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Query: UNIPROT:P06889 (Mol)
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Cervical dysplasia is a premalignant lesion associated with human papillomavirus (HPV) infection which, over time, can turn cancerous. Previous studies have indicated that loss of gap junctions may be a feature of cervical cancer and premalignant dysplasia. Loss of the gap junction protein connexin43 has been demonstrated in dysplastic cervix, but other connexins have not been investigated. In contrast we previously showed that HPV-associated cutaneous warts--and other hyperproliferative skin conditions--display a dramatic upregulation of certain connexins, in particular connexin26. By performing immunofluorescence staining after antigen retrieval of paraffin-embedded cervical tissue samples, this study reports for the first time that connexin26 and connexin30, in addition to connexin43, are expressed in differentiating cells of normal human cervical epithelia. Moreover, in dysplastic ectocervix, all connexins studied display a dramatic loss of expression compared to adjacent normal epithelia. The role of connexins in keratinocyte differentiation and carcinogenesis is discussed.
Mol Cancer 2005 Aug 09
PMID:Reduced expression of multiple gap junction proteins is a feature of cervical dysplasia. 1609 Nov 33

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.
Mol Pharmacol 2005 Nov
PMID:RNA interference against human papillomavirus oncogenes in cervical cancer cells results in increased sensitivity to cisplatin. 1612 Jul 70

Cervical cancer remains one of the greatest killers of women worldwide. It is difficult to foresee a dramatic increase in cure rate even with the most optimal combination of cytotoxic drugs, surgery, and radiation; therefore, testing of molecular targeted therapies against this malignancy is highly desirable. A number of epigenetic alterations occur during all stages of cervical carcinogenesis in both human papillomavirus and host cellular genomes, which include global DNA hypomethylation, hypermetylation of key tumor suppressor genes, and histone modifications. The reversible nature of epigenetic changes constitutes a target for transcriptional therapies, namely DNA methylation and histone deacetylase inhibitors. To date, studies in patients with cervical cancer have demonstrated the feasibility of reactivating the expression of hypermethylated and silenced tumor suppressor genes as well as the hyperacetylating and inhibitory effect upon histone deacetylase activity in tumor tissues after treatment with demethylating and histone deacetylase inhibitors. In addition, detection of epigenetic changes in cytological smears, serum DNA, and peripheral blood are of potential interest for development of novel biomolecular markers for early detection, prediction of response, and prognosis.
Mol Cancer 2005 Oct 25
PMID:Epigenetics of cervical cancer. An overview and therapeutic perspectives. 1624 99

In multiple studies during the last decade, liquid-based cytology for cervical cancer screening has been shown to increase the detection rate for preneoplastic squamous intraepithelial lesions equal to or greater than the conventional Papanicolaou (Pap) smear method. Liquid-based collection and processing provide more representative cervical sampling than conventional smearing of the specimen on a glass slide. Currently, there are two test methodologies that are widely marketed and available to clinical laboratories, health systems and clinicians that undertake cervical cytology. The purpose of this article is to provide an overview of the methodology and performance of SurePath Liquid-Based Pap Test in cervical cytology screening. The SurePath liquid-based Pap test significantly reduces the unsatisfactory rate of Pap test slides, and detects a significantly higher number of low- and high-grade squamous lesions when compared with the conventional Pap smear technique. Biopsy confirmation shows that this increased detection does not come at a cost of decreasing specificity, and sensitivity for histologic dysplasia is equal to or greater than the best available data for the conventional Pap method. The SurePath collection vial provides residual cellular material for adjunctive out-of-the-vial molecular testing, including sexually transmitted diseases and oncologic biomarkers associated with cervical carcinoma. Finally, SurePath slides can be placed on an automated cervical cytology screening device (FocalPoint), thus providing improved disease detection and enhanced laboratory productivity.
Expert Rev Mol Diagn 2005 Nov
PMID:Liquid-based cytology for cervical cancer screening. 1625 28

Human papillomaviruses (HPVs) cause cervical lesions, which can, in some instances, progress to high-grade neoplasia and cancer. Around half a million cases of cervical cancer occur each year, with most occurring in developing countries where cervical cancer is a major cause of cancer-related death. The reduction in cervical cancer incidence in developed countries is largely attributed to the introduction of cervical screening. Cervical screening currently depends on the identification by cytology of abnormalities in cells taken from the surface of the cervix. The standard Pap test was developed >50 years ago, and despite modifications, still forms the basis of the test currently in use in most routine screening laboratories. Advances in our understanding of the molecular mechanisms that lead to the development of cervical cancer have been slow to impact on screening, despite the relatively high false-negative rates that can be associated with the conventional Pap smear. Improvements in screening strategies fall into a number of categories. Methods that improve cell presentation and attempt to eliminate artefacts/obscuring debris can be combined with image analysis systems in order to enhance diagnostic accuracy. Such approaches still rely on cytological evaluation and do not incorporate advances in our knowledge of how HPV causes cancer. By contrast, markers of virus infection or cell cycle entry, particularly those that offer some degree of prognostic significance, may be able to highlight abnormal cells more reliably than cytology, and could be combined with cytology to improve the detection rate. Our understanding of the molecular biology of HPV infection and the organization of the HPV life-cycle during cancer progression provides a rational basis for marker selection. The general assumption that persistent active infection by high-risk HPV types is the true precursor of cervical cancer provides the rationale for HPV DNA testing in conjunction with enhanced cytology, while the development of RNA-based approaches should allow active infections to be distinguished from those that are latent. The detection in superficial cells of marker combinations at the level of RNA or protein has the potential to predict disease status more precisely than the detection of markers in isolation. There is also a need for better prognostic markers if the predictive value of screening is to be improved. The potential to control infection by vaccination should reduce the incidence of HPV-associated neoplasia in the population, and this may cause a change in the way that screening is carried out. Nevertheless, the lack of a therapeutic vaccine, and the difficulties associated with eliminating infection by multiple high-risk HPV types, means that some form of screening will still be required as a preventive measure for the control of cervical cancer for the foreseeable future.
Mol Diagn 2005
PMID:Molecular basis for advances in cervical screening. 1627 Oct 14

Papillomaviruses (HPVs) are a major cause of human disease, and are responsible for approximately half a million cases of cervical cancer each year. HPVs also cause genital warts, and are the most common sexually transmitted disease in many countries. Despite their importance, there are currently no specific antivirals that are active against HPVs. Papillomavirus protein function is mediated largely by protein-protein interactions, which are difficult to inhibit using conventional approaches. To circumvent these problems, we have prepared an scFv library, and have used this to isolate high-affinity binding molecules that may stearically hinder the association of E6 with p53 and prevent E6-mediated p53 degradation in cervical cancer cells. One of the molecules isolated from the library (GTE6-1), had an affinity for 16E6 of 60nM, and bound within the first zinc finger of the protein. GTE6-1 was able to associate with non-denatured E6 following expression in mammalian cells and could inhibit E6-mediated p53 degradation in in vitro assays. E6-mediated p53 degradation is essential for the continuous growth of cervical cancer cells caused by HPV16. To examine the potential of GTE6-1 as an inhibitor of E6 function in such cells, the molecule was expressed in scFv, diabody and triabody formats in a number of cell lines that are driven to proliferate by the HPV16 oncogenes E6 and E7, including the cervical cancer cell line SiHa. In contrast to small E6-binding peptides containing the ELLG E6-binding motif, GTE6-1 expression lead to changes in nuclear structure, the appearance of apoptosis markers, and an elevation in the levels of p53. No effects were seen with a control scFv molecule, or when GTE6-1 was expressed in cells that are driven to proliferate by simian virus 40 (SV40) T-antigen. Given the accessibility of HPV-associated lesions to topical therapy, our results suggest that large interfering molecules such as intrabodies may be useful inhibitors of viral protein-protein interactions and be particularly appropriate for the treatment of HPV-associated disease.
J Mol Biol 2006 Jan 20
PMID:Inhibition of papillomavirus protein function in cervical cancer cells by intrabody targeting. 1632 14

Human papillomaviruses (HPVs) are known to be etiological agents of cervical cancer and have been found in 99.7% of women with high-grade (HG) cervical intraepithelial neoplasia (CIN) precancer. Testing of high-risk HPV (HR-HPV) has been proposed as a way of improving cervical screening, especially for women with low-grade (LG) Papanicolaou (Pap) smears. In this chapter, real-time quantitative polymerase chain reaction (PCR) methods that can be used to investigate the expression of HPV 16 early genes in HG or LG precancer are demonstrated. Detecting the expression of early HPV genes in conjunction with the Pap smear may improve the specificity of identifying LG precancers that are associated with high risk of progression.
Methods Mol Med 2005
PMID:Detection and quantitation of HPV gene expression using real-time PCR. 1635 Mar 97

Most cervical cancers are preventable when the precursor lesions are detected in time. Human papilloma viruses (HPVs) are the main risk factors for cervical cancer development, but there is a high percentage of healthy women infected with HPV that never develop a lesion. Only a small percentage of low-grade dysplasias finally grow out to invasive cancer. Several biomarkers can be used to identify lesions at risk for malignant progression. Overexpression of p16INK4a is induced by the viral oncoprotein E7 and distinguishes dysplastic lesions from benign changes. Integration of human papillomavirus DNA into the host genome is mainly found in high-grade dysplastic lesions and invasive cancers, and points to an increased progression potential.
Methods Mol Med 2005
PMID:Analysis of p16INK4a and integrated HPV genomes as progression markers. 1635 Mar 98

Human papillomaviruses (HPVs) are etiologic for the development of cervical cancer and its precursor lesions, cervical intraepithelial neoplasia (CIN). Nearly all cervical carcinomas (CaCx) harbor HPV DNA, but the presence of HPV alone is not indicative of the future development of neoplasia. While both normal and abnormal smears may harbor HPV DNA, the detection of HPV mRNA is associated, although not exclusively, with abnormal cytology. Recent observations suggest women with a high HPV viral load are at a significantly greater risk for CIN development--particularly those infected with high-risk (HR) HPV types, such as HPV type 16 (HPV 16). Thus, assays capable of detecting HPV transcripts may have useful prognostic value and could be utilized to identify biological markers for progression to high-grade cervical disease. This chapter describes the nested reverse transcriptase (nRT)-polymerase chain reaction (PCR) methods developed in our laboratory for the detection of the majority of all early region HPV-16 transcripts.
Methods Mol Med 2005
PMID:Detection of HPV transcripts by nested RT-PCR. 1635 Apr 9

The product of the early gene E7 is one of the major transforming proteins of human papillomaviruses (HPVs). It exerts its activity by associating with and altering the biological functions of several cellular proteins involved in the control of fundamental events, such as cell proliferation and apoptosis. The best-characterized activity of E7 from HPV type 16, the most frequently detected type in cervical cancer, is its ability to bind and induce degradation of the tumor-suppressor retinoblastoma protein (pRb) via the ubiquitin pathway. pRb plays a key role in cell-cycle control by negatively regulating, via direct association, the activity of several transcription factors, including members of the E2F family. The neutralization of pRb functions mediated by E7 results in constitutive activation of the transcription factors, with consequent loss of cell-cycle control. Several studies have shown that the oncogenic potential of a specific HPV type is dependent on the efficiency of E7 in targeting pRb. In this chapter, we describe two methods to measure the efficiency of the E7 proteins from different HPV types in neutralizing the pRb functions. The first one, the plate-binding assay, allows the determination of the pRb binding affinity of E7 proteins, while the second one permits the analysis of their impact on the pRb pathway in intact cells.
Methods Mol Med 2005
PMID:Analysis of E7/Rb associations. 1635 Apr 11


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