Pasta Supplemented with Opuntia ficus-indica Extract Improves Metabolic Parameters and Reduces Atherogenic Small Dense Low-Density Lipoproteins in Patients with Risk Factors for the Metabolic Syndrome: A Four-Week Intervention Study.

Food supplementation with Opuntia ficus-indica (OFI) has been associated with a significant reduction in total cholesterol, body fat, hyperglycemia and blood pressure. Since OFI may also have antioxidant and anti-atherogenic properties, we hypothesized that its supplementation might reduce atherogenic lipoproteins, including small, dense low-density lipoproteins (sdLDL). Forty-nine patients (13 men and 36 women, mean age: 56 ± 5 years) with one or two criteria for the metabolic syndrome weekly consumed 500 g of pasta supplemented with 3% OFI extract (30% of insoluble polysaccharides with high antioxidant power) for 1 month. The full LDL subclass profile was assessed by gel electrophoresis (Lipoprint, Quantimetrix, Redondo Beach, CA, USA). After 1 month of pasta supplementation, waist circumference (p = 0.0297), plasma glucose (p < 0.0001), triglycerides (p = 0.0137), plasma creatinine (p = 0.0244), urea and aspartate transaminase (p < 0.0001 for each) significantly decreased. A percentage increase in larger, less atherogenic LDL-1 (p = 0.0002), with a concomitant reduction in smaller, denser LDL-2 (p < 0.0001) and LDL-3 (p = 0.0004), were found. LDL-4 and-5 decreased, although not significantly. This is the first intervention study suggesting that pasta enriched with an OFI extract may have beneficial effects on some metabolic parameters and the LDL particle sizes, reducing atherogenic sdLDL. Future studies will help to establish if these findings impact cardiovascular outcomes.

Merlin, the product of NF2 gene, is associated with aromatase expression and estrogen formation in human liver tissues and liver cancer cells.

The product of neurofibromatosis type 2 (NF2) gene, also known as Merlin/neurofibromin 2, homeostatically regulates liver stem cells by controlling abundance and signaling of epidermal growth factor receptor (EGFR), with a mechanism independent of the Hippo pathway. We have reported that locally elevated estrogen formation, driven by abnormally high expression and function of aromatase, may be implicated in development and progression of human hepatocellular carcinoma (HCC) through activation of a rapid signaling pathway mediated by amphiregulin (AREG) and EGFR. We have recently presented a model by which the aromatase-estrogen-amphiregulin-EGFR axis is activated in response to tissue injury and/or inflammatory disease, with its alteration eventually leading to development of major human tumors (liver, breast, prostate) and other chronic diseases (diabetes, obesity, Alzheimer's and heart disease). In this study, we investigated NF2 expression in liver cancer cells and tissues in relation to aromatase expression/function, estrogen receptor (ER) status and amphiregulin. Our data indicate that NF2 expression is associated with aromatase and AREG expression, being elevated in HCC tissues and HepG2 cells, intermediate in cirrhotic tissues and Huh7 cells, and lower in nontumoral liver and HA22T cells. In addition, NF2 expression is inversely related to wild type hERα66 and proportional to the expression of the membrane-associated hERα36 splice variant, as measured by exon-specific RT-PCR analysis, both in vivo and in vitro. Furthermore, incubation with estradiol induced a significant decrease of NF2 expression in both HA22T and Huh7 cells (over 54% and 22%, respectively), while no change could be observed in HepG2 cells, this effect being inversely related to aromatase expression and activity in HCC cell lines. Based on the above combined evidence, we hypothesize that NF2 behaves as a protein sensing tissue damage and aromatase-driven local estrogen formation, eventually leading to regulation of stem cells differentiation and tissue repair.

Nutrition, aging and cancer: lessons from dietary intervention studies.

There is convincing epidemiological and clinical evidence that, independent of aging, lifestyle and, notably, nutrition are associated with development or progression of major human cancers, including breast, prostate, colorectal tumors, and an increasingly large collection of diet-related cancers. Mechanisms underlying this association are mostly related to the distinct epigenetic effects of different dietary patterns. In this context, Mediterranean diet has been reported to significantly reduce mortality rates for various chronic illnesses, including cardiovascular diseases, neurodegenerative diseases and cancer. Although many observational studies have supported this evidence, dietary intervention studies using a Mediterranean dietary pattern or its selected food components are still limited and affected by a rather large variability in characteristics of study subjects, type and length of intervention, selected end-points and statistical analysis. Here we review data of two of our intervention studies, the MeDiet study and the DiMeSa project, aimed at assessing the effects of traditional Mediterranean diet and/or its component(s) on a large panel of both plasma and urine biomarkers. Both published and unpublished results are presented and discussed.

Retinol oxidation to retinoic acid in human thyroid glandular cells.

Abstract Retinoic acid is regarded as the retinol metabolite that controls proliferation and differentiation of epithelial cells. In the present study, we investigated the potential role of xanthine dehydrogenase (XDH) in retinoic acid biosynthesis in human thyroid glandular cells (HTGC). In particular, we observed that cellular retinoids binding proteins (CRBPs) are also implicated in the biosynthetic pathway leading to retinoic acid formation in primary cultures of HTGC, as we have already reported for human mammary epithelial cells (HMEC). After partial protein purification, the enzyme responsible for retinoic acid biosynthesis was identified and quantified as XDH by immunoassay, by its ability to oxidize xanthine to uric acid and its sensitivity to the inhibitory effect of oxypurinol. The evidence of XDH-driven formation of retinoic acid in HTGC cultures further corroborates the potential role of XDH in retinoic acid biosynthesis in the epithelia.

Expression of wild-type and variant estrogen receptor alpha in liver carcinogenesis and tumor progression.

Although estrogen receptors (ERs) are expressed in human hepatocellular carcinoma (HCC), several clinical trials have failed to demonstrate the efficacy of antiestrogen treatment in HCC patients. Recently, the identification of several ER splicing variants has enlightened the complex nature of estrogen signaling in peripheral tissues; this may help understanding estrogen role in either nontumoral or malignant nonclassical target organs, including liver. In this work we have investigated mRNA expression of wild-type and splice variants of ERα in nontumoral, cirrhotic, and malignant human liver, as well as in HCC cell lines, using an exon-specific reverse transcription polymerase chain reaction (RT-PCR). In particular, ERα66 was detected in nontumoral and, to a lesser extent, in cirrhotic liver tissues, whereas its expression decreased or became undetectable in HCC tissues and cell lines. The ERα46 splicing variant was detected ubiquitously in all samples; interestingly, however, the ERα36 variant was inversely expressed with respect to ERα66, being highest in HepG2 cells, intermediate in Huh7 cells, and lowest in HA22T cells. It is noteworthy that aromatase was correspondingly expressed with ERα36 and inversely related to ERα66. This observation suggests that a switch from ERα66 to a predominant expression of ERα36 may be associated with development and/or progression of human HCC.

Estrogen signalling through amphiregulin may be implicated in human hepatocellular carcinoma.

BACKGROUND: We investigated aromatase (Aro)-driven estrogen formation in non-tumoral and malignant liver tissues and cells, also in relation to expression of the estrogen receptors α and ß (ERα and ERß) and amphiregulin (AREG), aiming to gain insights into the potential role of estrogens in human hepatocellular carcinoma (HCC). MATERIALS AND METHODS: Chromatographic and reverse transcriptase polymerase chain reaction (RT-PCR) analyses were used to assess activity and expression of the Aro enzyme and AREG as well as the expression of wild-type and variant ERs, both in vivo and in vitro. RESULTS: Following 24 h and 72 h incubation of liver tissues or cells with testosterone, human HCC tissues and HepG2 hepatoma cells showed elevated Aro activity (estrogen formation, respectively, of 20% and 52%-99%). By contrast, no Aro activity could be detected in non-tumoral tissues and HA22T liver cancer cells. Cirrhotic samples and Huh7 cells exhibited intermediate enzyme activity, with estrogen formation of 4% and 34%, respectively. Markedly lower or undetectable Aro mRNA levels were observed in HA22T cells and non-tumoral liver tissues compared with HepG2 cells and HCC samples. Cirrhotic specimens displayed variable transcript levels. Interestingly, no or low expression of wild-type ERα and ERß could be observed in liver cancer cells and malignant tissues. However, ubiquitous expression of the hERα46 variant and occasional expression of the hERß2/Cx variant were observed in cancer tissues and cells. CONCLUSIONS: It is noteworthy that the pattern of wild-type ERα was inversely related to Aro, whilst AREG expression was consistently associated with that of Aro. This combined evidence suggests that locally elevated Aro activity may increase malignant cell proliferation also through AREG signalling.

Sildenafil protects human mammary epithelial cells against ROS production induced by estradiol.

Several studies suggest that xanthine dehydrogenase (XDH) and its oxidase form (XO) play an important role in various types of ischemic and vascular injuries. Recently, we have demonstrated that estradiol (E2) induces a significant decrease of the expression and activity of XDH and of its conversion to XO in human mammary epithelial cells. E2 is known to induce upregulation of eNOS gene expression in aortic endothelial cells. Because the XO-derived O2·- combines with ·NO to yield ONOO-, and considering that ONOO- converts XDH to XO, the resulting increase of XO activity and reactive oxygen species production would eventually lead to a further increase of ONOO- production, thus creating a vicious cycle of oxidative stress. Our previous study has indicated that sildenafil has a protective effect on human mammary epithelial cells as a consequence of XO inhibition and of the resulting decrease of free oxygen radicals that can impair the expression of NADPH oxidase and type 5 phosphodiesterase (PDE-5). In the present study, we report that the dual inhibitory effect exerted by sildenafil on both XO and PDE-5 is a consequence of a structural modification induced by O2·-, also consisting of the release of a piperazine group that could in turn inhibit the XO enzyme.

Sildenafil protects epithelial cell through the inhibition of xanthine oxidase and the impairment of ROS production.

Xanthine oxidase (XO) plays an important role in various forms of ischemic and vascular injuries, inflammatory diseases and chronic heart failure. The XO inhibitors allopurinol and oxypurinol held considerable promise in the treatment of these conditions both in experimental animals and in human clinical trials. More recently, an endothelium-based protective effect of sildenafil has been reported in preconditioning prior to ischemia/reperfusion in healthy human subjects. Based on the structural similarities between allopurinol and oxypurinol with sildenafil and with zaprinast the authors have investigated the potential effects of these latter compounds on the buttermilk XO and on non-tumourigenic (HMEC) and malignant (MCF7) human mammary epithelial cells. Both sildenafil and zaprinast induced a significant and consistent decrease of XO expression and activity in either cell line. In MCF7 cells only, this effect was associated with the abrogation of xanthine-induced cytotoxicity. Overall, the data suggest that the protective effect of sildenafil on epithelial cells is a consequence of the inhibition of the XO and of the resulting decrease of free oxygen radical production that may influence the expression of NADPH oxidase and PDE-5.

Estradiol decreases xanthine dehydrogenase enzyme activity and protein expression in non-tumorigenic and malignant human mammary epithelial cells.

The retinoic acid deficiency in breast tumour epithelial cells has been ascribed to an insufficient expression of either the enzyme(s) involved in its biosynthesis or the cellular retinol binding protein (CRBP) or both. In an attempt to define the mechanisms underpinning retinoic acid deficiency in these cell model systems, we have investigated the potential regulatory effect of oestrogen (17beta-estradiol) on one key player in retinoic acid biosynthesis, the xanthine dehydrogenase (XDH). This enzyme is consistently expressed and very active in non-malignant human mammary epithelial cells (HMEC), as opposed to tumour MDA-MB231 and MCF7 cells. In these latter two cell lines, as opposed to HMEC cells, we observe a residual ability of XDH to produce retinoic acid from retinaldehyde and the inability to use retinol, as a consequence of a deficit in CRBP. In addition, estradiol treatment of MDA-MB231 and MCF7 cells decreases protein expression and activity of the enzyme, with no modification of the mRNA transcript levels, eventually leading to deteriorate further retinoic acid production.

16alpha-hydroxyestrone inhibits estrogen sulfotransferase activity in human liver cancer cells.

In this study we investigated the impact of estrogen antagonists and of 16alpha-OHE1 (an estrogen derivative that binds to and induces transactivation of estrogen receptors) on estrogen metabolism in malignant HepG2 human liver cells featured by high estrogen sulfotransferase (EST); our aim was to clarify the potential correlation of EST and ER. As expected, the HepG2 cells exhibited a very high EST activity, with the majority of estrogen metabolites (over 86%) being detected as sulfates by 24 h. The coincubation of E2 and the antiestrogen tamoxifen induced a weak inhibition of EST activity (from 85.4% to 81.5%), while the coincubation with the pure antagonist ICI-182 and with 16alpha-OHE1 produced a 50% and 90% decrease of EST, respectively. Interestingly, both selective estrogen receptor modulators (SERMs) TAM and ICI-182, along with the same 16alpha-OHE1, gave rise respectively to a 2.8%, 3.2%, and 4.6% of de novo 16alpha-OHE1 formation. The inhibition of EST and the increase of 16alpha-OHE1 formation were both time- and dose-dependent. Our results suggest that EST activity is tightly associated with ER transactivation and can be regulated by selective estrogen receptor modulators (SERMs), including antiestrogens and 16alpha-OHE1. In this framework, 16alpha-OHE1 may have a potential role in human liver carcinogenesis, also through the inhibition of EST and the production of unconjugated, bioavailable estrogens.

Profiling cancer stem cells in androgen-responsive and refractory human prostate tumor cell lines.

In this study, we investigated androgen metabolism in two different human prostate cancer cell lines, the androgen-responsive LNCaP cells and the nonresponsive PC3 cells. Following 24-h and 72-h incubation with either testosterone (T) or androstenedione (Ad) used as precursor, divergent patterns and rates of androgen metabolism were observed. Given the recent interest in the multiple uses of embryonic and adult stem cells for basic and applied research, we compared the expression of three presumptive stem cell markers (Oct-4, SUZ-12, and Cripto-1), along with connexin 43 (Cx43), Cx32, and androgen receptor (AR), used as cell differentiation gene markers. In anchorage-independent cell growth conditions, the expression levels of candidate markers of cancer stem cells initially increased (days 2-4) but drastically fell thereafter (day 6) in both cell lines. Results of immunocytochemical assay (ICA) largely confirmed those obtained by RT-PCR. Interestingly, both symmetrical and asymmetrical cell divisions were revealed in PC3 cells using Oct-4 immunostaining. Our data suggest that both androgen-responsive and androgen-nonresponsive prostate tumor cell lines contain a presumptive cancer stem cell population that can be identified using a panel of selected gene markers, including Oct-4, SUZ-12, and Cripto-1.

Low levels of both xanthine dehydrogenase and cellular retinol binding protein are responsible for retinoic acid deficiency in malignant human mammary epithelial cells.

The seeming impairment of retinoid metabolism in human breast tumor cells has been attributed to the lower expression of cellular retinol binding proteins (CRBPs), of alcohol/retinol dehydrogenases, or aldehyde/retinaldehyde dehydrogenases. In a previous study we indicated that xanthine dehydrogenase (XDH) is able to oxidize actively both all-trans-retinol (t-ROL) bound to the CRBP (holo-CRBP) and all-trans-retinaldehyde (t-RAL) to all-trans-retinoic acid (t-RA) in human mammary epithelial cells (HMEC). Since both XDH and CRBP are required for the biosynthesis of t-RA, we have inspected their bioavailability in both estrogen-responsive and nonresponsive human mammary epithelial cancer cells. The XDH activity, as assessed in the crude and purified extracts of both MCF7 and MDA-MB 231 cells by measuring the substrate t-RAL (that unlike t-ROL does not need CRBP), was 6 to 10 times lower than that previously encountered in normal HMEC. In addition, CRBP expression was absent in either cell line. Based on this preliminary evidence, we propose here that the low levels of XDH activity and the associated absence of CRBP in both MCF7 and MDA-MB 231 human breast cancer cells might be responsible for the retinoic acid deficiency observed in these cell model systems. This defect may be the crux of the impairment to stem cell differentiation and, hence, may be primarily implicated in human mammary carcinogenesis.

Metabolic profiles of androgens in malignant human liver cell lines.

In this study we have investigated androgen (testosterone and androstenedione) metabolism in malignant HepG2, Huh-7, and HA22T human liver cell lines. Following 72-h incubation with testosterone or androstenedione, estrogen formation through aromatase activity was consistently higher in HepG2 cells (being nearly 100%) and moderate in Huh7 cells (34%), while it was undetectable in HA22T cells. The produced estrogens are completely conjugated by estrogen sulpho-transferase (EST) in HepG2 cells, while nearly 25% remains in the free form in Huh-7 cells. The HA22T and Huh-7 cells show a markedly different balance of 5alpha- versus 5beta-reduced androgens (65.7% vs. 2.5% and 2.6% vs. 22.2%, respectively), while no detectable 5alpha/5beta-reduced androgen is formed in HepG2 cells. These divergent metabolic profiles, coupling aromatase to EST, and to 5alpha/5beta-reductase, hint at a differential regulation of androgen metabolic pathways that may ultimately lead to a distinct impact of biologically active metabolites on growth and function of human liver cancer cells.

Intercellular communication and human hepatocellular carcinoma.

We have previously reported that gap junction-mediated intercellular communication (GJIC) can be restored in junctionally deficient human prostate epithelial cells, also suggesting that GJIC activity is regulated by estrogen. In the present work, we report studies on sex steroid regulation of GJIC and proliferative activity in both nontumoral (Chang liver, CL) and malignant (HepG2, Huh7) human liver cells. Junctional activity and liver cell growth were measured using the scrape-loading/dye-transfer (SL/DT) and the MTS assay, respectively. Using the SL/DT, only Huh7 cells exhibited a moderate degree of junctional activity in basic conditions, while neither CL nor HepG2 cells showed functional GJIC. Under exactly the same experimental approach used for prostate studies, we observed that, once again, both estrogen (either estradiol or estrone) and FK induce a significant increase of GJIC in Huh7 cells, while exposure of HepG2 cells to FK produces only a limited rise of junctional activity in this cell line. However, estrogen induced a significant increase and reduction of the proliferative activity of CL and Huh7 cells, respectively, while growth of HepG2 cells was not affected. While the above evidence suggests that estrogens are primarily implicated in growth regulation and communication of both prostate and liver epithelial cells, it also implies that compounds able to restore GJIC in junctionally deficient cells or prevent its disruption in junctionally proficient cells may be used for development of new strategies in the prevention and/or treatment of several human malignancies, including hepatocellular carcinoma (HCC).

Sex steroids, carcinogenesis, and cancer progression.

The relationship between sex steroids and cancer has been studied for more than a century. Using an original intact cell analysis, we investigated sex steroid metabolism in a panel of human cancer cell lines, either hormone responsive or unresponsive, originating from human breast, endometrium, and prostate. We found that highly divergent patterns of steroid metabolism exist and that the catalytic preference (predominantly reductive or oxidative) is strictly associated with the steroid receptor status of cells. We explored intratissue concentrations and profiles of estrogens in a set of human breast tumors as compared to normal mammary tissues, also in relation to their estrogen receptor status. In particular, we showed that, with hydroxyestrogens representing the majority of all tissue estrogens, concentrations of individual metabolites, as well as their ratios, significantly differ when comparing normal tissue with cancer tissues or when they are related to the overall survival of cancer patients.

Estrogen regulates cytokine production and apoptosis in PMA-differentiated, macrophage-like U937 cells.

We have investigated the effects of sex steroids, estradiol (E2), and testosterone (T) on the synthesis of tumor necrosis factor alpha (TNF-alpha) and interleukin-10 (IL-10) in phorbol-myristate-acetate (PMA)-differentiated human monoblastic U937 cells. The ability of both hormones to modulate the viability and programmed cell death of macrophage-like PMA-differentiated U937 cells was also inspected. E2 increased TNF-alpha synthesis, whereas T had no effect on the production of this cytokine. The combination of E2 and its antagonist tamoxifen or ICI-182,789 completely abolished the induction of TNF-alpha, while combination of T and its antagonist Casodex (CSDX) did not significantly affect TNF-alpha production by U937 cells. Exposure of cells to E2 resulted in a dose-dependent decrease of IL-10 synthesis, while again T did not show any detectable effect. In addition, E2 induced a significant increase of apoptosis in macrophage-like U937 cells and this increase was inhibited by the simultaneous addition of either tamoxifen or ICI-182. In contrast, T alone or in combination with CSDX did not modify apoptotic rates of U937 cells. This evidence, taken together, suggests that estrogens, but not androgens, exert a pro-inflammatory action through the modulation of TNF-alpha and IL-10, and regulate the immune effector cells by the induction of programmed cell death.

A role for sex steroids in autoimmune diseases: a working hypothesis and supporting data.

In recent years there has been a continuingly increasing interest in novel research subjects, as yet poorly explored, either because they relate to aspects previously thought to be marginal with respect to classical fields of investigation, or because they require both specialized competence and intense cross-talk by researchers from disparate areas. The potential interaction between immunity and cancer has generated a remarkable number of studies, including those related to the newly explored immune-neuro-endocrine system. In this paper, we review a few autoimmune diseases as examples of a mutual relationship between immune diseases and malignancies. We also review our previous studies on patients with rheumatoid arthritis (RA). In particular, aiming to define the hormone-responsive or -sensitive status of synovial tissues and cells, we have inspected different endocrine end-points, including (1) high- and low-affinity sites of androgen and estrogen binding; (2) the activity of key enzymes of steroid metabolism; and (3) the hormonal profile of synovial fluids as an indication of local endocrine milieu. Overall, our data provide convincing evidence for synovial macrophage-like cells and a subset of T lymphocytes to be considered as target cells for gonadal steroids. This provides a basis for developing new strategies for alternative treatments of RA and possibly unveils novel perspectives in both research and the clinic for other autoimmune diseases as well. In addition, the association of autoimmunity and cancer may disclose promising new avenues of research linking steroid hormones, the immune system, and malignant transformation.

Intercellular communication and human prostate carcinogenesis.

Gap-junction-mediated intercellular communication (GJIC) is required for completion of embryonic development, tissue homeostasis, and regulation of cell proliferation and death. Although, as emphasized in several reports, defects or disruption of GJIC may be important in carcinogenesis, the potential role of GJIC in the onset and progression of human prostate cancer remains ill-defined. The gap junction channel-forming connexins (Cx) comprise a multigene family of highly conserved proteins that are differentially expressed in a tissue- and development-specific manner; changes in connexin expression are also commonly seen during cellular differentiation. However, when multiple connexins are concurrently expressed, gap junction channels may consist of more than one connexin species. This is important, because only certain pairings give rise to functional channels. In our studies, we investigated GJIC in a panel of both nontumorigenic (RWPE-1) and malignant (RWPE-2, LNCaP, DU-145) human prostate epithelial cells, compared to a normal rat liver epithelial F344 (WB-1) cell line, as it was found to be junctionally proficient. In addition, expression and regulation of Cx43 and Cx32 were also inspected using western blot analysis. The ability of hormones, antihormones, and the antihypertensive drug forskolin to restore GJIC in nontumorigenic and malignant human prostate epithelial cells was examined by the scrape-loading/dye transfer (SL/DT) or fluorescence recovery after photobleaching (FRAP) methods using an Ultima laser cytometer. Results from both assays showed that neither nontumorigenic nor malignant prostate cells have functional GJIC. However, both estrone (E1) and forskolin (FK) induced a significant increase (4.4- and 2.8-fold, respectively) in cell-cell communication only in the RWPE-1 cells. Interestingly, the use of Matrigel, a solubilized basement membrane, as substrate for cell attachment and growth resulted in the rescue of GJIC activity in RWPE-1 cells, as revealed by the SL/DT method. Furthermore, E1 induced a twofold increase in connexin 43 (Cx43), whereas forskolin caused a 50% reduction in Cx32 expression in RWPE-1 cells. These data suggest that agents that increase Cx43:Cx32 ratio may restore GJIC in junctionally deficient cells, providing a basis for the development of new strategies for the prevention and treatment of human prostate cancer.

Regulation of cell-to-cell communication in non-tumorigenic and malignant human prostate epithelial cells.

BACKGROUND: Gap-junction-mediated intercellular communication (GJIC) is required for normal development and tissue homeostasis. However, the role of GJIC in human prostate carcinogenesis and progression remains ill-defined. METHODS: The ability of hormones, anti-hormones, and the anti-hypertensive drug, forskolin, to restore GJIC in non-tumorigenic (RWPE-1 and PWR-1E) and malignant (RWPE-2, LNCaP, DU-145) human prostate epithelial cell lines, was examined by Scrape-Loading/Dye Transfer (SL/DT) and Fluorescence Recovery After Photobleaching (FRAP) methods using an Ultima laser cytometer. RESULTS: Results from both assays show that PWR-1E, RWPE-2, LNCaP, and DU-145 cells have weak or absent GJIC activity. However, the non-tumorigenic RWPE-1 cells showed restoration of some GJIC (nearly 10%) after 1 hr in the FRAP assay. Forskolin and estrone, which increase intracellular cAMP levels, induced a significant and consistent increase (2.8- and 4.4-fold, respectively) in cell-to-cell communication only in the non-tumorigenic RWPE-1 cells. Furthermore, estrone induced a two-fold increase in connexin 43 (Cx43) and a 30% decrease in Cx32 expression, while forskolin caused a 50% reduction in Cx32 with no effect on Cx43 expression in RWPE-1 cells. CONCLUSIONS: These data suggest that agents that increase Cx43:Cx32 ratio may be used to restore GJIC in junctionally-deficient, non-tumorigenic immortalized cells, thus providing insights into potential mechanisms responsible for the multistep carcinogenesis in the human prostate.