Receptor for hyaluronic acid- mediated motility (RHAMM) regulates HT1080 fibrosarcoma cell proliferation via a β-catenin/c-myc signaling axis

BackgroundHigh levels of hyaluronan (HA) synthesis in various cancer tissues, including sarcomas, are correlated with tumorigenesis and malignant transformation. RHAMM (receptor for hyaluronic acid-mediated motility) is overexpressed during tumor development in different malignancies. β-Catenin is a crucial downstream mediator of the Wnt signaling cascade which facilitates carcinogenic events characterized by deregulated cell proliferation.MethodsReal-time PCR, in vitro cell proliferation assay, siRNA transfection, flow cytometry, immunoprecipitation, western blotting and immunofluorescence were utilized.ResultsThe reduction of RHAMM expression was strongly correlated with an inhibition of HT1080 fibrosarcoma cell growth (p ≤ 0.01). LMWHA, in a RHAMM-dependent manner increases cell growth of HT1080 cells ((p ≤ 0.01). Both basal and LMWHA dependent growth of HT1080 cells was attenuated by β-catenin deficiency (p ≤ 0.01). β-Catenin cytoplasmatic deposition is positively regulated by RHAMM (p ≤ 0.01). Immunoflourescence and immunoprecipitation suggest that RHAMM/β-catenin form an intracellular complex. Transfection experiments identified c-myc as candidate downstream mediator of RHAMM/β-catenin effects on HT1080 fibrosarcoma cell proliferation.ConclusionsLMWHA/RHAMM downstream signaling regulates fibrosarcoma cell growth in a β-catenin/c-myc dependent manner.General significanceThe present study suggests that RHAMM is a novel β-catenin intracellular binding partner, protecting β-catenin from degradation and supporting the nuclear translocation of this key cellular mediator, which results in c-myc activation and enhanced fibrosarcoma cell growth.     

Let-7b contributes to hepatocellular cancer progression through Wnt/β-catenin signaling

Elevated evidences show that microRNAs (miRNAs) play vital roles in tumor progression regulation. However, the functional role of let-7b in hepatocellular carcinoma (HCC) is still largely unknown. In this study, we try to investigate the biological activity of let-7b in human HCC cells and try to find the potential regulatory signaling pathway. Our results indicate that let- 7b was remarkably down-regulated in human HCC tissues by qRT-PCR. In addition, let-7b overexpression decreased the expression of β-catenin and c-Myc, while upregulated E-cadherin expression in HCC cells which was verified by quantitative real-time PCR (qRT-PCR) and western blotting. Furthermore, Wnt/β-catenin was involved in let-7b biological activity which was revealed by luciferase assay. Moreover, Wnt/β-catenin signaling inhibitor blocks HCC cell proliferation which is as the same pattern as let-7b overexpression inhibits in HCC cells proliferation. In conclusion, down-regulated let-7b promotes HCC cell proliferation through Wnt/β-catenin signaling in HCC cells. These results suggested that appropriate manipulation of let-7b might be a new treatment of human HCC in the future.     

Protein kinases C isozymes are differentially expressed in human breast carcinomas

AimsThe protein kinase C (PKC) family of enzymes has been implicated in cellular proliferation, differentiation, and apoptosis. However, the distribution of specific PKC isoforms with varying functions in normal and malignant human tissues remains to be determined. The objective of this study was to investigate the expression of certain PKC isoforms (α, βI, βII, ε) in human breast cancer specimens relative to adjacent uninvolved tissue (n = 24) and in the normal breast tissue obtained from patients undergoing reduction mammoplasty (n = 12).Main methodsWestern blot analysis using PKC isoform specific antibodies was performed on tissue extracts from breast tumors, adjacent uninvolved tissues, and reduction mammoplasty tissues.Key findingsMean levels of cytosolic and membrane PKC-α, PKC-βI, and PKC-βII were significantly higher in the cancer specimens than in the adjacent uninvolved breast tissues (Wilcoxon signed-ranks test; P < 0.05 for each, after adjustment for multiple comparisons). There was a notably higher mean level of membrane PKC-βII isozyme in Her-2 positive and in poorly differentiated tumors. No significant differences were observed when normal tissue adjacent to tumor was compared to breast tissue obtained from reduction mammoplasty specimens.SignificanceHigher level of PKC-α, PKC-βI, and PKC-βII in cancer specimens and higher level of PKC-βII in Her-2 positive tumors require further exploration of the intracellular pathways involving PKC-α and -β isoforms in breast cancer because both could be specific targets for the development of new therapies and for the prevention and treatment of this disease.     

Limonoids with Wnt signal inhibitory activity isolated from the fruits of Azadirachta excelsa

The Wnt signal regulates various biological processes, and its aberrant activation is associated with the development of diseases. Thus, inhibiting the Wnt signal provides a promising strategy to treat these diseases. Our cell-based luciferase assay system, which targets the Wnt signal (TOP assay), revealed that Azadirachta excelsa inhibited the Wnt signal. The activity-guided isolation of the MeOH fruit extract of A. excelsa provided one new (1) and seven known (2–8) limonoids. Their structures were elucidated based on their spectroscopic data, and their NMR data were compared with those in the literature. Compounds 3–6 potently inhibited the Wnt signal with IC₅₀ values of 127 nM, 300 nM, 252 nM, and 121 nM, respectively. Compound 4 exhibited selective cytotoxicity against AGS and HCT116. Western blot analysis showed that 4 did not affect the level or localization of β-catenin, but downregulated the level of c-myc. Our results suggested that 4 may have inhibited the Wnt signal by affecting the components downstream of β-catenin.     

Dexamethasone increases αvβ3 integrin expression and affinity through a calcineurin/NFAT pathway

The purpose of this study was to determine how dexamethasone (DEX) regulates the expression and activity of αvβ3 integrin. FACS analysis showed that DEX treatment induced expression of an activated αvβ3 integrin. Its expression remained high as long as DEX was present and continued following DEX removal. FACS analysis showed that the upregulation of αvβ3 integrin was the result of an increase in the expression of the β3 integrin subunit. By real time qPCR, DEX treatment induced a 6.2-fold increase (p < 0.04) in β3 integrin mRNA by day 2 compared to control and remained elevated for 6 days of treatment and then an additional 10 days once the DEX was removed. The increase in β3 integrin mRNA levels required only 1 day of DEX treatment to increase levels for 4 days in the absence of DEX. In contrast, DEX did not alter β1 integrin mRNA or protein levels. The DEX-induced upregulation of β3 integrin mRNA was partly due to an increase in its half-life to 60.7 h from 22.5 h in control cultures (p < 0.05) and could be inhibited by RU486 and cycloheximide, suggesting that DEX-induced de novo protein synthesis of an activation factor was needed. The calcineurin inhibitors cyclosporin A (CsA) and FK506 inhibited the DEX induced increase in β3 integrin mRNA. In summary, the DEX-induced increase in β3 integrin is a secondary glucocorticoid response that results in prolonged expression of αvβ3 integrin and the upregulation of the β3 integrin subunit through the calcineurin/NFAT pathway.     

Skin self-examinations and visual identification of atypical nevi: Comparing individual and crowdsourcing approaches

PurposeSkin self-examination (SSE) is one method for identifying atypical nevi among members of the general public. Unfortunately, past research has shown that SSE has low sensitivity in detecting atypical nevi. The current study investigates whether crowdsourcing (collective effort) can improve SSE identification accuracy. Collective effort is potentially useful for improving people's visual identification of atypical nevi during SSE because, even when a single person has low reliability at a task, the pattern of the group can overcome the limitations of each individual.MethodsAdults (N = 500) were recruited from a shopping mall in the Midwest. Participants viewed educational pamphlets about SSE and then completed a mole identification task. For the task, participants were asked to circle mole images that appeared atypical. Forty nevi images were provided; nine of the images were of nevi that were later diagnosed as melanoma.ResultsConsistent with past research, individual effort exhibited modest sensitivity (.58) for identifying atypical nevi in the mole identification task. As predicted, collective effort overcame the limitations of individual effort. Specifically, a 19% collective effort identification threshold exhibited superior sensitivity (.90).ConclusionsThe results of the current study suggest that limitations of SSE can be countered by collective effort, a finding that supports the pursuit of interventions promoting early melanoma detection that contain crowdsourced visual identification components.     

Reduced incidence of skin cancer in patients with alopecia areata: A retrospective cohort study

The risk of skin cancer in patients with alopecia areata (AA) is unknown. While the risk of skin cancer in chronic inflammatory alopecias may be elevated, AA shares many characteristics with vitiligo, an autoimmune illness associated with decreased risk of melanoma and non-melanoma skin cancers. In this retrospective cohort study, we determined the risk of developing skin cancer among patients with AA in a validated cohort relative to matched controls at two tertiary care hospitals in Massachusetts. There was a significantly decreased risk of NMSC in AA patients than controls (OR = 0.63, 95% CI = 0.48–0.81). There was a trend towards a protective effect of AA associated with melanoma (OR = 0.65, 95% CI = 0.39–1.09). There was no difference in anatomic distribution of skin cancer between patients with AA and controls. Our study demonstrates a decreased risk of nonmelanoma skin cancer and a trend towards reduced risk of melanoma in patients with AA.     

Integrin β1 regulates leiomyoma cytoskeletal integrity and growth

Uterine leiomyomas are characterized by an excessive extracellular matrix, increased mechanical stress, and increased active RhoA. Previously, we observed that mechanical signaling was attenuated in leiomyoma, but the mechanisms responsible remain unclear. Integrins, especially integrin β1, are transmembrane adhesion receptors that couple extracellular matrix stresses to the intracellular cytoskeleton to influence cell proliferation and differentiation. Here we characterized integrin and laminin to signaling in leiomyoma cells. We observed a 2.25 ± 0.32 fold increased expression of integrin β1 in leiomyoma cells, compared to myometrial cells. Antibody-mediated inhibition of integrin β1 led to significant growth inhibition in leiomyoma cells and a loss of cytoskeletal integrity. Specifically, polymerization of actin filaments and formation of focal adhesions were reduced by inhibition of integrin β1. Inhibition of integrin β1 in leiomyoma cells led to 0.81 ± 0.02 fold decrease in active RhoA, and resembled levels found in serum-starved cells. Likewise, inhibition of integrin β1 was accompanied by a decrease in phospho-ERK. Compared to myometrial cells, leiomyoma cells demonstrated increased expression of integrin α6 subunit to laminin receptor (1.91 ± 0.11 fold), and increased expression of laminin 5α (1.52 ± 0.02), laminin 5β (3.06 ± 0.92), and laminin 5γ (1.66 ± 0.06). Of note, leiomyoma cells grown on laminin matrix appear to realign themselves. Taken together, the findings reveal that the attenuated mechanical signaling in leiomyoma cells is accompanied by an increased expression and a dependence on integrin β1 signaling in leiomyoma cells, compared to myometrial cells.     

Microbial transformation of β-lapachone to its glycosides by Cunninghamella elegans ATCC 10028b

β-lapachone (1) has entered phases I and II clinical trials for the treatment of solid tumors and the therapeutic efficacy of β-lapachone is closely related to its metabolic process. In order to contribute to a better understanding of human metabolism of β-lapachone, Cunninghamella elegans ATCC 10028b was used as a microbial model of mammalian metabolism to biotransform β-lapachone and two new glycosylated derivatives were produced. The chemical structures were elucidated as 6-hydroxy-2,2-dimethyl-3,4-dihydro-2H-naphtho[1,2-b]pyran-5-O-β-d-glucopyranoside (2) and 5-hydroxy-2,2-dimethyl-3,4-dihydro-2H-naphtho[1,2-b]pyran-6-O-β-d-glucopyranoside (3) by ¹H NMR, ¹³C NMR, HMBC, HMQC, COSY and HRMS analyses. The major derivative (3) displayed a lower activity against breast cancer cell line SKBR-3 (IC₅₀ = 312.5 μM) than β-lapachone (IC₅₀ = 5.6 μM), but did not show cytotoxicity against normal fibroblasts cell line GM07492-A, whereas β-lapachone was highly toxic (IC₅₀ = 7.25 μM). These metabolites were reported here for the first time and are similar to those that occur in phase II of human metabolism     

Ascending aortic adventitial remodeling and fibrosis are ameliorated with Apelin-13 in rats after TAC via suppression of the miRNA-122 and LGR4-β-catenin signaling

Apelin has been proved to be a critical mediator of vascular function and homeostasis. Here, we investigated roles of Apelin in aortic remodeling and fibrosis in rats with transverse aortic constriction (TAC). Male Sprague-Dawley rats were subjected to TAC and then randomized to daily deliver Apelin-13 (50 μg/kg) or angiotensin type 1 receptor (AT1) blocker Irbesartan (50 mg/kg) for 4 weeks. Pressure overload resulted in myocardial hypertrophy, systolic dysfunction, aortic remodeling and adventitial fibrosis with reduced levels of Apelin in ascending aortas of rat after TAC compared with sham-operated group. These changes were associated with marked increases in levels of miRNA-122, TGFβ1, CTGF, NFAT5, LGR4, and β-catenin. More importantly, Apelin and Irbesartan treatment strikingly prevented TAC-mediated aortic remodeling and adventitial fibrosis in pressure overloaded rats by blocking AT1 receptor and miRNA-122 levels and repressing activation of the CTGF-NFAT5 and LGR4-β-catenin signaling. In cultured primary rat adventitial fibroblasts, exposure to angiotensin II (100 nmol L⁻¹) led to significant increases in cellular migration and levels of TGFβ1, CTGF, NFAT5, LGR4 and β-catenin, which were effectively reversed by pre-treatment with Apelin (100 nmol L⁻¹) and miRNA-122 inhibitor (50 nmol L⁻¹). In conclusion, Apelin counterregulated against TAC-mediated ascending aortic remodeling and angiotensin II-induced promotion of cellular migration by blocking AT1 receptor and miRNA-122 levels and preventing activation of the TGFβ1-CTGF-NFAT5 and LGR4-β-catenin signaling, ultimately contributing to attenuation of aortic adventitial fibrosis. Our data point to Apelin as an important regulator of aortic remodeling and adventitial fibrosis and a promising target for vasoprotective therapies.     

Regulation of β-catenin trafficking to the membrane in living cells

β-catenin is a key mediator of the Wnt signaling process and accumulates in the nucleus and at the membrane in response to Wnt-mediated inhibition of GSK-3β. In this study we used live cell photobleaching experiments to determine the dynamics and rate of recruitment of β-catenin at membrane adherens junctions (cell adhesion) and membrane ruffles (cell migration). First, we confirmed the nuclear-cytoplasmic shuttling of GFP-tagged β-catenin, and found that a small mobile pool of β-catenin can move from the nucleus to membrane ruffles in NIH 3T3 fibroblasts with a t_0.5 of ~ 30 s. Thus, β-catenin can shuttle between the nucleus and plasma membrane. The localized recruitment of β-catenin-GFP to membrane ruffles was more rapid, and the strong recovery observed after bleaching (mobile fraction 53%, t_0.5 ~5 s) is indicative of high turnover and transient association. In contrast, β-catenin-GFP displayed poor recovery at adherens junctions in MDCK epithelial cells (mobile fraction 10%, t_0.5 ~8 s), indicating stable retention at these membrane structures. We previously identified IQGAP1 as an upstream regulator of β-catenin at the membrane, and this is supported by photobleaching assays which now reveal IQGAP1 to be more stably anchored at membrane ruffles than β-catenin. Further analysis showed that LiCl-mediated inactivation of the kinase GSK-3β increased β-catenin membrane ruffle staining; this correlated with a faster rate of recruitment and not increased membrane retention of β-catenin. In summary, β-catenin displays a high turnover rate at membrane ruffles consistent with its dynamic internalization and recycling at these sites by macropinocytosis.     

High glucose-induced hyperosmolarity impacts proliferation,cytoskeleton remodeling and migration of human induced pluripotent stem cells via aquaporin-1

Background and objective: Hyperglycemia leads to adaptive cell responses in part due to hyperosmolarity. In endothelial and epithelial cells, hyperosmolarity induces aquaporin-1 (AQP1) which plays a role in cytoskeletal remodeling, cell proliferation and migration. Whether such impairments also occur in human induced pluripotent stem cells (iPS) is not known. We therefore investigated whether high glucose-induced hyperosmolarity impacts proliferation, migration, expression of pluripotency markers and actin skeleton remodeling in iPS cells in an AQP1-dependent manner. Methods and results: Human iPS cells were generated from skin fibroblasts by lentiviral transduction of four reprogramming factors (Oct4, Sox2, Klf4, c-Myc). After reprogramming, iPS cells were characterized by their adaptive responses to high glucose-induced hyperosmolarity by incubation with 5.5 mmol/L glucose, high glucose (HG) at 30.5 mM, or with the hyperosmolar control mannitol (HM). Exposure to either HG or HM increased the expression of AQP1. AQP1 co-immunoprecipitated with β-catenin. HG and HM induced the expression of β-catenin. Under these conditions, iPS cells showed increased ratios of F-actin to G-actin and formed increased tubing networks. Inhibition of AQP1 with small interfering RNA (siRNA) reverted the inducing effects of HG and HM. Conclusions: High glucose enhances human iPS cell proliferation and cytoskeletal remodeling due to hyperosmolarity-induced upregulation of AQP1.