Project description:Epigenetic modifications, such as aberrant DNA promoter methylation is frequently observed in cervical cancer. Identification of hypermethylated regions maybe useful for discrimination between normal cervical epithelium and high-grade cervical intraepithelial neoplasia (CIN2/3) or worse may improve current cervical cancer population-based screening programs. In this study, the DNA methylome of high-grade CIN lesions were characterised using genome-wide methylation screening to identify potential biomarkers for early diagnosis of cervical neoplasia. Methyl-DNA Immunoprecipitation (MeDIP) combined with DNA microarray was used to compare DNA methylation profiles of epithelial cells derived from high-grade CIN lesions with normal cervical epithelium resulting in the identification of hypermethylated differentially methylated regions (DMRs). Validation of 9 selected DMRs by MSP or BSP in cervical tissue revealed methylation in 63.2-94.7% high-grade CIN and in 59.3-100% cervical carcinomas. QMSP for the two most significant high-grade CIN-specific methylation markers was applied exploring test performance in a large series of cervical scrapings. Frequency and relative level of methylation were significantly different between normal and cancer samples (p<0.001). Clinical validation of both markers in cervical scrapings from patients referred with an abnormal cervical smear, confirmed that frequency and relative level of methylation were related with increasing severity of the underlying CIN lesion (p<0.001) and the ROC analysis was discriminative (p<0.005). These possible methylation markers represent COL25A1 and KATNAL2 promoters and their observed increased methylation upon progression is in agreement with their biological function (cytoskeleton regulation). In conclusion, our newly identified hypermethylated DMRs represent specific DNA methylation patterns in high-grade CIN lesions and could be potential biomarkers for early detection. Epigenetic modifications, such as aberrant DNA promoter methylation is frequently observed in cervical cancer. Identification of hypermethylated regions maybe useful for discrimination between normal cervical epithelium and high-grade cervical intraepithelial neoplasia (CIN2/3) or worse may improve current cervical cancer population-based screening programs. In this study, the DNA methylome of high-grade CIN lesions were characterised using genome-wide methylation screening to identify potential biomarkers for early diagnosis of cervical neoplasia. Methyl-DNA Immunoprecipitation (MeDIP) combined with DNA microarray was used to compare DNA methylation profiles of epithelial cells derived from high-grade CIN lesions with normal cervical epithelium resulting in the identification of hypermethylated differentially methylated regions (DMRs). Validation of 9 selected DMRs by MSP or BSP in cervical tissue revealed methylation in 63.2-94.7% high-grade CIN and in 59.3-100% cervical carcinomas. QMSP for the two most significant high-grade CIN-specific methylation markers was applied exploring test performance in a large series of cervical scrapings. Frequency and relative level of methylation were significantly different between normal and cancer samples (p<0.001). Clinical validation of both markers in cervical scrapings from patients referred with an abnormal cervical smear, confirmed that frequency and relative level of methylation were related with increasing severity of the underlying CIN lesion (p<0.001) and the ROC analysis was discriminative (p<0.005). These possible methylation markers represent COL25A1 and KATNAL2 promoters and their observed increased methylation upon progression is in agreement with their biological function (cytoskeleton regulation). In conclusion, our newly identified hypermethylated DMRs represent specific DNA methylation patterns in high-grade CIN lesions and could be potential biomarkers for early detection. MeDIP with subsequent microarray analysis was performed on DNA isolated from frozen macrodissected epithelial tissue of CIN3 lesions (n=15) and normal cervices (n=10).

Project description:Cervical cancer is characterized by a well-defined pre-malignant phase, cervical intraepithelial neoplasia (CIN). Identification of high grade CIN lesions by population-based screening programs and their subsequent treatment has led to a significant reduction of the incidence and mortality of cervical cancer. Cytology-based testing of cervical smears is the most widely used cervical cancer screening method, but is not ideal, as the sensitivity for detection of CIN2 and higher (CIN2+) is only ~55%. Therefore, more sensitive and specific biomarkers for cervical cancer and its precancerous stages are needed.

Project description:Cervical cancer results from the accumulation of (epi)genetic aberrations following persistent infection with high-risk human papillomavirus (HPV). In order to define genetic aberrations associated with cervical carcinogenesis, chromosomal profiles of high-grade cervical intraepithelial neoplasia (CIN) were generated. Common aberrations usually encompass large genomic regions and contain numerous genes, hampering identification of actual driver genes. Consequently, direct evidence of chromosomal alterations actively contributing to cervical carcinogenesis has been lacking so far. By analyzing 60 high-grade CIN with high resolution arrayCGH we identified focal chromosomal aberrations that each harbour only one or a few genes. In total 74 focal aberrations were identified encoding 305 genes. Analysis of genes located within these focal aberrations, using two independent expression microarray datasets, revealed concurrent altered expression in high-grade CIN and/or cervical carcinomas compared to normal cervical samples for 8 genes: ATP13A3, HES1, OPA1, HRASLS, EYA2, ZMYND8, APOBEC2 and NCR2. Gene silencing of EYA2, located within a focal gain at 20q13, significantly reduced viability and migratory capacity of HPV16-transformed keratinocytes. Interestingly, for hsa-miR-375, located within the most frequently identified focal loss at 2q35, a direct correlation between a (focal) loss and significantly reduced expression was found. Down-regulation of hsa-miR-375 expression during cervical carcinogenesis was confirmed in a second independent series of cervical tissues. Moreover, ectopic expression of hsa-miR-375 in 2 cervical carcinoma cell lines reduced cellular viability. In conclusion, our data provide a proof of concept that chromosomal aberrations are actively contributing to HPV-induced carcinogenesis and identify EYA2 and hsa-mir-375 as oncogene and tumor suppressor gene, respectively. DNA from microdissected tissues: 60 samples total. 11 high-grade CIN, <5yr preceding hrHPV infection, 43 high-grade CIN >5yr preceding hrHPV infection, 6 CIN3 adjacent to SCC

Project description:Genome-wide DNA methylation profiles in liquid based cytology (LBC) cervical scrapes samples was assessed using the Illumina Infinium Methylation850 BeadChip V1.0B4. The purpose of this study was to identify new candidate genes that are differentially methylated in squamous cell carcinoma compared to the DNA samples from cervical intraepithelial neoplasia grade (CIN) and normal cervical scrapes.

Project description:Using the pools of DNA from squamous cervical carcinomas (SCC) and DNA from normal scraping cells discovered the abnormal changes of genomic wide methylation by methylation BeadChip. The 61 genes were selected to validate by quantitative methylation specific PCR (qMSP) and bisulfite pyrosequencing in further processes. A CpG islands methylator phenotype (CIMP) was confirmed at 14 candidates in an independent set contained a spectrum of scraping cells form abnormal cervical lesions. In addition, we found among of 7 genes were announced to imply to potentially biological functions of β-catenin signal. A pool DNA collected from equal amount of DNA of 38 SCC, and the other pool collected from equal amount of DNA of 19 normal cervical scraping cells. Based on 40 percent of different methylation in two pools of samples, we selected 91 genes showed abnormal methylation in SCC. After the confirmation of gene restored expression in cervical cell lines, there 61 genes showed upregulation in the treatment with demethylating drug. In addition, gel based of MSP were contributed to confirm in a small size of samples, and quantitative MSP was contributed to validated in an independent set. The methylation status of qMSP was also confirmed by bisulfite pyrosequence. Finally, we selected 14 genes demonstrated clinical relevance in the high methylation of CIMP associated to a risk factor in cervical intraepithelial neoplasia grade 3 (CIN3) and worse lesions. isk factor in cervical intraepithelial neoplasia grade 3 (CIN3) and worse lesions.

Project description:Cervical cancer develops from pre-cancerous high-grade cervical intraepithelial neoplasia (CIN) lesions harbouring a transforming infection with high-risk human papillomavirus (hrHPV), which is characterised by p16INK4a overexpression. Since it takes one or more decades for these pre-cancerous lesions to progress to invasive squamous cell carcinomas (SCCs), it is obvious that they are heterogeneous in terms of duration of existence and progression risk. We performed array-based comparative genomic hybridisation (array CGH) of 46 p16INK4a immuno-positive CIN2/3 lesions to determine whether this heterogeneity is reflected in their chromosomal profiles. Chromosomal profiles of CIN2/3 lesions were related to those of invasive cervical squamous cell carcinomas (SCCs) and promoter methylation of the CADM1 gene, a tumour suppressor gene known to be functionally involved in the tumorigenic phenotype of cervical cancer cells. Frequent alterations found in CIN2/3 lesions included gains located at chromosome 1, 3, 7 and 20 and losses located at 4, 11, 16, 17 and 19. Unsupervised hierarchical clustering identified two subsets of CIN2/3 lesions, chromosomal profiles of one of which closely resembled invasive SCCs. Gains of 1, 3q and 20 were characteristic for CIN2/3 lesions with chromosomal signatures resembling carcinomas. In addition, dense promoter methylation of the CADM1 gene was significantly more frequent in these CIN2/3 lesions (p=0.004). No chromosomal alterations were detected in one p16INK4a positive and five p16INK4a negative CIN1 lesions. These findings suggest that biomarkers associated with gains at chromosomes 1, 3q and 20 are potential hallmarks of advanced p16INK4a positive CIN2/3 lesions with a high short-term risk of progression. Genomic DNA of 46 high-grade cervical lesions was hybridised to 5K CGH BAC microarrays (5K) produced at the Microarray facility of the VU Medical Center. In total 4632 BAC clones with known chromosomal location were spotted in triplicate, which included the 1Mb resolution Sanger BAC clone set and a subset of clones from the Children’s Hospital Oakland Research Institute (CHORI). All samples were labelled with Cy3 and hybridised together with a pool of normal male reference DNA labelled with Cy5. Hybridisations were essentially performed as described by Snijders et al (Nature Genetics 2001). Both pre-hybridisation and hybridisation were performed in a hybridisation station (HybStation12 – Perkin Elmer Life Sciences). Hybridised arrays were scanned using a G2505B scanner (Agilent, Wilmington, DE, USA). Spots were quantified using ImaGene 5.6.1 software (BioDiscovery Ltd, Marina del Rey, CA, USA) with default settings for the flagging of bad quality spots. Genomic DNA of 6 CIN1 lesions was hybridised on CGH oligo microarrays (44K) produced by Agilent following the manufacturer’s protocol against the same normal reference pool. Hybridised arrays were scanned using the same scanner (G2505B, Agilent). Quantification of these arrays was done using Feature Extraction software version 9.5.1 (Agilent).

Project description:The goal of this study was to investigate differential regulation of miRNA expression in the cervical tissue of women with low-grade cervical intraepithelial neoplasia (LGCIN, or low grade cervical dysplasia). We compared the miRNA expression profiles of women with LGCIN that progressed to high-grade CIN to the miRNA expression profiles of women with LGCIN that naturally resolved without medical intervention.

Project description:Cervical cancer ranks as the first in cancer mortality among women of low-middle income countries, where 80% of the 570,000 cases and 311,000 worldwide deaths estimated for 2018 occurred (Ferlay et al. 2018 ). Persistent infections with high-risk HPV (hrHPV) genotypes can lead to high-grade cervical intraepithelial (CIN) grade 2 (CIN2) or higher, (CIN2+), if untreated, a high percentage of these lesions may progress to cancer. Despite its high sensitivity, the hrHPV test has low specificity to detect CIN2+ lesions given that a high percentage of women (80 %) infected with hrHPV genotypes will resolve the infection spontaneously. microRNAs (miRNAs) are small non-coding RNAs and their differential expression patterns seen to be associated with cervical intraepithelial lesions. Our work aimed to identify miRNAs differentially expressed in CIN2+ respect with <CIN1 and to evaluate their potential use as biomarkers to distinguish low- from high-grade lesions within hrHPV positive women. For our discovery set we used small RNA sequencing (miRNA-seq) to compare the miRNA expression patterns in 20 Formalin-Fixed Paraffin-Embedded (FFPE) tissues from hrHPV-positive women from Medellin, Colombia presenting low- (n=10) and high-grade lesions (n=10). Top five miRNAs presenting high fold change and low coefficient of variation were used validated by RT-PCR in our validation set composed 210 age-matched independent hrHPV-positive FFPE tissues, and an in-silico approach was used to understand the function of the differentially expressed miRNAs in the context of HPV infection.

Project description:Genome-wide methylation profiling identifies hypermethylated biomarkers in high-grade cervical intraepithelial neoplasia

Project description:Cervical cancer develops from pre-cancerous high-grade cervical intraepithelial neoplasia (CIN) lesions harbouring a transforming infection with high-risk human papillomavirus (hrHPV), which is characterised by p16INK4a overexpression. Since it takes one or more decades for these pre-cancerous lesions to progress to invasive squamous cell carcinomas (SCCs), it is obvious that they are heterogeneous in terms of duration of existence and progression risk. We performed array-based comparative genomic hybridisation (array CGH) of 46 p16INK4a immuno-positive CIN2/3 lesions to determine whether this heterogeneity is reflected in their chromosomal profiles. Chromosomal profiles of CIN2/3 lesions were related to those of invasive cervical squamous cell carcinomas (SCCs) and promoter methylation of the CADM1 gene, a tumour suppressor gene known to be functionally involved in the tumorigenic phenotype of cervical cancer cells. Frequent alterations found in CIN2/3 lesions included gains located at chromosome 1, 3, 7 and 20 and losses located at 4, 11, 16, 17 and 19. Unsupervised hierarchical clustering identified two subsets of CIN2/3 lesions, chromosomal profiles of one of which closely resembled invasive SCCs. Gains of 1, 3q and 20 were characteristic for CIN2/3 lesions with chromosomal signatures resembling carcinomas. In addition, dense promoter methylation of the CADM1 gene was significantly more frequent in these CIN2/3 lesions (p=0.004). No chromosomal alterations were detected in one p16INK4a positive and five p16INK4a negative CIN1 lesions. These findings suggest that biomarkers associated with gains at chromosomes 1, 3q and 20 are potential hallmarks of advanced p16INK4a positive CIN2/3 lesions with a high short-term risk of progression.