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ABSTRACT: Esophageal adenocarcinoma (EAC) is one of the two most common types of esophageal cancer with alarming rise in incidence and very poor prognosis. Aiming to detect EAC early, currently high risk patients are monitored using an endoscopic-biopsy approach. However, this approach is prone to sampling error and inter-observer variability. Diagnostic tissue biomarkers related to genomic and cell cycle abnormalities have shown promising results although with current technology these tests are difficult to implement in the screening of high risk patients for early neoplastic changes. Differential microRNA profiles and aberrant protein glycosylation in tissue samples has been reported to improve performance of existing tissue based diagnostic biomarkers. In contrast to tissue biomarkers, circulating biomarkers are more amenable to population screening strategies, due to the ease and low cost of testing. Studies have already shown altered circulating glycans and DNA methylation in BE/EAC while disease-associated changes in circulating microRNA remain to be determined. Future research should focus on identification and validation of these circulating biomarkers in large scale trials in order to develop in vitro diagnostic tool to screen population at risk for EAC development.
Cancer Epidemiology Biomarkers & Prevention 04/2013; · 4.12 Impact Factor
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ABSTRACT: PURPOSE: Head and neck squamous cell carcinoma (HNSCC) is one of the most prevalent cancers diagnosed worldwide and is associated with a 5-year survival rate of 55%. EZH2, a component of the polycomb repressor complex 2, trimethylates H3K27 (H3K27me3); which has been shown to drive squamous differentiation in normal keratinocytes. This study determined whether inhibition of EZH2-mediated epigenetic silencing could induce differentiation or provide therapeutic benefit in HNSCC. EXPERIMENTAL DESIGN: We determined the effects of inhibiting EZH2, by either RNA interference or pharmacologically, on HNSCC growth, viability and differentiation in vitro. Xenografts of HNSCC cell lines were used to assess efficacy of 3-Deazaneplanocin A (DZNep), an inhibitor of H3K27 trimethylation, in vivo. RESULTS: EZH2 was highly expressed in HNSCC cell lines in vitro and tissue microarray analysis revealed high expression in (n= 59) in situ relative to normal oral epithelium (n=12). Inhibition of EZH2 with siRNA could induce expression of differentiation genes in differentiation-refractory squamous cell carcinoma cell lines. Differentiation-refractory HNSCC cell lines displayed persistent H3K27me3 on the promoters of differentiation genes. DZNep caused cancer-cell specific apoptosis in addition to a profound reduction in colony forming efficiency and induction of some squamous differentiation genes. Furthermore, in vivo, DZNep attenuated tumour growth in two different xenograft models, caused intra-tumour inhibition of EZH2 and induction of differentiation genes in situ. CONCLUSIONS: Collectively, these data suggest that aberrant differentiation in HNSCC may be attributed to epigenetic dysregulation and suggests that inhibition of PRC2-mediated gene repression may represent a potential therapeutic target.
Clinical Cancer Research 11/2012; · 7.74 Impact Factor
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ABSTRACT: Osteosarcoma (OS) is the most common primary bone tumour in the paediatric age group. Treatment-refractory pulmonary metastasis continues to be the major complication of OS, reducing the 5-year survival rate for these patients to 10-20%. The mechanisms underlying the metastatic process in OS are still unclear, but undoubtedly, a greater understanding of the factors and interactions involved in its regulation will open new and much needed opportunities for therapeutic intervention. Recent published data have identified a new role for bone-specific macrophages (osteoclasts) and tumour-associated macrophages (TAMs), in OS metastasis. In this review we discuss the contribution of TAMs and osteoclasts in the establishment and maintenance of secondary metastatic lesions, and their novel role in the prevention of metastatic disease in a primary bone cancer such as osteosarcoma.
Biochimica et Biophysica Acta 07/2012; 1826(12):434-42. · 4.66 Impact Factor
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ABSTRACT: Drug resistance continues to be a major barrier to the delivery of curative therapies in cancer. Historically, drug resistance has been associated with over-expression of drug transporters, changes in drug kinetics or amplification of drug targets. However, the emergence of resistance in patients treated with new-targeted therapies has provided new insight into the complexities underlying cancer drug resistance. Recent data now implicate intratumoural heterogeneity as a major driver of drug resistance. Single cell sequencing studies that identified multiple genetically distinct variants within human tumours clearly demonstrate the heterogeneous nature of human tumours. The major contributors to intratumoural heterogeneity are (i) genetic variation, (ii) stochastic processes, (iii) the microenvironment and (iv) cell and tissue plasticity. Each of these factors impacts on drug sensitivity. To deliver curative therapies to patients, modification of current therapeutic strategies to include methods that estimate intratumoural heterogeneity and plasticity will be essential.
EMBO Molecular Medicine 06/2012; 4(8):675-84. · 10.33 Impact Factor
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ABSTRACT: While the etiology of breast cancer remains enigmatic, some recent reports have examined the role of human papillomavirus (HPV) in breast carcinogenesis. The purpose of this study was to determine the prevalence of HPV in breast cancer tissue using PCR analysis and sequencing. Fifty-four (54) fresh frozen breast cancers samples that were removed from a cohort of breast cancer patients were analyzed. Samples were tested for HPV using comprehensive PCR primers, and in situ hybridization was performed on paraffin embedded tissue sections. Findings were correlated with clinical and pathological characteristics. The HPV DNA prevalence in the breast cancer samples was 50% (27/54) with sequence analysis indicating all cases to be positive for HPV-18 type. While HPV patients were slightly younger, no correlation was noted for menopausal status or family history. HPV positive tumors were smaller with earlier T staging and demonstrated lesser nodal involvement compared to HPV negative cancers. In situ hybridization analyses proved negative. The high proportion of HPV positive breast cancers detected in this series using fresh frozen tissues cannot be dismissed, however the role of HPV in breast carcinogenesis remains unclear and may ultimately be ascertained by monitoring future breast cancer incidence amongst women vaccinated against high risk HPV types.
Journal of Medical Virology 12/2011; 83(12):2157-63. · 2.82 Impact Factor
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ABSTRACT: Squamous differentiation is controlled by key transcription factors such as Sp1 and E2F. We have previously shown that E2F1 can suppress transcription of the differentiation-specific gene, transglutaminase type 1 (TG1), by an indirect mechanism mediated by Sp1. Transient transfection of E2F1-E2F6 indicated that E2F-mediated reduction of Sp1 transcription was not responsible for E2F-mediated suppression of squamous differentiation. However, we found that E2F4 and E2F7, but not E2Fs 1, 2, 3, 5, or 6, could suppress the activation of the Sp1 promoter in differentiated keratinocytes (KCs). E2F4-mediated suppression could not be antagonized by E2Fs 1, 2, 3, 5, or 6 and was localized to a region of the human Sp1 promoter spanning -139 to + 35 bp. Chromatin immunoprecipitation analysis, as well as transient overexpression and short hairpin RNA knockdown experiments indicate that E2F7 binds to a unique binding site located between -139 and -119 bp of the Sp1 promoter, and knockdown of E2F7 in proliferating KCs leads to a derepression of Sp1 expression and the induction of TG1. In contrast, E2F4 knockdown in proliferating KCs did not alter Sp1 expression. These data indicate that loss of E2F7 during the initiation of differentiation leads to the derepression of Sp1 and subsequent transcription of differentiation-specific genes such as TG1.
Journal of Investigative Dermatology 01/2011; 131(5):1077-84. · 6.31 Impact Factor
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ABSTRACT: Tumor initiation (TI) in xenotransplantation models of head and neck squamous cell carcinoma (HNSCC) is an inefficient process. Poor TI could be due to (1) posttransplant cell loss, (2) a rare sub-population of cancer stem cells or (3) a requirement for specific cellular interactions, which rely on cell number. By tracking GFP-expressing HNSCC cells, we conclude that the posttransplant loss of cancer cells is minimal in the xenotransplant model. Furthermore, an examination of putative cancer stem cell markers (such as CD133, CD44, SP and label retention) in HNSCC cell lines revealed no correlation between marker expression and tumorigenicity. In addition, single-cell clones randomly isolated from HNSCC cell lines and then transplanted into mice were all capable of initiating tumors with efficiencies varying almost 34-fold. As the observed variation in the clones was both more and less tumorigenic than the parental cells, a combination of two clones, at suboptimal cell numbers for TI, was implanted into mice and was found to modulate the tumor-initiating activity, thus indicating that TI is dependent on a 'critical' number of cells and, for the first time, that interactions between clonal variants within tumors can modulate the overall tumor-initiating activity. Put in context with previous literature on tumorigenic activity, we believe that interactions between clonal variants within a tumor as well as (1) stromal interactions, (2) angiogenic activity, (3) immunocompetence and (4) cancer stem cells may all contribute to tumorigenic potential and the propensity for tumor growth and recurrence.
Laboratory Investigation 11/2010; 90(11):1594-603. · 3.64 Impact Factor
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Liliana Endo-Munoz,
Andrew Cumming,
Danny Rickwood,
Danielle Wilson,
Claudia Cueva,
Charlotte Ng,
Geoffrey Strutton,
A Ian Cassady,
Andreas Evdokiou,
Scott Sommerville,
Ian Dickinson,
Alexander Guminski, Nicholas A Saunders
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ABSTRACT: We conducted a transcriptomic screen of osteosarcoma (OS) biopsies and found that expression of osteoclast-specific tartrate-resistant acid phosphatase 5 (ACP5/TRAP) is significantly downregulated in OS compared with nonmalignant bone (P < 0.0001). Moreover, lesions from OS patients with pulmonary metastases had 2-fold less ACP5/TRAP expression (P < 0.018) than lesions from patients without metastases. In addition, we found a direct correlation (P = 0.0166) between ACP5/TRAP expression and time to metastasis. Therefore, we examined whether metastasis-competent (MC) OS cells could induce loss of ACP5(+) osteoclasts and contribute to metastasis. We found that MC OS cell lines can inhibit osteoclastogenesis in vitro and in vivo. In addition, osteoclasts can inhibit the migration of MC OS cells in vitro. Finally, ablation of osteoclasts with zoledronic acid increases the number of metastatic lung lesions in an orthotopic OS model, whereas fulvestrant treatment increases osteoclast numbers and reduces metastatic lesions. These data indicate that the metastatic potential of OS is determined early in tumor development and that loss of osteoclasts in the primary lesion enhances OS metastasis.
Cancer Research 09/2010; 70(18):7063-72. · 7.86 Impact Factor
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ABSTRACT: Head and neck squamous cell carcinoma (HNSCC) is characterized by the 5-year survival rate of approximately 50%. Despite aggressive surgical, radiation, and chemotherapeutic interventions, 30% to 40% of patients die from the development of recurrent or disseminated disease that is resistant to chemotherapy. As a model of recurrence, we examined the effects of cisplatin on the ability of head and neck cancer cells to initiate tumors in a xenotransplant model. HNSCC cells were treated in vitro with cisplatin at a concentration that elicited >99% cytotoxicity and assessed for tumorigenic potential in nonobese diabetic/severe combined immunodeficient mice. HNSCC cells that survived cisplatin treatment formed tumors in nonobese diabetic/severe combined immunodeficient mice more efficiently than nontreated cells. Cisplatin-resistant cells were characterized using clonal analysis, in vivo imaging, and transcriptomic profiling. Preliminary functional assessment of a gene, interleukin-6 (IL-6), highly upregulated in cisplatin-treated cells was carried out using clonogenicity and tumorigenicity assays. We show that cisplatin-induced IL-6 expression can contribute to the increase in tumorigenic potential of head and neck cancer cells but does not contribute to cisplatin resistance. Finally, through clonal analysis, we show that cisplatin-induced IL-6 expression and cisplatin-induced tumorigenicity are stochastically derived. We report that cisplatin treatment of head and neck cancer cells results in a transient accumulation of cisplatin-resistant, small, and IL-6-positive cells that are highly tumorigenic. These data also suggest that therapies that reduce IL-6 action may reduce recurrence rates and/or increase disease-free survival times in head and neck cancer patients, and thus, IL-6 represents a promising new target in HNSCC treatment.
Molecular Cancer Therapeutics 08/2010; 9(8):2430-9. · 5.23 Impact Factor
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ABSTRACT: We investigated whether differentiation-dependent expression of papillomavirus (PV) L1 genes is influenced by the cell cycle state in keratinocytes (KCs) grown in vitro or in vivo. In primary keratinocytes, flow cytometry revealed a clear shift from predominantly G0/G1 to G2/M cells from day 1 to day 7, with a three-fold increase in G2/M-like cells in day 7 keratinocytes that showed approximately 50% of the cells expressed a terminal differentiation marker involucrin. The correlation between the levels of the L1 proteins expressed from authentic (Nat) L1 genes of HPV6b and BPV1 and the frequencies of the G2/M-like KCs was significantly positive, while in contrast, a significantly negative correlation in the levels of L1 proteins expressed from codon-modified (Mod) L1 genes of HPV6b and BPV1 with the frequencies of the G2/M-like KCs was observed. Experiments using cell cycle arrest reagents (all-trans retinoic acid (RA) and colchicine) confirmed that L1 proteins expressed from PV Nat L1 genes were facilitated in G2/M-like KCs upon differentiation. Using immunofluorescence microscopy, it appears that L1 proteins from PV Nat L1 genes were co-expressed with cyclin B1, while the L1 proteins expressed from PV Mod L1 genes were preferentially associated with cyclin D2 in KCs in vitro and in mouse skin. Our results demonstrate that (1) expression of the L1 proteins from Nat L1 genes of HPV6b and BPV1 that have strong codon usage bias with A or T at codon third position dependent on KC differentiation is favoured by the G2/M-like environment and (2) codon modifications can alter the cell differentiation-dependent and cell cycle-associated patterns of expression of the PV L1 proteins in KCs.
Virology 03/2010; 399(1):46-58. · 3.35 Impact Factor
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ABSTRACT: The role of thymic versus peripheral epithelium in the regulation of the antigen-specific CD8 T-cell repertoire is still largely unresolved. We generated TCR-beta chain transgenic mice in which an increased frequency of peripheral CD8 T cells recognizes an epitope from a viral oncoprotein (HPV16E7) in the context of H-2D(b) MHC class I. When T cells from these mice developed through the thymus of mice expressing functional E7 protein from a keratin 14 promoter, no major perturbation to transgenic T-cell development in the thymus was observed in these double-transgenic mice. In contrast, peripheral CD8 T-cell responses in the single-transgenic, K14E7 mice, including those unrelated to E7 antigen, are reduced whereas CD4 T-cell responses and antibody production are unchanged in these mice. Peripheral non-responsiveness among CD8 T cells was mediated largely by CD4(+)CD25(+) T cells. This suggested that epithelium expressing HPV16E7 protein induces Treg that specifically down-regulate CD8 T-cell responses in the periphery. This may have important consequences for the treatment of cervical pre-cancers and provides a model for understanding differential suppression of T and B lymphocyte subsets by Treg.
European Journal of Immunology 02/2009; 39(2):481-90. · 5.10 Impact Factor
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ABSTRACT: Sp1 is a transcription factor that regulates expression of mammalian and viral genes and is involved in different facets of cellular functions in eukaryotic cells. Here, we investigated Sp1 expression in primary mouse and human keratinocyte (KC) culture using quantitative reverse transcriptase polymerase chain reaction, Western blot, and immunofluorescence microscopy. Expression of Sp1 was post-transcriptionally up-regulated with increasing time in primary KC cultures. Sp1 expression, coincident with expression of human papillomavirus L1 capsid protein and involucrin, was associated with cell differentiation in vitro and in vivo in human and mouse skins. Immunoprecipitation experiments showed that Sp1 and L1 could be bound in a complex. Calcium (Ca(2+)) and all-trans retinoic acid are the positive modulators of KC differentiation, which positively and negatively regulated Sp1 and L1 expression. The data suggest that coincident expression of Sp1 with L1 proteins in differentiating KCs is mediated by a calcium-dependent signaling pathway.
Differentiation 08/2008; 76(10):1068-80. · 2.81 Impact Factor
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ABSTRACT: Here, we first wished to establish for mouse primary keratinocytes (KCs) the Ca(2+) concentrations that were associated with KC differentiation in vitro. Using the range of Ca(2+) concentrations (0-6 mM) to differentiate primary KCs in culture to varying extents for 2 days, we then examined how KC differentiation impacted on expression of papillomavirus (PV) native (Nat) and codon modified (Mod) L1 genes. L1 mRNAs transcribed from either Nat or Mod L1 genes were present in similar amounts in KCs exposed to six Ca(2+) concentrations. However, expression of the L1 proteins from two Mod L1 genes were down-regulated, with no L1 signal detected in KCs exposed to 6 mM Ca(2+). In contrast, L1 proteins expressed from the two Nat L1 genes were not detectable in KCs without Ca(2+), but dramatically up-regulated as the KC cultures exposed to Ca(2+) from 0.5 to 2 mM, then down-regulated in KCs exposed to Ca(2+) from 4 to 6 mM. The different regulatory roles of the Ca(2+) in L1 protein expression from Nat and Mod L1 genes in cultured KCs were confirmed by TGF-beta1 experiments. We observed that aminoacyl-tRNAs (aa-tRNAs) from the 2 mM Ca(2+)-treated KCs only significantly enhanced the Nat L1 mRNAs translation in vitro, suggesting that aa-tRNAs play a differentially regulatory role in translations of the PV Nat and Mod L1 mRNAs. Importantly, the Ca(2+) experimental model provides evidence that mouse primary KCs could be transiently infected by BPV1 virus to express L1 mRNA and protein, which is very useful for future HPV virus infection study.
Virology 09/2007; 365(1):187-97. · 3.35 Impact Factor
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Jennifer Walshe,
Magdalena M Serewko-Auret,
Ngari Teakle,
Sarina Cameron,
Kelly Minto,
Louise Smith,
Philip C Burcham,
Terry Russell,
Geoffrey Strutton,
Anthony Griffin,
Fong-Fong Chu,
Stephen Esworthy,
Vivienne Reeve, Nicholas A Saunders
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ABSTRACT: Cutaneous squamous cell carcinomas (CSCC) are a common malignancy of keratinocytes that arise in sites of the skin exposed to excessive UV radiation. In the present study, we show that human SCC cell lines, preneoplastic solar keratoses (SK), and CSCC are associated with perturbations in glutathione peroxidase (GPX) activity and peroxide levels. Specifically, we found that two of three SKs and four of five CSCCs, in vivo, were associated with decreased GPX activity and all SKs and CSCCs were associated with an elevated peroxide burden. Given the association of decreased GPX activity with CSCC, we examined the basis for the GPX deficiency in the CSCCs. Our data indicated that GPX was inactivated by a post-translational mechanism and that GPX could be inactivated by increases in intracellular peroxide levels. We next tested whether the decreased peroxidase activity coupled with an elevated peroxidative burden might contribute to CSCC formation in vivo. This was tested in Gpx1(-/-) and Gpx2(-/-) mice exposed to solar-simulated UV radiation. These studies showed that Gpx2 deficiency predisposed mice to UV-induced CSCC formation. These results suggest that inactivation of GPX2 in human skin may be an early event in UV-induced SCC formation.
Cancer Research 06/2007; 67(10):4751-8. · 7.86 Impact Factor
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ABSTRACT: Recently we reported that gene codon composition determines differentiation-dependent expression of the PV L1 genes in mouse primary keratinocytes (KCs) in vitro and in vivo (Zhao et al. 2005, Mol. Cell Biol. 25:8643-8655). Here, we investigated whether generalized substitution of isoencoding codons affects the duration of expression of PV L1 genes in mouse and human KCs in day 1 culture transiently transfected with native (Nat) and codon modified (Mod) L1 genes. Following transient transfection, KC continuously transcribed both Nat and Mod PV L1 genes for at least 12 days, with the levels of L1 mRNAs from the Mod L1 genes significantly higher than those from the Nat L1 genes. However, continuous L1 protein expression at day 9 post-transfection was observed for both mouse and human KCs transfected with the Nat L1 genes only. Further, aa-tRNAs prepared from D8 KC cultures enhanced translation of two PV Nat L1 DNAs in RRL lysate and PV Nat L1 mRNAs in D0 cell-free lysate, whereas aa-tRNAs from D0 KCs enhanced translation of PV Mod L1 mRNAs in D8 cell-free lysate. It appears that aa-tRNAs in less-differentiated and differentiated KCs differentially match the PV Nat and Mod L1 mRNAs to regulate their translations in vitro.
Nucleic Acids Research 02/2007; 35(14):4820-32. · 8.03 Impact Factor
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ABSTRACT: Targeted inhibition of oncogenes in tumor cells is a rational approach toward the development of cancer therapies based on RNA interference (RNAi). Tumors caused by human papillomavirus (HPV) infection are an ideal model system for RNAi-based cancer therapies because the oncogenes that cause cervical cancer, E6 and E7, are expressed only in cancerous cells. We investigated whether targeting HPV E6 and E7 oncogenes yields cancer cells more sensitive to chemotherapy by cisplatin, the chemotherapeutic agent currently used for the treatment of advanced cervical cancer. We have designed siRNAs directed against the HPV E6 oncogene that simultaneously targets both E6 and E7, which results in an 80% reduction in E7 protein and reactivation of the p53 pathway. The loss of E6 and E7 resulted in a reduction in cellular viability concurrent with the induction of cellular senescence. Interference was specific in that no effect on HPV-negative cells was observed. We demonstrate that RNAi against E6 and E7 oncogenes enhances the chemotherapeutic effect of cisplatin in HeLa cells. The IC50 for HeLa cells treated with cisplatin was 9.4 microM, but after the addition of a lentivirus-delivered shRNA against E6, the IC50 was reduced almost 4-fold to 2.4 microM. We also observed a decrease in E7 expression with a concurrent increase in p53 protein levels upon cotreatment with shRNA and cisplatin over that seen with individual treatment alone. Our results provide strong evidence that loss of E6 and E7 results in increased sensitivity to cisplatin, probably because of increased p53 levels.
Molecular Pharmacology 12/2005; 68(5):1311-9. · 4.88 Impact Factor
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ABSTRACT: By establishing mouse primary keratinocytes (KCs) in culture, we were able, for the first time, to express papillomavirus major capsid (L1) proteins by transient transfection of authentic or codon-modified L1 gene expression plasmids. We demonstrate in vitro and in vivo that gene codon composition is in part responsible for differentiation-dependent expression of L1 protein in KCs. L1 mRNA was present in similar amounts in differentiated and undifferentiated KCs transfected with authentic or codon-modified L1 genes and had a similar half-life, demonstrating that L1 protein production is posttranscriptionally regulated. We demonstrate further that KCs substantially change their tRNA profiles upon differentiation. Aminoacyl-tRNAs from differentiated KCs but not undifferentiated KCs enhanced the translation of authentic L1 mRNA, suggesting that differentiation-associated change to tRNA profiles enhances L1 expression in differentiated KCs. Thus, our data reveal a novel mechanism for regulation of gene expression utilized by a virus to direct viral capsid protein expression to the site of virion assembly in mature KCs. Analysis of two structural proteins of KCs, involucrin and keratin 14, suggests that translation of their mRNAs is also regulated, in association with KC differentiation in vitro, by a similar mechanism.
Molecular and Cellular Biology 11/2005; 25(19):8643-55. · 5.53 Impact Factor
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ABSTRACT: Overexpression of heterogeneous nuclear ribonucleoproteins (hnRNPs) A2 and B1 has been observed in a variety of tumour types, however, it is unknown whether this dysregulation is a consequence of, or a driving force for, unregulated cell proliferation. We have shown that the levels of hnRNPs A1, A2 and B1, but not A3, are modulated during the cell cycle of Colo16 squamous carcinoma cells and HaCaT immortalized keratinocytes, suggesting that A1, A2 and B1 are needed at particular cell cycle stages. However, the levels of hnRNP A1, A2 and B1 mRNAs were constant, indicating that regulation of protein levels was controlled at the level of translation. RNAi suppression of hnRNP A1 or A3 alone did not affect the proliferation of Colo16 cells but the proliferation rate was significantly reduced when both were suppressed simultaneously, or when either was suppressed together with hnRNP A2. Reducing hnRNP A2 expression in Colo16 and HaCaT cells by RNAi led to a non-apoptotic-related decrease in cell proliferation, reinforcing the view that this protein is required for cell proliferation. Suppression of hnRNP A2 in Colo16 cells was associated with increased p21 levels but p53 levels remained unchanged. In addition, expression of BRCA1 was downregulated, at both mRNA and protein levels. The observed effects of hnRNP A2 and its isoforms on cell proliferation and their correlation with BRCA1 and p21 expression suggest that these hnRNP proteins play a role in cell proliferation.
Journal of Cell Science 08/2005; 118(Pt 14):3173-83. · 6.11 Impact Factor
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ABSTRACT: Recently, E2F function has expanded to include the regulation of differentiation in human epidermal keratinocytes (HEKs). We extend these findings to report that in HEKs, Sp1 is a differentiation-specific activator and a downstream target of E2F-mediated suppression of the differentiation-specific marker, transglutaminase type 1 (TG-1). Deletion of elements between -0.084 to -0.034 kb of the TG-1 promoter disabled E2F1-induced suppression of promoter activity. Electrophoretic mobility shift assays (EMSAs) demonstrated that Sp1 and Sp3 bound this region. Protein expression analysis suggested that squamous differentiation was accompanied by increased Sp1/Sp3 ratio. Cotransfection of proliferating HEKs or the squamous cell carcinoma (SCC) cell line, KJD-1/SV40, with an E2F inhibitor (E2Fd/n) and Sp1 expression plasmid was sufficient to activate the TG-1 promoter. The suppression of Sp1 activity by E2F in differentiated cells appeared to be indirect since we found no evidence of an Sp1/E2F coassociation on the TG-1 promoter fragment. Moreover, E2F inhibition in the presence of a differentiation stimulus induced Sp1 protein. These data demonstrate that (i) Sp1 can act as a differentiation stimulus, (ii) E2F-mediated suppression of differentiation-specific markers is indirect via Sp1 inhibition and (iii) a combination of E2F inhibition and Sp1 activation could form the basis of a differentiation therapy for SCCs.
Oncogene 06/2005; 24(21):3525-34. · 6.37 Impact Factor
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ABSTRACT: In this review we provide a brief background on the cell cycle and then focus on two novel and emerging areas of cell cycle research that may prove to have significant relevance to the development of novel anticancer agents. In particular, we review the emerging evidence to suggest that histone deacetylase inhibitors may possess cancer cell-specific cytotoxicity due to their ability to target a novel G2/M checkpoint. We also review the recent literature supporting the proposition that inhibition of E2F activity in epithelial cancer cells may prove to be a useful differentiation therapy that operates via cell cycle-dependent and cell cycle-independent mechanisms.
Current Cancer Drug Targets 04/2005; 5(2):85-102. · 4.33 Impact Factor
