, whereas the more recent design, CeraOne abutment, showed a low frequency of screw loosening.

CONCLUSIONS

The high survival rate, which is similar to that presented for prospective multicenter studies for single-tooth restorations with Brånemark implants, led to the conclusion that the use of this treatment modality is a reliable treatment for routine use in all oral regions.

Differential effect of subcellular localization of communication impairing gap junction protein connexin43 on tumor cell growth in vivo

There is a large body of evidence suggesting the connexin gap junction proteins appear to act as tumor suppressors, and their tumor inhibitory effect is usually attributed to their main function of cell coupling through gap junctions. However, some cancer cells (e.g. the rat bladder carcinoma BC31 cell line) are cell-cell communication proficient. Using specific site-directed mutagenesis in the third membrane-spanning (3M) domain of connexin43 (Cx43), we abolished the intrinsic gap junction intercellular communication (GJIC) in BC31 cells either by closing the gap junctional channels or by disruption of the transport of connexin complexes to the lateral membrane. Clones of BC31 cells transfected with a dominant negative Cx43 mutant giving rise to gap junctional channels, permeable only for a small tracer (neurobiotin), displayed accelerated growth rate in vivo, showing the critical role of selective gap junctional permeability in the regulation of cell growth in vivo. The use of other dominant-negative mutants of Cx43 also suggested that the effect of impaired communication on the tumorigenicity of cancer cells depends on the subcellular location of connexin. Inhibition of intrinsic GJIC in BC31 cells by sequestering of Cx protein inside the cytoplasm, due to expression of dominant-negative transport-deficient Cx43 mutants, did not significantly enhance the growth of transfectants in nude mice, but occasionally slightly retarded it. In contrast, augmentation of GJIC in BC31 cells by forced expression of wild-type Cx43, or a communication-silent mutant, fully suppressed tumorigenicity of these cells. Overall, these results show that cell coupling is a strong, but not the sole, mechanism by which Cx suppresses growth of tumorigenic cells in vivo; a GJIC-independent activity of Cx proteins should be considered as another strong tumor-suppressive factor.

Growth control of 3T3 fibroblast cell lines established from connexin 43-deficient mice

Connexins are considered to be involved in cell growth control, on the basis of studies mainly with tumorigenic cells. To study the role of connexin genes in normal cell growth control, we established fibroblast cell lines from connexin 43 (Cx43)-deficient mice and characterized their growth. Embryonic fibroblasts from wild-type mice (Cx43+/+) and those with heterozygous (Cx43+/-) and homozygous (Cx43+/-) deficiencies of the Cx43 gene were cultured and passaged by a 3T3 protocol (every 3 d, 3 x 10(5) cells/60-mm dish). All cell lines showed a growth crisis during passages 6-15 and then started to grow well. All cell lines grew at similar rates under the 3T3 protocol, but Cx43-deficient (Cx43-/-) cell lines tended to grow faster when they were plated at 10(5) cells per dish. Cx43-/- cells did not express Cx43 and showed little gap-junctional intercellular communication (GJIC), confirming that Cx43 is the major connexin responsible for GJIC of these fibroblasts. While all Cx43+/+ and Cx43+/- cell lines expressed Cx43 protein, some of them showed very little GJIC. Those cell lines with high GJIC showed higher levels of the P2 form of Cx43 protein, and more Cx43 was localized in the plasma membrane than in cell lines with lower GJIC levels. We investigated effects of serum concentration on cell growth in these cell lines. Although different cell lines responded differentially to these agents, there was no clear relationship between Cx43 expression and cell growth stimulation by them. This suggests that Cx43 expression alone is not a strong regulator of mouse fibroblast growth.

Long-term connexin-mediated bystander effect in highly tumorigenic human cells in vivo in herpes simplex virus thymidine kinase/ganciclovir gene therapy

Gene therapy via the herpes simplex virus thymidine kinase (tk) gene and ganciclovir (GCV) treatment eliminates experimental tumors. In this approach, cells expressing the tk gene (tk+) and neighboring tumor cells which do not express the gene are killed. We have demonstrated this bystander effect is enhanced in vitro by gap junctional intercellular communication (GJIC). In order to extend our in vitro results into in vivo situations, we injected into nude mice different ratios of tk+/tk- HeLa cells, either lacking or transfected with connexin43 (Cx43), a gene coding for a gap junction protein. When GCV was administered before tumors were palpable, fewer animals developed tumors, even after a longer period, if the injected cells were mixtures of Cx43(+)-tk+ and Cx43(+)-tk- while tumor growth was not prevented with mixtures of HeLa cells not expressing Cx43, i.e. Cx43(+)-tk+/Cx43(-)-tk-. When GCV was given after the appearance of tumors, the size of the tumors from Cx43- cells was 30% reduced for 3 weeks if 50% of the injected cells were tk+. However, for cells expressing Cx43, the tumor size was 66% reduced if 10% of the cells were tk+. Such a reduction demonstrates a long-term bystander effect which is dependent on Cx43 expression.

A tumor suppressor gene, Cx26, also mediates the bystander effect in HeLa cells

The connexin 26 (Cx26) gene suppresses the growth of HeLa cells in vitro and in vivo. We explored the possibility that the Cx26 gene not only suppresses growth but can also mediate the bystander effect that is observed in some gene therapy. In gene therapy mediated by the herpes simplex virus thymidine kinase, the toxicity of ganciclovir affects not only the cells transduced with the gene but also affects neighboring tumor cells; it has been suggested that gap junctional intercellular communication (GJIC) may play a role in such a bystander effect. HeLa cells expressing the Cx26 gene (Cx26+) or not expressing the Cx26 gene were transfected with the herpes simplex virus thymidine kinase (tk+) gene, producing Cx26(-)-tk-, Cx26(-)-tk+, Cx26+-tk-, and Cx26+-tk+ cells. By making different kinds of cocultures of these cells, we observed a clear bystander killing effect, assessed by the neutral red toxicity test, in the coculture of Cx26+-tk-/Cx26+-tk+ cells. The bystander effect was markedly prevented by a long-term inhibitor of GJIC, 18-alpha-glycyrrhetinic acid, demonstrating that a major part of the bystander effect seen occurred through Cx-mediated GJIC. These data suggest the possibility of using of Cxs as both tumor suppressor genes and as diffusers of ganciclovir toxicity in therapeutic approaches.

Isolation and characterization of e3B1, an eps8 binding protein that regulates cell growth

Eps8, a substrate of receptor tyrosine kinases, is an SH3 domain containing protein that plays an important role in mitogenic signaling. To determine the cellular function of eps8, we used the SH3 domain of eps8 to screen a human fibroblast M426 expression library and identified, a full-length cDNA clone of 3.2 kb. We designated this clone e3B1 for eps8 SH3 domain binding protein 1. Northern analysis revealed that expression of e3B1 mRNA was ubiquitous in human tissues. The e3B1 gene encodes a SH3 domain containing protein. We show that anti-e3B1 antibodies detect three cytosolic protein species of 65, 68 and 72 kDa in cell lysate isolated from asynchronously growing NIH3T3 cells. E3B1 binds to the SH3 domain of eps8 and Abl in vitro. We also demonstrated that e3B1 associates with eps8 in vivo. Phosphatase digestion and phosphoamino acid analysis revealed that p65e3B1 is a phosphoserine containing protein and p72e3B1 and p68e3B1 are hyperserine-phosphorylated form of p65e3B1. We further determined that the p65e3B1 was the most abundant in serum-starved NIH/EGFR cells. Time course studies initiated by the addition of epidermal growth factor (EGF) revealed that the p72e3B1 started to accumulate at 4 h, peaked at 8 h and remained high until 24 h. Finally, we demonstrate that NIH/EGFR fibroblasts overexpressing e3B1 grow more slowly relative to matched controls.

Effect of Helicobacter pylori lipopolysaccharide (LPS) and LPS derivatives on the production of tissue factor and plasminogen activator inhibitor type 2 by human blood mononuclear cells

Different Helicobacter pylori lipopolysaccharides (LPSs) and LPS-derivatives were studied for their ability to induce the production of procoagulant activity (PCA) and plasminogen activator inhibitor type 2 (PAI-2) by human blood mononuclear leukocytes. Smooth (S)- and rough (R)-form LPSs caused a similar increase in cell-associated PCA (tissue factor) and PAI-2 antigen release. Both effects were potentiated by fetal bovine serum via a CD14-mediated mechanism. The potency of H. pylori LPSs was approximately 1000-fold lower than that of Salmonella typhimurium LPSs. When H. pylori LPS derivatives (dephosphorylated R-LPS, S-lipid A, and R-lipid A) were used, PCA and PAI-2 production were markedly reduced. R-lipid A was approximately 4-fold less efficient than S-lipid A. These findings suggest that the induction of monocyte tissue factor and PAI-2 by H. pylori LPS is influenced by the lipid A structure and modulated by the core oligosaccharide and that phosphate groups present in both regions may play an important role.

Hemodynamic evaluation of 23 mm Pericarbon and 23 mm Hancock II bioprostheses in the aortic position at mid-term follow up

BACKGROUND AND AIMS OF THE STUDY

Pericardial xenografts were introduced for clinical use following evidence of their good hemodynamic characteristics in laboratory tests; however, their efficiency in comparison with porcine valves has not been fully assessed. Pericarbon, a new type of pericardial bioprosthesis, has been recently developed in order to provide better hemodynamic performances and longer durability than such bioprostheses currently in use.

METHODS

Fifteen patients operated on for aortic valve replacement with a 23 mm Pericarbon and a sex- and age-matched group operated on with a 23 mm Hancock II bioprosthesis were submitted to echocardiographic and Doppler examinations in order to compare the hemodynamic performance of the two devices.

RESULTS

Peak transvalvular gradients for Pericarbon and Hancock II bioprostheses (38.9 +/- 13.0 vs. 33.9 +/- 13.0 mmHg; p = 0.294) and mean transvalvular gradients (24.7 +/- 7.6 vs. 20.8 +/- 9.9 mmHg, p = 0.24) showed no significant difference. However, the indexed effective prosthetic dynamic area was significantly larger for the Hancock II device (0.73 +/- 0.14 vs. 0.62 +/- 0.13 cm2; p < 0.05).

CONCLUSIONS

When installed as 23 mm pericardial bioprostheses, the Pericarbon device appears not to demonstrate superior hemodynamic performance to that of the Hancock II; however, additional studies are needed to provide a definitive conclusion.

Bystander killing of cancer cells by herpes simplex virus thymidine kinase gene is mediated by connexins

In gene therapy to treat cancer, typically only a fraction of the tumor cells can be successfully transfected with a gene. However, in the case of brain tumor therapy with the thymidine kinase gene from herpes simplex virus (HSV-tk), not only the cells transfected with the gene but also neighboring others can be killed in the presence of ganciclovir. Such a "bystander" effect is reminiscent of our previous observation that the effect of certain therapeutic agents may be enhanced by their diffusion through gap junctional intercellular communication (GJIC). Herein, we present the evidence, from in vitro studies, that gap junctions could indeed be responsible for such a gene therapy bystander effect. We used HeLa cells for this purpose, since they show very little, if any, ability to communicate through gap junctions. When HeLa cells were transfected with HSV-tk gene and cocultured with nontransfected cells, only HSV-tk-transfected HeLa cells (tk+) were killed by ganciclovir. However, when HeLa cells transfected with a gene encoding for the gap junction protein, connexin 43 (Cx43), were used, not only tk+ cells, but also tk- cells were killed, presumably due to the transfer, via Cx43-mediated GJIC, of toxic ganciclovir molecules phosphorylated by HSV-tk to the tk- cells. Such bystander effect was not observed when tk+ and tk- cells were cocultured without direct cell-cell contact between those two types of cells. Thus, our results give strong evidence that the bystander effect seen in HSV-tk gene therapy may be due to Cx-mediated GJIC.

Negative growth control of HeLa cells by connexin genes: connexin species specificity

In order to examine whether different connexin gene species exert different degrees of tumor-suppressing activity, we characterized growth characteristics of a gap junction-deficient human cancer cell line, HeLa cells, before and after transfection with cDNA for three different connexins, connexin (cx) 26, cx 40, and cx 43. All transfected cell lines (3 clones transfected with the cx 26 gene, 2 clones with cx 40, and 1 with cx 43) showed establishment of gap junctional intercellular communication (GJIC). Two of the cx 26-transfected clones showed significantly slower growth compared with the parental HeLa cells. When transfectants were grown in soft agar, the three cx 26-transfected clones grew much less than the other transfectants and parent HeLa cells. When injected into nude mice, the two cx 26 clones which exhibited the highest amount of cx 26 transcript induced almost no tumors, whereas other transfectants, including the cx 26 clone which exhibited the lowest amount of cx 26 transcript, were tumorigenic. Among transfectants of various connexin genes, there was no good inverse correlation between their GJIC and tumorigenicity. GJIC levels were significantly higher in tumors induced in nude mice by clone cx 26 A and E transfectants. These results suggest that all of the connexin genes examined could induce recovery of GJIC of HeLa cells, but only the cx 26 gene exerts strong negative growth control on HeLa cells; thus, this connexin gene may have different functions from other connexin genes.

Possible molecular mechanism of loss of homologous and heterologous gap junctional intercellular communication in rat liver epithelial cell lines

We have previously characterized a series of rat liver epithelial cell lines that exhibit levels of gap junctional intercellular communication (GJIC) which are inversely related to their levels of expression of transformed phenotypes. Cells of the non-tumorigenic line do not communicate with their tumorigenic counterparts. We have examined the molecular mechanisms involved in this loss of homologous and heterologous GJIC, employing a non-tumorigenic cell line, IAR 20, and a tumorigenic cell line, IAR 6-1. While both cell lines expressed a transcript coding for the gap junction protein, connexin 43 (cx 43), and similar levels of cx 43 protein, they exhibited different phosphorylation states of this protein, revealed by Western analysis. Immunohistochemical analysis showed that the non-tumorigenic IAR 20 cell line, but not the tumorigenic IAR 6-1 cells, was able to incorporate cx 43 gap junction plaques extensively into their plasma membranes. When IAR 20 and IAR 6-1 cells were co-cultured, cx 43 proteins were abundant in IAR 20 cells but IAR 20/IAR 20 cell boundaries were cx 43-positive, while IAR 20/IAR 6-1 boundaries were negative. The different phosphorylation state of cx 43 may partially explain the low GJIC of the IAR 6-1 cells and inability to communicate with their non-tumorigenic counterparts, but other mechanisms such as cell-cell recognition processes may also be involved.

Expression and function of connexin in normal and transformed human keratinocytes in culture

We have studied the gap junctional intercellular communication (GJIC) of immortalized and tumourigenic human keratinocyte cell lines and of a spontaneously immortalized non-tumourigenic and a highly differentiating keratinocyte cell line (HaCaT) as the control. In homologous cultures, the GJIC capacity of five squamous cell carcinoma-derived cell lines was 1-27% that of the HaCaT cells. Ha-ras-transfected HaCaT cells with tumourigenic potential and an SV40 DNA-immortalized cell line had markedly reduced GJIC capacities. Northern analysis and immunohistochemistry showed that connexin (Cx) 43 is the major gap junction protein expressed in the communicating cells. They do not express Cx 26 or 32. The low or absent communication observed in certain cell lines was due in some to a lack of Cx 43 gene expression, but in others to aberrant localization of the gap junction protein. GJIC of these cell lines, as well as that of primary normal human epidermal keratinocytes, was susceptible to 12-O-tetradecanoylphorbol-13-acetate-mediated inhibition. Moreover, GJIC of HaCaT cells and their tumourigenic derivatives is Ca(2+)-dependent. These results, when compared with those previously obtained for mouse keratinocyte cell lines, reveal that GJIC of human keratinocytes was correlated to the degree of differentiation and is controlled in a similar way to that of murine keratinocytes. Aberrant GJIC seems to be a common feature of human and murine skin carcinogenesis.

Gap junctional intercellular communication of primary and asbestos-associated malignant human mesothelial cells

We examined gap junctional intercellular communication (GJIC) of primary human mesothelial cells and cell lines of asbestos-associated human pleural mesotheliomas, and the effect of asbestos and other mineral fibres on these cells. In homologous cultures, the GJIC capacity of six out of seven tumour cell lines was markedly less than for primary mesothelial cells. This defect in GJIC appeared not to be at the expression level of mRNA and protein of the gene encoding the 43 kDa gap junction protein. In heterologous cocultures of tumour cells and primary mesothelial cells, however, 80-90% of the tumour cell/normal cell contacts were functional. Exposure of primary mesothelial cells to TPA, a phorbol ester tumour promoter, resulted in marked inhibition of GJIC, being an action common to numerous tumour promoters. Such an effect though was not observed with the carcinogenic mesothelioma-inducing mineral fibres chrysotile and amosite, neither with glass wool. These results suggest that a permanent defect in GJIC capacity is a common feature of human mesothelioma cells, but how mineral fibres are involved in the process of mesotheliomagenesis is still unclear.

Gap junctional intercellular communication and connexin expression in normal and SV 40-transformed human liver cells in vitro

The gap junction intercellular communication (GJIC) capacity of two normal human liver-derived epithelial cell strains and their SV40 large T oncogene-transformed counterparts was examined. In homologous cultures the GJIC capacity of the transformed cells was considerably less than the parental cells. In heterologous cultures, transformed cells appeared to be able to form GJIC channels with normal cells. Only non-transformed cells expressed connexin (cx) 43 gene and cx 26 or cx 32 transcripts were not detectable in any cell strains tested. When GJIC was assayed in the presence of the phorbol ester tumour promoter 12-O-tetradecanoylphorbol-13- acetate (TPA), all four strains showed a marked sensitivity to TPA in inhibitory activity at 1-10 ng/ml. In contrast to a rat liver epithelial cell line, this effect of TPA did not appear to become refractory even after 24 h exposure. These studies demonstrate that GJIC of human liver cells in culture can be decreased by viral oncogene and tumour promoter action. Such disturbance may be an important component of the carcinogenic activity of these agents.

Lack of correlation between the gap junctional communication capacity of human colon cancer cell lines and expression of the DCC gene, a homologue of a cell adhesion molecule (N-CAM)

In many human colorectal cancers, the DCC gene encoding for a homologue of the neural cell adhesion molecule (N-CAM) is found to be deleted. Previous work suggested that gap junctional intercellular communication (GJIC) might play an important role in carcinogenesis and could be regulated by the expression of cell adhesion molecules such as E-cadherin in some epithelial cell systems. In order to examine whether the deletion of the putative cell adhesion molecule DCC is related to the level of GJIC, which might, in turn, be important in human colorectal cancers, we compared levels of expression of the DCC gene with the GJIC capacity of a panel of human colorectal adenocarcinoma cell lines isolated from different stages of tumor progression. While the level of GJIC varied between the cell lines studied, we found no correlation between their communication capacity and DCC expression revealed by a reverse-transcriptase/polymerase chain reaction method. This lack of correlation suggests that DCC is not a crucial regulator of GJIC.

An improved long-term culture of rat hepatocytes to detect liver tumour-promoting agents: results with phenobarbital

Among various cocultures of hepatocytes with other cell types, we found that mouse embryonal cells (BALB/c 3T3) are more effective in maintaining rat hepatocytes in vitro. Because most human cancers are epithelial in origin, we thought that such a hepatocyte culture system could be used for the detection of tumour-promoting agents, most of which are inhibitors of gap-junctional intercellular communication. We, therefore, have examined the effect of the strong rat liver tumour promoter, phenobarbital, on the gap-junctional intercellular communication capacity of hepatocytes in long-term cultures. A single application of phenobarbital drastically inhibited the gap-junctional intercellular communication between hepatocytes in a coculture for only several hours, but treatment for 3 weeks provoked a constant decrease of gap-junctional intercellular communication (50%) throughout the treatment period. This type of long-term culture of rat hepatocytes may be usable in a rapid in vitro assay to detect tumour-promoting agents.

Regulation of connexin 43-mediated gap junctional intercellular communication by Ca2+ in mouse epidermal cells is controlled by E-cadherin

Gap junctional intercellular communication (GJIC) of cultured mouse epidermal cells is mediated by a gap junction protein, connexin 43, and is dependent on the calcium concentration in the medium, with higher GJIC in a high-calcium (1.2 mM) medium. In several mouse epidermal cell lines, we found a good correlation between the level of GJIC and that of immunohistochemical staining of E-cadherin, a calcium-dependent cell adhesion molecule, at cell-cell contact areas. The variant cell line P3/22 showed both low GJIC and E-cadherin protein expression in low- and high-Ca2+ media. P3/22 cells showed very low E-cadherin mRNA expression. To test directly whether E-cadherin is involved in the Ca(2+)-dependent regulation of GJIC, we transfected the E-cadherin expression vector into P3/22 cells and obtained several stable clones which expressed high levels of E-cadherin mRNA. All transfectants expressed E-cadherin molecules at cell-cell contact areas in a calcium-dependent manner. GJIC was also observed in these transfectants and was calcium dependent. These results suggest that Ca(2+)-dependent regulation of GJIC in mouse epidermal cells is directly controlled by a calcium-dependent cell adhesion molecule, E-cadherin. Furthermore, several lines of evidence suggest that GJIC control by E-cadherin involves posttranslational regulation (assembly and/or function) of the gap junction protein connexin 43.

Effects on intercellular communication in human keratinocytes and liver-derived cells of polychlorinated biphenyl congeners with differing in vivo promotion activities

Several purified polychlorinated biphenyl (PCB) congeners with differing toxicity/tumor promotional activities in rat liver in vivo were tested for their effects on gap-junctional intercellular communication (GJIC) in cell strains and lines derived from human liver and skin. This in vitro assay is being developed to detect various classes of tumor promoters. The 3-methylcholanthrene (MCA)-type cytochrome P450 inducer and hepatotoxic promoter 3,3',4,4'-tetrachlorobiphenyl was inactive in this assay for all of the cells tested, suggesting this promoter acts by other mechanisms. The phenobarbital-like enzyme inducer and less toxic promoter 2,2',4,4',5,5'-hexachlorobiphenyl inhibited GJIC in both liver and skin cells, whereas the 2,2',5,5'-tetrachlorobiphenyl congener, which does not act as a promoter in rat liver, inhibited GJIC only in the skin cell types and in one of the liver cell strains thought to be of bile duct origin. 2,3,4,4',5-Pentachlorobiphenyl, a mixed (phenobarbital plus MCA) inducer of cytochrome P450, inhibited GJIC in both liver and skin cells, suggesting that it may be a promoter in vivo. The results suggest that GJIC inhibition is a property of PCB congeners with phenobarbital-like enzyme induction capabilities, and that there exist some tissue/cell type differences in sensitivity to these congeners.

Detection of non-genotoxic carcinogens in the BALB/c 3T3 cell transformation/mutation assay system

We have employed BALB/c 3T3 cells in a simultaneous cell transformation and mutation assay protocol to see whether both genotoxic and non-genotoxic carcinogens can be identified. Three known mutagenic animal carcinogens tested positive for transforming activity: dimethylnitrosamine, methylcholanthrene and methylnitrosourea. In addition, we tested three non-mutagenic compounds--two human carcinogens, benzene and diethylstilbestrol, and the possible human carcinogen dichlorodiphenyltrichloroethane; all three displayed transforming activity. These results add to existing data supporting the validity of the BALB/c 3T3 cell transformation system as a reliable short-term in vitro test for carcinogens in general, and for non-genotoxic carcinogens in particular.

Gap-junctional intercellular communication in epidermal cell lines from selected stages of SENCAR mouse skin carcinogenesis

Homologous and heterologous gap-junctional intercellular communication (IC) was characterized in a panel of cell lines derived from selected stages of SENCAR mouse skin carcinogenesis. This panel included a "carcinogen-altered" cell line, 3PC, obtained from Ca2+-resistant primary adult keratinocytes after exposure to dimethylbenz(a)anthracene as well as cell lines obtained from early and late-stage papillomas and a squamous cell carcinoma (CA3/7) generated during standard in vivo initiation/promotion protocols (dimethylbenz(a)anthracene/12-O-tetradecanoyl-phorbol-13-acetate). Also studied was a cell line (B66BA) obtained from a metastatic lesion following benzo(a)pyrene-induced skin tumorigenesis. Intercellular communication was measured in low-calcium (0.05 mM) medium by quantitation of cell-cell transfer of microinjected fluorescent dye Lucifer Yellow CH. Homologous IC ability diminished progressively from 68 dye-coupled cells per injection for 3PC cultures, to between 21 and 54 dye-coupled cells per injection for three papilloma-derived cell lines, to six and three dye-coupled cells per injection for CA3/7 and B66BA cells, respectively. To test communication of these cells with their normal counterparts, heterologous IC was examined in cocultures with primary adult keratinocytes. Under the conditions used, normal cells established functional communication channels with each cell line tested, showing no selectivity. These results suggest that progressive loss of homologous but not heterologous IC capacity accompanies neoplastic development in mouse skin carcinogenesis.

Cell contact but not junctional communication (dye coupling) with biliary epithelial cells is required for hepatocytes to maintain differentiated functions

Specific differentiated gene expression and the morphology of adult rat hepatocytes can be maintained for as long as 8 weeks in vitro only when they are cultured in the presence of biliary epithelial cells; when primary hepatocytes are cultured alone, they lose these functions within 2 to 3 days. We obtained evidence suggesting that contact between hepatocytes and biliary epithelial cells is necessary for maintaining hepatocyte functions. We examined whether junctional communication between and among hepatocytes and biliary epithelial cells is required for long-term maintenance of hepatocyte functions, using a dye-transfer method, in three co-cultures: (1) hepatocytes and biliary epithelial cells prepared from Sprague-Dawley rats; (2) hepatocytes from Sprague-Dawley rats and epithelial cells of the IAR 20 line, originally established from BDVI rats; and (3) hepatocytes from BDVI rats and IAR 20 epithelial cells. The established epithelial cell line (IAR 20) and early-passage cultures of biliary epithelial cells maintained hepatocyte-specific functions in culture for 40 and 70 days, respectively, but the latter induced more stable maintenance of albumin secretion. Hepatocytes cultured alone lost their characteristic morphology within 5 to 8 days, and almost no dye transfer was observed. In co-cultures, the capacity of biliary epithelial cells to communicate among themselves remained relatively high throughout the culture period, whereas hepatocytes showed almost no junctional communication at an early phase of culture and first began to communicate after 2 weeks, communication capacity increasing for at least the next 10 days of culture. The most notable finding was that there was no dye transfer between hepatocytes and biliary epithelial cells in any co-culture system. These results suggest that the maintenance of hepatocyte-specific functions requires intercellular contact but probably not gap-junctional communication between hepatocytes and biliary epithelial cells. This system is useful for studying heterotypic cell-cell interactions and the control of gene expression.

Mutagenicity, sister chromatid exchange inducibility and in vitro cell transforming ability of particulates from Athens air

Airborne particulates were collected over a period of twelve months by the use of Hi-Vol samplers in the basin of Athens, Greece. N-Hexane extracts were tested in a battery of in vitro tests for their ability to induce mutation in bacteria as well as mutation, sister chromatid exchange and morphological transformation in cultured mammalian cells. Positive results were found for mutagenicity with Salmonella strain TA98 in the Ames assay, for sister chromatid exchange induction in CHO cells and for transformation in BALB/c 3T3 cells in culture. They also showed weak non-dose-related induction of ouabain resistance in BALB/c 3T3 cells. The contribution of oxidizing and nitrating agents found in the Athens atmosphere, together with sunlight UV irradiation in the formation of direct acting mutagens and potential carcinogens from ambient polycyclic aromatic hydrocarbons, is suggested.

Benzo[a]pyrene metabolites: formation in rat liver cell-culture lines, binding to macromolecules, and mutagenesis in V79 hamster cells

Benzo(a]pyrene was metabolized in liver cell lines derived from BC-IV and BD-IV rats which included several chemically-transformed lines (IAR-6-1; IAR-19; IAR-28), one spontaneous transformant (IAR-27) as well as one non-malignant line (IAR-20). Cultures were treated with tritiated benzo[a]pyrene over a 5-day period. The cells and medium were extracted with ethyl acetate and the distribution between organic-soluble and water-soluble metabolites determined. Organic-soluble metabolites consisting of dihydrodiols, phenols and quinones were determined by high-pressure liquid chromatography, and macromolecular binding of BP to each cell line was measured over a 24-h period. Comparisons between binding and overall metabolism were not directly proportional in these liver cell lines. However, there was a positive correlation for benzo[a]pyrene mutagenesis in the V-79 hamster cell assay with 8-azaguanine as a marker when the cell lines with the highest (IAR-20) and lowest (IAR-27) metabolic competence were used as activating cell layers.

Mutagenicity assays of estrogenic hormones in mammalian cells

In view of the extensive use of estrogenic hormones by the human population, either as therapeutic agents, or in the composition of contraceptive pills, it is important to investigate more thoroughly the adverse biological effects of synthetic hormones. Diethylstilbestrol, ethynylestradiol, estradiol-17beta and estrone were chosen for our experiments. Evidence of carcinogenicity in rodents has been reported for each of these compounds, but so far only few studies have been carried out in vitro. Because it has been shown that isolated liver cells in suspension are able efficiently to metabolize steroid hormones, we have tested these chemicals in V79 cells with a cell-mediated system using primary hepatocytes from male and female rats as the metabolic layer. The incubation in the presence of the chemical to be tested was carried out at concentrations ranging from 25 to 100 microM, for 48 h before plating the V79 cells to score for mutagenicity or toxicity. In the absence of hepatocytes, the 4 estrogenic hormones were very toxic, but not mutagenic. The co-cultivation of V79 cells with primary hepatocytes decreased the toxic effect induced by the sex hormones, except in the case of ethynylestradiol. However, no mutation, determined as 8-azaguanine- or ouabain-resistance, was induced under these conditions by any of the hormones tested. The lack of mutagenic activity of these hormones in our assay had been confirmed by the use of primary liver cells that originated from a rat treated with Aroclor, an inducer of drug-metabolizing enzymes.