Liposomal VIP potentiates DNA synthesis in cultured oral keratinocytes

The purpose of this study was to determine whether association of vasoactive intestinal peptide with sterically stabilized liposomes (VIP on SSL) amplifies DNA synthesis evoked by the peptide in cultured chemically transformed hamster oral keratinocytes (HCPC-1) and, if so, whether this response in mediated, in part, by SSL-induced inactivation of neutral endopeptidase 24.11 (NEP; EC 3.4.24.11) and angiotensin I-converting enzyme (ACE; EC 3.4.15.1), two ectoenzymes that modulate HCPC-1 cell growth, in these cells. We found that VIP (10(-9)-10(-6) M) alone elicited a modest, albeit significant, concentration-dependent increase in DNA synthesis in HCPC-1 cells that was maximal after 48-72-h incubation (p < 0.05). VIP on SSL potentiated DNA synthesis in these cells relative to VIP alone. The magnitude of VIP on SSL-induced responses was 1.2-1.6-fold higher than that of VIP alone with maximal effects observed at 10(-9) M and 10(-6) M after 72- and 48-h incubation, respectively. Empty SSL had no significant effects on DNA synthesis. Empty SSL and VIP on SSL had no significant effects on NEP 24.11 and ACE activity in HCPC-1 cells. Collectively, these data indicate that association of VIP with SSL potentiates DNA synthesis in cultured oral keratinocytes relative to VIP alone and that this response is not related to non-specific effects of SSL.     

Purified ACE attenuates smokeless tobacco-induced increase in macromolecular efflux from the oral mucosa

Gao, Xiao-pei, Hideyuki Suzuki, Christopher O. Olopade,Sergei Pakhlevaniants, and Israel Rubinstein. Purified ACE attenuates smokeless tobacco-induced increase in macromolecular effluxfrom the oral mucosa. J. Appl.Physiol. 83(1): 74-81, 1997.The purpose of thisstudy was to determine whether purified angiotensin I-converting enzyme(ACE) attenuates smokeless tobacco extract (STE)-induced increase inmacromolecular efflux from the in situ oral mucosa. Byusing intravital microscopy, we found that suffusion of an aqueousextract of smokeless tobacco elicited significant concentration-dependent leaky site formation and increase in clearance of fluorescein isothiocyanate-labeled dextran (mol mass, 70 kDa) fromthe hamster cheek pouch (P < 0.05). Suffusion of purified rabbit lung ACEsignificantly attenuated these responses in a concentration-dependentfashion (P < 0.05). These effectswere specific because purified ACE also significantly attenuated the increase in macromolecular efflux elicited by bradykinin, which isproduced in the cheek pouch during suffusion of STE, but did notattenuate the increase elicted by adenosine. Moreover,suffusion of heat-inactivated purified ACE and purified superoxidedismutase had no significant effects on STE- andbradykinin-induced responses. Collectively, these data suggestthat exogenous ACE attenuates STE-induced increase in macromolecularefflux from the in situ oral mucosa, in part, by promoting localbradykinin catabolism.

     

Inhibition of cell metabolism by a smokeless tobacco extract: tissue and species specificity.

Smokeless tobacco contains a nonnicotine inhibitor of posttranslational modification of collagen (hydroxylation of [3H]proline) by cultured chick embryo tibias and osteoblasts. This study was undertaken to determine whether a methanol extract of smokeless tobacco (STE) containing the inhibitor has similar effects on collagen-producing cells and tissues other than bone. Its effects on DNA synthesis and cell proliferation (incorporation of [3H]thymidine) were also determined. Frontal bone, aorta, and cartilage were incubated for 2 days in medium containing STE. Glycolysis (lactate production) was stimulated by 80% in cartilage, but was not affected in the other tissues; medium alkaline phosphatase activity was unaffected. In frontal bone and cartilage, [3H] hydroxyproline content was decreased 88% and 57%, respectively, and [3H]proline content was decreased 68% and 37%, respectively; neither was affected in the aorta. Confluent cultures of collagen-producing mouse fibroblasts or primary osteoblasts obtained from chick embryo calvarias were incubated for 2 days in medium containing increasing concentrations of STE. Glycolysis and DNA synthesis were not affected. Cell proliferation was unaffected in fibroblasts, but was inhibited (34%) at the highest STE concentration in osteoblasts. AIPase activity was not detectable in fibroblast medium, but was decreased up to 72% in osteoblast medium. Inhibition of collagen synthesis by STE was concentration related in both cell types. At the highest concentration, [3H] hydroxyproline and [3H]proline contents in the cell layers were decreased to the following respective values: fibroblasts 56% and 45% and osteoblasts 50% and 29%, respectively. When incubation with STE was discontinued for 1 day, recovery did not occur. These findings suggest that inhibition of collagen synthesis by STE is not specific for bone, that collagen-producing cells are directly affected, and that recovery is not immediate. This inhibitor could contribute to the periodontal disease often seen in users of smokeless tobacco. Its identification and removal would produce a safer product.     

Dexamethasone attenuates acute macromolecular efflux increase evoked by smokeless tobacco extract.

The purpose of this study was to determine whether dexamethasone attenuates the acute increase in macromolecular efflux from the oral mucosa elicited by an aqueous extract of smokeless tobacco (STE) in vivo, and, if so, whether this response is specific. Using intravital microscopy, we found that 20-min suffusion of STE elicited significant, concentration-related leaky site formation and an increase in clearance of fluorescein isothiocyanate-labeled dextran (FITC-dextran; mol mass 70 kDa) from the in situ hamster cheek pouch (P < 0.05). This response was significantly attenuated by dexamethasone (10 mg/kg iv). Dexamethasone also attenuated the bradykinin-induced leaky site formation and the increase in clearance of FITC-dextran from the cheek pouch. However, it had no significant effects on adenosine-induced responses. Dexamethasone had no significant effects on baseline arteriolar diameter and on bradykinin-induced vasodilation in the cheek pouch. Collectively, these data indicate that dexamethasone attenuates, in a specific fashion, the acute increase in macromolecular efflux from the in situ oral mucosa evoked by short-term suffusion of STE. We suggest that corticosteroids mitigate acute oral mucosa inflammation elicited by smokeless tobacco.     

Smokeless tobacco, oxidative stress, apoptosis, and antioxidants in human oral keratinocytes

We have investigated the effects of a smokeless tobacco extract (STE) on lipid peroxidation, cytochrome c reduction, DNA fragmentation and apoptotic cell death in normal human oral keratinocyte cells, and assessed the protective abilities of selected antioxidants. The cells, isolated and cultured from human oral tissues, were treated with STE (0-300 microl;g/ml) for 24 h. Superoxide anion production was determined by cytochrome c reductase. Oxidative tissue damage was determined by lipid peroxidation and DNA fragmentation, whereas apoptotic cell death was assessed by flow cytometry. STE-induced fragmentation of genomic DNA was also determined by gel electrophoresis. The comparative protective abilities of vitamin C (75 microM), vitamin E (75 microM), a combination of vitamins C & E (75 microM each), and a novel grape seed proanthocyanidin (IH636) extract (GSPE) (100 microg/ml) against STE induced oxidative stress and tissue damage were also determined. Following treatment of the cells with 300 microg STE/ml 1.5-7.6-fold increases in lipid peroxidation, cytochrome c reduction and DNA fragmentation were observed. The addition of the antioxidants to cells treated with STE provided 10-54% decreases in these parameters. Approximately 9, 29, and 35% increases in apoptotic cell death were observed following treatment with 100, 200, and 300 microg STE/ml, respectively, and 51-85% decreases in apoptotic cell death were observed with the antioxidants. The results demonstrate that STE produces oxidative tissue damage and apoptosis, which can be attenuated by antioxidants including vitamin C, vitamin E, a combination of vitamins C plus E and GSPE. GSPE exhibited better protection against STE than vitamins C and E, singly and in combination.     

Neprilysin Is Identical to Skin Fibroblast Elastase: ITS ROLE IN SKIN AGING AND UV RESPONSES

Although human skin fibroblast (HSF) elastase has been characterized as a membrane-bound metalloproteinase, little is known about its structure, amino acid sequence, and encoding gene. As there are similarities in the molecular weights and inhibitory profiles of HSF elastase and neprilysin (neutral endopeptidase 24.11 (NEP)), in this study we tested the hypothesis that they are identical using immunoprecipitation and transfection methods. An immunoprecipitation study demonstrated that HSF elastase activity co-immunoprecipitated with anti-NEP in lysates of cultured HSF. Transfection of an NEP cDNA expression vector into COS-1 cells elicited the expression of HSF elastase and NEP activities in the transfected cells. These findings strongly suggest that HSF elastase is identical to NEP, which functions mainly in neuron-associated cells to degrade neuropeptides. Analysis of the expression pattern of NEP revealed that its expression was remarkably up-regulated at the gene, protein, and enzymatic activity levels during the replicative senescence of cultured HSF. Further, the activity of NEP was markedly enhanced in a pattern similar to elastase activity during the intrinsic aging of mouse skin, in UVA-exposed HSF as well as in HSF treated with conditioned medium from UVB-exposed human keratinocytes. Analysis of the cytokine profile for the stimulation of NEP and HSF elastase activities in HSF demonstrated that among the 11 cytokines tested, IL-1α, IL-1β, IL-6, IL-8, and GM-CSF had the potential to significantly stimulate both activities similarly, again supporting the identity of HSF elastase and NEP.     

A role for fibroblasts in mediating the effects of tobacco-induced epithelial cell growth and invasion

Cigarette smoke and smokeless tobacco extracts contain multiple carcinogenic compounds, but little is known about the mechanisms by which tumors develop and progress upon chronic exposure to carcinogens such as those present in tobacco products. Here, we examine the effects of smokeless tobacco extracts on human oral fibroblasts. We show that smokeless tobacco extracts elevated the levels of intracellular reactive oxygen, oxidative DNA damage, and DNA double-strand breaks in a dose-dependent manner. Extended exposure to extracts induced fibroblasts to undergo a senescence-like growth arrest, with striking accompanying changes in the secretory phenotype. Using cocultures of smokeless tobacco extracts-exposed fibroblasts and immortalized but nontumorigenic keratinocytes, we further show that factors secreted by extracts-modified fibroblasts increase the proliferation and invasiveness of partially transformed epithelial cells, but not their normal counterparts. In addition, smokeless tobacco extracts-exposed fibroblasts caused partially transformed keratinocytes to lose the expression of E-cadherin and ZO-1, as well as involucrin, changes that are indicative of compromised epithelial function and commonly associated with malignant progression. Together, our results suggest that fibroblasts may contribute to tumorigenesis indirectly by increasing epithelial cell aggressiveness. Thus, tobacco may not only initiate mutagenic changes in epithelial cells but also promote the growth and invasion of mutant cells by creating a procarcinogenic stromal environment.     

Inhibition of nitric oxide-induced apoptosis by nicotine in oral epithelial cells

Development of oral cancer is clearly linked to the usage of smokeless tobacco. The molecular mechanisms involved in this process are however not well understood. Toward this goal, we investigated the effect of smokeless tobacco exposure on apoptosis of oral epithelial cells. Exposure of oral epithelial cells to smokeless tobacco extract (STE) induces apoptosis in a dose-dependent manner, until a threshold level of nicotine is achieved upon which apoptosis is inhibited. 1 mM of nicotine is able to inhibit apoptosis significantly induced by STE in these oral cells. Exposure of cells to nicotine alone has no effect on apoptosis, but nicotine inhibits apoptosis induced by other agents present in STE. In this study we show that, the anti-apoptotic action of nicotine is specifically associated with down-regulation of nitric oxide (NO) production. Using specific inducers of NO, we have demonstrated that inhibition of apoptosis by nicotine is through down-regulation of NO production. Further, we observed that nicotine clearly acts as a sink of NO radicals, shown using peroxynitrite generator (SIN-1) in conjunction or absence of radical scavengers. Nicotine thus causes most damage in transformed epithelial cells as depicted by accumulation of nitrotyrosine in a 3-NT ELISA assay. Inhibition of apoptosis is a hallmark in tumor progression and propels development of cancer. It may further result in functional loss of apoptotic effector mechanisms in the transformed cells. Thus, our data clearly indicates that inhibition of NO-induced apoptosis by nicotine may lead to tobacco-induced oral carcinogenesis, and implies careful development of modalities in tobacco cessation programs. Abhijit G. Banerjee and Velliyur K. Gopalakrishnan—contributed equally.     

Aqueous extract of tobacco induces mitochondrial potential dependent cell death and epithelial-mesenchymal transition in gingival epithelial cells

Smokeless tobacco habits are detrimental to oral health. A correlation between tobacco use and local epithelial tissue damage exists. Yet, the underlying cellular mechanism is not precisely characterized. This study assessed the dose-dependent action of Smokeless tobacco extract on gingival epithelial cells. Gingival tissue was taken from 5 healthy donors. Gingival epithelial cells were isolated by an enzymatic method and cultured up to passage 2. The cultured cells were treated with smokeless tobacco extract at 10%, 25%, 50%, and 75% volume concentration. After 48 h of incubation, MTT assay, Annexin V/PI assay, and DiIC1(5) assay were used to evaluate viability, apoptosis, and mitochondrial potential of the cells. RT-qPCR was used to determine the expression of BAX, BCL2, ECAD, NCAD, and TWIST. The Smokeless tobacco extract reduced cell viability by disrupting the mitochondrial potential and inducing apoptosis. Further, the Smokeless tobacco extract induced a dose-dependent epithelial-mesenchymal-transition in gingival epithelial cells. Apoptotic cellular death caused by tobacco extract on the gingival epithelial system was dependant on the mitochondrial potential of the cell. The results demonstrate that smokeless tobacco causes detrimental metabolic alterations of the periodontium.Featured applicationThis study elucidates the mechanism by which Smokeless tobacco products cause cellular damage to the gingival epithelium. The use of Smokeless tobacco products can lead to major cellular and surface changes in the gingiva and its appearance. The consequences of these changes are not limited to oral cancer but also increases a person’s risk for dental and periodontal disease.     

Smokeless Tobacco Extract (STE)-Induced Toxicity in Mammalian Cells is Mediated by the Disruption of Cellular Microtubule Network: A Key Mechanism of Cytotoxicity

Smokeless tobacco usage is a growing public health problem worldwide. The molecular mechanism(s) underlying smokeless tobacco associated tissue damage remain largely unidentified. In the present study we have tried to explore the effects of aqueous extract of smokeless tobacco (STE) on tubulin-microtubule, the major cytoskeleton protein that maintains cells morphology and participates in cell division. Exposure to STE resulted in dose-dependent cytotoxicity in a variety of mammalian transformed cell lines such as human lung epithelial cells A549, human liver epithelial cells HepG2, and mouse squamous epithelial cells HCC7, as well as non-tumorogenic human peripheral blood mononuclear cells PBMC. Cellular morphology of STE-treated cells was altered and the associated disruption of microtubule network indicates that STE targets tubulin-microtubule system in both cell lines. Furthermore it was also observed that STE-treatment resulted in the selective degradation of cellular tubulin, whereas actin remains unaltered. In vitro, polymerization of purified tubulin was inhibited by STE with the IC₅₀ value∼150 µg/ml and this is associated with the loss of reactive cysteine residues of tubulin. Application of thiol-based antioxidant N-acetyl cysteine (NAC) significantly abrogates STE-mediated microtubule damage and associated cytotoxicity in both A549 and HepG2 cells. These results suggest that microtubule damage is one of the key mechanisms of STE-induced cytotoxity in mammalian cells.     

Nicotine inhibits collagen synthesis and alkaline phosphatase activity, but stimulates DNA synthesis in osteoblast-like cells.

Use of smokeless tobacco is associated with various oral lesions including periodontal damage and alveolar bone loss. This study was performed to test the effects of nicotine on bone-forming cells at concentrations that occur in the saliva of smokeless tobacco users. Confluent cultures of osteoblast-like cells isolated from chick embryo calvariae were incubated for 2 days with nicotine added to the culture medium (25-600 micrograms/ml). Nicotine inhibited alkaline phosphatase in the cell layer and released to the medium, whereas glycolysis (as indexed by lactate production) was unaffected or slightly elevated. The effects on medium and cell layer alkaline phosphatase were concentration dependent with maximal inhibition occurring at 600 micrograms nicotine/ml. Nicotine essentially did not affect the noncollagenous protein content of the cell layer, but did inhibit collagen synthesis (hydroxylation of [3H]proline and collagenase-digestible protein) at 100, 300, and 600 micrograms/ml. Release of [3H]hydroxyproline to the medium was also decreased in a dose-dependent manner, as was the collagenase-digestible protein for both the medium and cell layer. In contrast, DNA synthesis (incorporation of [3H]thymidine) was more than doubled by the alkaloid, whereas total DNA content was slightly inhibited at 600 micrograms/ml, suggesting stimulated cell turnover. Morphologic changes occurred in nicotine-treated cells including rounding up, detachment, and the occurrence of numerous large vacuoles. These results suggest that steps to reduce the salivary concentration of nicotine in smokeless tobacco users might diminish damaging effects of this product on alveolar bone.     

Nicotine impairs histamine-induced increases in macromolecular efflux: role of oxygen radicals

Nicotine, a major component of cigarettesand smokeless tobacco, has toxic effects on endothelium and impairsreactivity of resistance arterioles in response to agonists thatstimulate the synthesis and/or release of nitric oxide.However, the effect of nicotine on nitric oxide synthase-dependentincreases in macromolecular transport is not known. Thus our first goalwas to determine the effect of nicotine on histamine-induced increasesin macromolecular efflux. We used intravital microscopy and FITCdextran (mol wt 70,000) (FITC-dextran-70K) to examine macromolecularextravasation from postcapillary venules in response to histaminebefore and after intravenous infusion of vehicle or nicotine.Extravasation of macromolecules was quantitated by counting venularleaky sites and calculating clearance (ml/s × 10⁶) of FITC-dextran-70K.Histamine elicited reproducible increases in venular leaky sites andclearance in hamsters infused with vehicle. In contrast, nicotineinfusion inhibited histamine-induced increases in macromolecularefflux. Histamine (1.0 and 5.0 µM) elicited 19 ± 2 and 34 ± 4 vs. 3 ± 1 and 11 ± 5 leaky sites per 0.11 cm², before vs. after nicotineinfusion, respectively (P < 0.05). Histamine-induced clearance of FITC-dextran-70K was also impaired afterinfusion of nicotine. Our second goal was to examine whether alterations in histamine-induced increases in macromolecular efflux bynicotine may be related to the production of oxygen radicals. Application of superoxide dismutase (150 U/ml) to the hamster cheekpouch restored histamine-induced increases in venular leaky sites andclearance of FITC-dextran-70K during infusion of nicotine. Thusnicotine alters agonist-induced increases in microvascular permeability, via the formation of oxygen radicals, to presumably inactivate nitric oxide.

     

Direct binding of neutral endopeptidase 24.11 to ezrin/radixin/moesin (ERM) proteins competes with the interaction of CD44 with ERM proteins

Neutral endopeptidase 24.11 (NEP) is a cell surface peptidase expressed by numerous tissues including prostatic epithelial cells. We reported that NEP inhibits prostate cancer cell proliferation and cell migration by enzymatic inactivation of neuropeptide substrates and through protein-protein interaction independent of catalytic function. The cytoplasmic domain of NEP contains a positively charged amino acid cluster, previously identified as a binding site for ezrin/radixin/moesin (ERM) proteins. We report here that NEP co-immunoprecipitates with ERM proteins in NEP-expressing LNCaP prostate cancer cells and MeWo melanoma cells. Co-immunoprecipitation showed that ERM proteins associate with wild-type NEP protein but not NEP protein containing a truncated cytoplasmic domain or point mutations replacing the positively charged amino acid cluster. In vitro binding assays showed that NEP binds directly to recombinant N terminus fragments of ERM proteins at the positively charged amino acid cluster within the NEP cytoplasmic domain. Binding of ERM proteins to NEP results in decreased binding of ERM proteins to the hyaluronan receptor CD44, a main binding partner of ERM proteins. Moreover, cells expressing wild-type NEP demonstrate decreased adhesion to hyaluronic acid and cell migration. These data suggest that NEP can affect cell adhesion and migration through direct binding to ERM proteins.     

Induction of unscheduled DNA synthesis in cultured human oral keratinocytes by sodium fluoride

The effect of treatment of cultured human oral keratinocytes with sodium fluoride (NaF) has been investigated with respect to induction of unscheduled DNA synthesis (UDS). Oral keratinocytes were isolated from excised buccal mucosa of normal individuals by trypsinization at 4 degrees C overnight, followed by separation of the epithelium of mucosa from lamina propria mucosae with forceps. Isolated cells were cultured in vitro and all experiments were performed with secondary cultures. For detection of UDS, the keratinocytes were cultivated with medium containing 1% fetal calf serum (FCS) for 2 days and then treated with 100-300 micrograms/ml NaF for 4 h in medium containing 1% FCS and 10 mM hydroxyurea (1% FCS-HU medium). Following treatment with NaF, UDS was measured by direct scintillation counting of [3H]thymidine incorporated into DNA of the cells in 1% FCS-HU medium. Significant levels of UDS were induced in a dose-related fashion by NaF treatment. The results suggest that NaF causes DNA damage in cultured human oral keratinocytes.     

Neutral endopeptidase-24.11 (NEP) deactivates PDGF- and TGF-beta-induced cell shape changes in invertebrate immunocytes

Using a cytofluorimetric assay, we found that immunocytes of the mollusc, Mytilus galloprovincialis, express CD10, a surface antigen known to be identical to neutral endopeptidase-24.11 (NEP). The spectrofluorimetric analysis demonstrates that the growth factors PDGF-AB and TGF-beta1 provoke an increase in NEP-like activity in membrane preparations from the immunocytes, but have no effect on the soluble form in the serum. On the other hand, computer-assisted microscopic image analysis reveals that NEP deactivates the PDGF-AB- and TGF-beta1-induced shape changes in immunocytes. However, Western blots show that, in solution, NEP does not cleave PDGF-AB or TGF-beta1, indicating that the inactivation is not due to proteolysis. These results suggest a functional interplay in invertebrate immunocytes between growth factors and NEP, as previously shown in vertebrate cells.     

Effect of human endopeptidase 24.11 ("enkephalinase") on IL-1-induced thymocyte proliferation activity

Endopeptidase 24.11 (enkephalinase) is a membrane bound protease involved in the degradation of neuropeptides and hormones. Its presence on cells of the thymus and lymph nodes suggests a possible role in the inactivation of immune system mediators. IL-1 (both purified IL-1 beta and an IL-1-rich supernatant) bioactivity, as measured in the thymocyte proliferation assay, was found to disappear upon incubation with endopeptidase 24.11. This inactivation was dependent on both incubation time and enzyme concentration. IL-1 beta was protected by the presence in the incubation medium of phosphoramidon, a specific inhibitor of endopeptidase 24.11. After incubation of IL-1-rich supernatant with the enzyme, the thymocyte proliferation activity could be restored by adding purified IL-1 beta to the samples, indicating that neither the enzyme nor the buffer had any toxic effect on thymocyte proliferation. In the same experimental conditions, IL-2 activity was not destroyed by endopeptidase 24.11.     

A Far-Upstream Sequence of the Wheat Histone H3 Promoter Functions Differently in Rice and Tobacco Cultured Cells

The cis-regulatory function of a far-upstream sequence (–1,711to –186) of the promoter of the wheat gene for histoneH3 (TH012) was analyzed in cultured rice and tobacco cells ina transient expression system with the gene for rß-D-glucuronidaseas a reporter gene. The far-upstream sequence was necessaryfor full activity of the H3 promoter in rice cells but did notenhance the activity of the proximal promoter in tobacco cells.Dissection analysis of the far-upstream sequence revealed theexistence of several positive and negative cis-acting sequencesin this region, some of which functioned differently in riceand tobacco cells. In gain-of-function experiments with ricecells, the sequence from –848 to –704, containingthe CCAAT and octamer (CaCGGATC) motifs, functioned in an orientation-independentmanner, whereas the sequence from –703 to –486 functionedin an orientation-dependent manner. By contrast, both sequencesexhibited an orientation-dependent cis-function in tobacco cells.These findings suggest that some cis-regulatory sequences inthe far-upstream region of the H3 promoter function differentlyin rice and tobacco cells. (Received May 10, 1995; Accepted August 8, 1995)