Erufosine increases RhoB expression in oral squamous carcinoma cells independent of its tumor suppressive mode of action - a short report.

PURPOSE: Recently, we found that erufosine (erucylphospho-N,N,N trimethylpropylammonium) can induce up-regulation of RhoB expression in oral squamous carcinoma (OSCC) cells, thereby hinting at a tumor suppressive role. Therefore, we aimed to evaluate the role of RhoB in the tumor suppressive mode of action of erufosine on OSCC cells. METHODS: Anti-proliferative effects of erufosine were determined in HN-5 and FaDu OSCC-derived cells using a MTT assay. RhoB up-regulation was detected using microarray and qRT-PCR-based expression assays at IC25, IC50 and IC75 concentrations of erufosine. The results obtained were verified by Western blotting. In addition, siRNA-mediated RhoB knockdown was carried out and combined with erufosine treatment, after which cell cycle, colony formation and migration assays were performed to evaluate its combined effects. RESULTS: We found that after erufosine treatment of HN-5 and FaDu cells for 24, 48 and 72 h the IC50 values ranged from 43 to 37 µM and 27- to 15 µM, respectively. Microarray and qRT-PCR-based expression analyses revealed RhoB up-regulation up to 9-fold and 20-fold, respectively. Using Western blotting, an increase in RhoB protein expression was observed, as well as a decrease in pAkt (Ser473 and Thr308) expression and an increase in PARP cleavage. Combined siRNA-mediated RhoB knockdown and erufosine treatment resulted in slightly reduced RhoB and pAkt levels compared to erufosine treatment alone. Subsequent cell cycle analyses revealed an increased apoptotic induction, but a reduced G2 cell cycle arrest, of the combination. At the functional level, synergistic effects were observed using cell migration and colony formation assays. CONCLUSIONS: Our data show that erufosine can cause up-regulation of RhoB expression in OSCC cells. Combining erufosine treatment with siRNA-mediated RhoB knockdown did, however, not reveal a role of RhoB in its tumor suppressive mode of action.

Dual inhibition of histone deacetylases and phosphoinositide 3-kinases: effects on Burkitt lymphoma cell growth and migration.

Burkitt lymphoma is a highly aggressive non-Hodgkin lymphoma that is characterized by MYC deregulation. Recently, the PI3K pathway has emerged as a cooperative prosurvival mechanism in Burkitt lymphoma. Despite the highly successful results of treatment that use high-dose chemotherapy regimens in pediatric Burkitt lymphoma patients, the survival rate of pediatric patients with progressive or recurrent disease is low. PI3Ks are also known to regulate cell migration, and abnormal cell migration may contribute to cancer progression and dissemination in Burkitt lymphoma. Little is known about Burkitt lymphoma cell migration, but the cooperation between MYC and PI3K in Burkitt lymphoma pathogenesis suggests that a drug combination could be used to target the different steps involved in Burkitt lymphoma cell dissemination and disease progression. The aim of this study was to investigate the effects of the histone deacetylase inhibitor suberoylanilide hydroxamic acid combined with the PI3K inhibitor LY294002 on Burkitt lymphoma cell growth and migration. The combination enhanced the cell growth inhibition and cell-cycle arrest induced by the PI3K inhibitor or histone deacetylase inhibitor individually. Moreover, histone deacetylase inhibitor/PI3K inhibitor cotreatment suppressed Burkitt lymphoma cell migration and decreased cell polarization, Akt and ERK1/2 phosphorylation, and leads to RhoB induction. In summary, the histone deacetylase inhibitor/PI3Ki combination inhibits cell proliferation and migration via alterations in PI3K signaling and histone deacetylase activity, which is involved in the acetylation of α-tubulin and the regulation of RhoB expression.

RhoB loss induces Rac1-dependent mesenchymal cell invasion in lung cells through PP2A inhibition.

Non-small-cell lung cancer (NSCLC) is the leading cause of cancer-related death worldwide, which is mainly due to its high risk of metastatic dissemination. One critical point of this process is the ability of cancer cells to detach from the primary tumor and migrate through the extracellular matrix; however, the underlying molecular mechanisms are not yet fully understood. In the present study, we identified the small GTPase RhoB as a key regulator of bronchial cell morphology in a three-dimensional (3D) matrix. RhoB loss, which is frequently observed during lung cancer progression, induced an epithelial-mesenchymal transition (EMT) characterized by an increased proportion of invasive elongated cells in 3D. The process was mediated by Slug induction and E-cadherin repression. In addition, downregulation of RhoB induced Akt1 activation, which in turn activated Rac1 through the guanine-exchange factor Trio to control cell shape rearrangement. Further, we provide evidence that RhoB interacted with and positively regulates phosphatase PP2A through the recruitment of its regulatory subunit B55, which was found to be crucial for Akt dephosphorylation. B55 inhibition completely suppressed RhoB-mediated PP2A regulation. Finally, we show that PP2A inactivation, by targeting either its catalytic or its regulatory B55 subunit, completely reversed RhoB-dependent morphological changes and also fully prevented the ability of RhoB to decrease the invasiveness of bronchial cells. Altogether, these results highlight a novel signaling axis and describe new molecular mechanisms that could explain the tumor suppressor role of RhoB in lung cancer. Therefore, we propose that RhoB could be responsible for early metastatic prevention by inhibiting the EMT-derived invasiveness of lung cells through the control of PP2A activity.

Sp1-driven up-regulation of miR-19a decreases RHOB and promotes pancreatic cancer.

Cancer treatment alters microRNA (miRNA) expression, revealing potential therapeutic targets (oncotarget). Here we treated pancreatic cancer (ASPC-1) cells with either recombinant human endostatin (rh-endostatin) or gemcitabine. Then high-throughput sequencing assay was performed to screen for altered miRNAs. Both treatments decreased levels of MiR-19a. We found that miR-19a stimulated cell proliferation, migration, invasion in vitro and tumor growth in vivo. High levels of miR-19a correlated with poor prognosis in patients. Ras homolog family member B (RHOB) was identified as a direct target of miR-19a. Furthermore, RHOB was down-regulated in human pancreatic cancer samples. Restoration of RHOB induced apoptosis, inhibited proliferation and migration of ASPC-1 cells. SP-1 was identified as an upstream transcription factor of miR-19a gene, promoting miR-19a transcription. Rh-endostatin decreased miR-19a expression by down-regulating SP-1. These findings suggest that miR-19a is a potential therapeutic target in pancreatic cancer.

Immunolocalization of RhoA and RhoB GTPases in pleomorphic adenoma of the parotid.

The pleomorphic adenoma of the parotid (PA) is characterized by the high tissues diversity. Rho GTPases participate in signal transduction pathways that regulate several biological processes, including cell differentiation. A quantitative analysis of RhoA and RhoB GTPases immunoexpression was performed in healthy parotids and in 23 PA cases, predominantly epithelial (PE) or mesenchymal (PM), followed by Student's t test. In PE cases, RhoA immunoexpression was higher in sheets and trabeculae (p < 0.05), whereas RhoB only in sheets (p < 0.05). In normal parotids, RhoA and RhoB were not detected in acinar cells. Ducts have expressed RhoA and RhoB in normal parotids and PA. RhoB was detected in myxoid and chondromyxoid cells. Normal parotids do not express RhoA and RhoB proteins in acinar cells, indicating a lack of function in secretory cells. Despite RhoA and RhoB GTPases are different in their biological roles, no significant difference in immunoexpression of the RhoA and RhoB GTPases in epithelial and mesenchymal structures of PA.

RhoB promotes γH2AX dephosphorylation and DNA double-strand break repair.

Unlike other Rho GTPases, RhoB is rapidly induced by DNA damage, and its expression level decreases during cancer progression. Because inefficient repair of DNA double-strand breaks (DSBs) can lead to cancer, we investigated whether camptothecin, an anticancer drug that produces DSBs, induces RhoB expression and examined its role in the camptothecin-induced DNA damage response. We show that in camptothecin-treated cells, DSBs induce RhoB expression by a mechanism that depends notably on Chk2 and its substrate HuR, which binds to RhoB mRNA and protects it against degradation. RhoB-deficient cells fail to dephosphorylate γH2AX following camptothecin removal and show reduced efficiency of DSB repair by homologous recombination. These cells also show decreased activity of protein phosphatase 2A (PP2A), a phosphatase for γH2AX and other DNA damage and repair proteins. Thus, we propose that DSBs activate a Chk2-HuR-RhoB pathway that promotes PP2A-mediated dephosphorylation of γH2AX and DSB repair. Finally, we show that RhoB-deficient cells accumulate endogenous γH2AX and chromosomal abnormalities, suggesting that RhoB loss increases DSB-mediated genomic instability and tumor progression.

New synthetic aliphatic sulfonamido-quaternary ammonium salts as anticancer chemotherapeutic agents.

RhoB is expressed during tumor cell proliferation, survival, invasion, and metastasis. In malignant progression, the expression levels of RhoB are commonly attenuated. RhoB is known to be linked to the regulation of the PI3K/Akt survival pathways. Based on aliphatic amido-quaternary ammonium salts that induce apoptosis via up-regulation of RhoB, we synthesized novel aliphatic sulfonamido-quaternary ammonium salts. These new synthetic compounds were evaluated for their biological activities using an in vitro RhoB promoter assay in HeLa cells, and in a growth inhibition assay using human cancer cell lines including PC-3, NUGC-3, MDA-MB-231, ACHN, HCT-15, and NCI-H23. Compound 5b (ethyl-dimethyl-{3-[methyl-(tetradecane-1-sulfonyl)-amino]-propyl}-ammonium; iodide) was the most promising anticancer agent in the series, based upon the potency of growth inhibition and RhoB promotion. These new aliphatic sulfonamido-quaternary ammonium salts could be a valuable series for development of new anticancer chemotherapeutic agents.

RhoB modifies estrogen responses in breast cancer cells by influencing expression of the estrogen receptor.

INTRODUCTION: RhoB has been reported to exert positive and negative effects on cancer pathophysiology but an understanding of its role in breast cancer remains incomplete. Analysis of data from the Oncomine database showed a positive correlation between RhoB expression and positivity for both estrogen receptor alpha (ERα) and progesterone receptor (PR). METHODS: This finding was validated by our analysis of a tissue microarray constructed from a cohort of 113 patients and then investigated in human cell models. RESULTS: We found that RhoB expression in tissue was strongly correlated with ERα and PR expression and inversely correlated with tumor grade, tumor size and count of mitosis. In human breast cancer cell lines, RhoB attenuation was associated with reduced expression of both ERα and PR, whereas elevation of RhoB was found to be associated with ERα overexpression. Mechanistic investigations suggested that RhoB modulates ERα expression, controlling both its protein and mRNA levels, and that RhoB modulates PR expression by accentuating the recruitment of ERα and other major co-regulators to the promoter of PR gene. A major consequence of RhoB modulation was that RhoB differentially regulated the proliferation of breast cancer cell lines. Interestingly, we documented crosstalk between RhoB and ERα, with estrogen treatment leading to RhoB activation. CONCLUSION: Taken together, our findings offer evidence that in human breast cancer RhoB acts as a positive function to promote expression of ERα and PR in a manner correlated with cell proliferation.

Gallic acid inhibits gastric cancer cells metastasis and invasive growth via increased expression of RhoB, downregulation of AKT/small GTPase signals and inhibition of NF-κB activity.

Our previous study demonstrated the therapeutic potential of gallic acid (GA) for controlling tumor metastasis through its inhibitory effect on the motility of AGS cells. A noteworthy finding in our previous experiment was increased RhoB expression in GA-treated cells. The aim of this study was to evaluate the role of RhoB expression on the inhibitory effects of GA on AGS cells. By applying the transfection of RhoB siRNA into AGS cells and an animal model, we tested the effect of GA on inhibition of tumor growth and RhoB expression. The results confirmed that RhoB-siRNA transfection induced GA to inhibit AGS cells' invasive growth involving blocking the AKT/small GTPase signals pathway and inhibition of NF-κB activity. Finally, we evaluated the effect of GA on AGS cell metastasis by colonization of tumor cells in nude mice. It showed GA inhibited tumor cells growth via the expression of RhoB. These data support the inhibitory effect of GA which was shown to inhibit gastric cancer cell metastasis and invasive growth via increased expression of RhoB, downregulation of AKT/small GTPase signals and inhibition of NF-κB activity. Thus, GA might be a potential agent in treating gastric cancer.

Simvastatin inhibits glucose-stimulated vascular smooth muscle cell migration involving increased expression of RhoB and a block of Ras/Akt signal.

BACKGROUND: Diabetic patients are at high risk to develop atherosclerotic cardiovascular disease and have a higher restenotic rate after percutaneous coronary intervention (PCI). Statins improve cardiovascular outcome and reduce restenosis after PCI by inhibiting proliferation and migration of vascular smooth muscle cells (VSMCs). But the effect of statins on diabetes without dyslipidemia was still not fully understood. Our previous study has demonstrated that simvastatin inhibits VSMC proliferation in high glucose status without dyslipidemia, inducing a G0/G1 phase cell cycle growth arrest by acting on multiple steps upstream of pRb, including inhibition of CDK2/4 expression and upregulation of p53, p21, p16, and p27. METHOD: Following our previous study, we investigated the mechanism of simvastatin inhibition of VSMC migration in a diabetes-like model (A7r5 cells under high glucose conditions without dyslipidemia). RESULTS: Under high glucose conditions, simvastatin dose-dependently inhibited VSMC migration, decreased PI3K/Akt pathway activity, reduced c-Raf and Ras expression, increased RhoB but not RhoA, Rac1, and Cdc2 expression, dose-dependently inhibited MMP-2, but not MMP-9, activity, and dose-dependently inhibited NF-κB activity. CONCLUSION: The inhibition of VSMC migration under high glucose conditions was via two different pathways. The first pathway is mevalonate-related but not RhoA protein-related and involves suppression of Ras and PI3K/Akt signals. The second pathway is not mevalonate-related and involves increasing RhoB expression directly.

ETS-1/RhoC signaling regulates the transcription factor c-Jun in melanoma.

Recently, we discovered that the loss of E-cadherin induces c-Jun protein expression, which is a member of the AP-1 transcription factor family and a key player in the processes of cell proliferation and tumor development and also found in elevated levels in melanomas. Notably, the mRNA level of c-Jun was not affected, suggesting that c-Jun is regulated at post-transcriptional level. Here, we present data that suggest that the dynamic cytoskeletal network, linked to E-cadherin, is involved in the regulation of the c-Jun protein and transcriptional activity. In a signaling cascade, the loss of E-cadherin activates the transcriptional regulator ETS-1 and consequently leads to the induction of RhoC expression that stabilizes c-Jun in melanoma. The link between RhoC and c-Jun seems to be indirect via the cytoskeleton. We conclude that the loss of E-cadherin mediated cell-adhesion induces c-Jun protein expression in a multistep process, offering several possibilities for therapeutic intervention.

[Improved therapeutic effectiveness by combining recombinant human RhoB with low-dose cisplatin in human lung cancer in nude mice].

OBJECTIVE: To determine the antitumor effects of the recombinant human RhoB with low-dose cisplatin in lung carcinoma models. METHODS: The pVITRO2-RhoB recombinant was constructed and transfected into A549 cells. Its expression and the inhibition effect to the A549 cells were observed models. A549 lung carcinoma mice were treated with either RhoB or cisplatin or both agents together. And the change of tumor size, the survive time of mice, the apoptosis of tumor were also observed. RESULTS: The pVITRO2-RhoB recombinant was constructed successfully. This recombinant could inhibit the growth and promote the apoptosis of A594 in vitro. Mice treated with RhoB or low-dose cisplatin treatment individually resulted in tumor inhibition to a certain extent. Mice treated with combination of RhoB and low-dose cisplatin resulted in synergistic antitumor activity with more effective tumor inhibition (P < 0.05) and longer survival (P < 0.05). TUNEL analysis of tumors exhibited that RhoB in combination with cisplatin led to the increased rate of apoptosis (P < 0.05). CONCLUSION: Our data demonstrated that RhoB could increase the sensitivity of lung carcinoma to cisplatin, resulting in enhanced anti-tumor activity. These results suggest that combination with recombinant human RhoB with chemotherapy drugs may be an effective approach in the treatment of lung carcinoma.

Induction of small G protein RhoB by non-genotoxic stress inhibits apoptosis and activates NF-κB.

It has been reported by us and other groups that the expression of small GTP binding protein RhoB can be induced by genotoxic stressors and glucocorticoid (GC), a stress hormone that plays a key role in stress response. Until now stress-induced genes that confer cytoprotection under stressed conditions are largely unknown. In this study, we investigated the effects and mechanism of non-genotoxic stressors, including scalding in vivo and heat stress in vitro on the expression of RhoB. We found for the first time that both scalding, which could induce typical neuroendocrine responses of acute stress and cellular heat stress significantly increased the expression of RhoB at mRNA and protein levels. Moreover, in vitro experiments in human lung epithelial cells (A549) showed that induction of RhoB by heat stress was in a glucocorticoid receptor (GR)-independent manner and through multiple pathways including stabilization of RhoB mRNA and activation of p38 MAPK. Further experiments demonstrated that up-regulation of RhoB significantly inhibited heat stress-induced apoptosis and elevated transcriptional activity of NF-κB, but did not affect the expression of Hsp70 in A549 cells. In conclusion, we showed for the first time that RhoB was up-regulated by scalding in vivo and heat stress in vitro and played an important cytoprotective role during heat stress-induced apoptotic cell death.

Immunohistological profile of the Ras homologous B protein (RhoB) in human testes showing normal spermatogenesis, spermatogenic arrest and Sertoli cell only syndrome.

Ras homologous B protein (RhoB) belongs to the Ras homologous subfamily which consists of low molecular weight (21 kDa) GTP-binding proteins. Rho proteins are regulatory molecules associated with various kinases and as such they mediate changes in cell shape, contractility, motility and gene expression. To date, no data are available about the expression pattern of RhoB protein in the human testis showing normal and abnormal spermatogenesis. The present study addresses these issues. Human testicular biopsy specimens were obtained from patients suffering from post-testicular infertility (testis showing normal spermatogenesis, 10 cases) and testicular infertility (testis showing Sertoli cell only syndrome and spermatogenic arrest, 10 patients each). The expression of RhoB was examined using in situ immunofluorescent staining methods. In testes showing normal spermatogenesis, RhoB had a strong expression in the seminiferous epithelium (cytoplasm of Sertoli-cells, spermatogonia and spermatocytes) and in the interstitium (Leydig cells). RhoB expression was weak in the myofibroblasts and absent in the spermatids and sperms. In the testes showing abnormal spermatogenesis, RhoB expression was moderate in the seminiferous epithelium (cytoplasm of Sertoli cells, spermatogonia and spermatocytes) and was completely absent in the Leydig cells, myofibroblasts, spermatids and sperms. To the best of our knowledge, this study provides the first morphological indication that RhoB protein is expressed in human testis and its expression undergoes testicular infertility associated changes. These findings suggest the involvement of RhoB in the process of spermatogenesis in human and their possible therapeutic ramifications in testicular infertility are open for further investigations.

Increase of RhoB in gamma-radiation-induced apoptosis is regulated by c-Jun N-terminal kinase in Jurkat T cells.

The Ras-related small GTP-binding protein RhoB is known to be a pro-apoptotic protein and immediate-early inducible by genotoxic stresses. In addition, JNK activation is known to function in gamma-radiation-induced apoptosis. However, it is unclear how JNK activation and gamma-radiation-dependent RhoB induction are related. Here we verified the relationship between JNK activation and RhoB induction. RhoB induction by gamma-radiation occurred at the transcriptional level and transcriptional activation of RhoB was concomitant with an increase in RhoB protein. gamma-Radiation-induced RhoB expression was markedly attenuated by pretreatment with a JNK-specific inhibitor, SP600125, but not by a p38 MAPK inhibitor, SB203580. Inhibition of JNK caused a decrease in early apoptotic cell death that correlated with RhoB expression. However, PI3K inhibition had no significant effects, indicating that the AKT survival pathway was not involved. The siRNA knockdown of JNK resulted in a decrease in RhoB expression and the siRNA knockdown of RhoB restored cell growth even in the gamma-irradiated cells. These results suggest that RhoB regulation involves the JNK pathway and contributes to the early apoptotic response of Jurkat T cells to gamma-radiation.

Loss of RhoB expression enhances the myelodysplastic phenotype of mammalian diaphanous-related Formin mDia1 knockout mice.

Myelodysplastic syndrome (MDS) is characterized by ineffective hematopoiesis and hyperplastic bone marrow. Complete loss or interstitial deletions of the long arm of chromosome 5 occur frequently in MDS. One candidate tumor suppressor on 5q is the mammalian Diaphanous (mDia)-related formin mDia1, encoded by DIAPH1 (5q31.3). mDia-family formins act as effectors for Rho-family small GTP-binding proteins including RhoB, which has also been shown to possess tumor suppressor activity. Mice lacking the Drf1 gene that encodes mDia1 develop age-dependent myelodysplastic features. We crossed mDia1 and RhoB knockout mice to test whether the additional loss of RhoB expression would compound the myelodysplastic phenotype. Drf1(-/-)RhoB(-/-) mice are fertile and develop normally. Relative to age-matched Drf1(-/-)RhoB(+/-) mice, the age of myelodysplasia onset was earlier in Drf1(-/-)RhoB(-/-) animals--including abnormally shaped erythrocytes, splenomegaly, and extramedullary hematopoiesis. In addition, we observed a statistically significant increase in the number of activated monocytes/macrophages in both the spleen and bone marrow of Drf1(-/-)RhoB(-/-) mice relative to Drf1(-/-)RhoB(+/-) mice. These data suggest a role for RhoB-regulated mDia1 in the regulation of hematopoietic progenitor cells.

Loss of RhoB expression promotes migration and invasion of human bronchial cells via activation of AKT1.

Lung cancer is the leading cause of cancer-related death worldwide, mainly due to its highly metastatic properties. Previously, we reported an inverse correlation between RhoB expression and the progression of the lung cancer, occurring between preinvasive and invasive tumors. Herein, we mimicked the loss of RhoB observed throughout lung oncogenesis with RNA interference in nontumoral bronchial cell lines and analyzed the consequences on both cell transformation and invasion. Down-regulation of RhoB did not modify the cell growth properties but did promote migration and invasiveness. Furthermore, RhoB depletion was accompanied by modifications of actin and cell adhesion. The specific activation of the Akt1 isoform and Rac1 was found to be critical for this RhoB-mediated regulation of migration. Lastly, we showed that RhoB down-regulation consecutive to K-RasV12 cell transformation is critical for cell motility but not for cell proliferation. We propose that RhoB loss during lung cancer progression relates to the acquisition of invasiveness mediated by the phosphatidylinositol 3-kinase (PI3K)/AKT and Rac1 pathways rather than to tumor initiation.

Progression of breast tumors is accompanied by a decrease in expression of the Rho guanine exchange factor Tiam1.

In this study, we investigated the expression level of Ras-homologous (Rho) GTPases and the Rho guanine exchange factor (GEF) T-cell lymphoma invasion and metastasis 1 (Tiam1) in breast tumor specimens (n=106) by immunohistochemistry. Rho and Rho-GEF expression scores were compared to clinically established diagnostic and prognostic parameters. We found that RhoA and RhoB scores slightly increased with tumor grade, whereas the Rac1 score remained unaffected. The most significant effects were observed for the Rac1-specific GEF Tiam1. Tiam1 expression scores significantly decreased with the increase in tumor grade, tumor spreading and proliferation. Furthermore, Tiam1 expression was inversely related to the plasminogen activator inhibitor (PAI-1) and estrogen receptor (ER) expression but not the progesterone receptor (PR) and urokinase plasminogen activator (uPA). A low Tiam1 expression was associated with p53 positivity without being related to HER2/neu status. The data show that Tiam1 expression decreases with the progression of breast carcinomas and is inversely associated with several established breast tumor markers. Therefore, we suggest that Tiam1 counteracts the progression of breast carcinomas and is suitable as a novel breast tumor marker.

A novel mechanism of TGFbeta-induced actin reorganization mediated by Smad proteins and Rho GTPases.

In previous studies, we have demonstrated that RhoA/B-dependent signaling regulates TGFbeta-induced rapid actin reorganization in Swiss 3T3 fibroblasts. Here we report that TGFbeta regulates long-term actin remodeling by increasing the steady-state mRNA levels of the RhoB gene in mouse Swiss 3T3 fibroblasts and human hepatoma HepG2 cells. We show that this regulation is specific for the RhoB gene and is facilitated by enhanced activity of the RhoB promoter. Adenovirus-mediated gene transfer of Smad2 and Smad3 in Swiss 3T3 fibroblasts induced transcription of the endogenous RhoB gene but not the RhoA gene. Interestingly, in JEG-3 choriocarcinoma cells that lack endogenous Smad3, TGFbeta-induced transcriptional up-regulation of the RhoB gene was not observed, but it was restored by adenoviral Smad3 overexpression. In addition, Smad2 and Smad3 triggered activation of RhoA and RhoB GTPases and long-term actin reorganization in Swiss 3T3 fibroblasts. Finally, Smad3, and to a lesser extent Smad2, induced transcription of the alpha-smooth muscle actin (alpha-SMA) gene, and enhanced the incorporation of alpha-SMA into microfilaments in Swiss 3T3 fibroblasts. These data reveal a novel mechanism of cross-talk between the classical TGFbeta/Smad pathway and Rho GTPases, regulating the rapid and the long-term actin reorganization that may control the fibroblast-myofibroblast differentiation program.

Epigenetic regulation of RhoB loss of expression in lung cancer.

BACKGROUND: RhoB is down-regulated in most lung cancer cell lines and tumor tissues when compared with their normal counterparts. The mechanism of this loss of expression is not yet deciphered. METHODS: Since no mutation has been reported in the RhoB sequence, we investigated the epigenetic regulation of RhoB expression by analyzing the effect of HDAC inhibitors and methyltransferase inhibitors, by direct sequencing after bisulfite treatment and by methylation specific PCR. RESULTS: We first showed that histone deacetylase (HDAC) inhibitors induce a significant RhoB re-expression in lung cancer cell lines whereas only a slight effect was observed with methyl transferase inhibitors. As promoter methylation is the most common epigenetic process in lung cancer, we performed methylation specific PCR and sequence analysis after bisulfite treatment and demonstrated that RhoB was methylated neither in lung cancer cell lines nor in tumor tissues. We also showed that a variable number of tandem repeats sequences in the 5' region of the RhoB gene was involved in HDAC response. CONCLUSION: We thus propose that RhoB regulation of expression occurs mainly by histone deacetylation rather than by promoter hypermethylation and that this process can be modulated by specific 5' sequences within the promoter.