Post-prostatic-massage urine exosomes of men with chronic prostatitis/chronic pelvic pain syndrome carry prostate-cancer-typical microRNAs and activate proto-oncogenes.

Chronic prostatitis/chronic pelvic pain syndrome (CP/CPPS) has a high prevalence of up to 15% and accounts for 90-95% of prostatitis diagnoses, and yet its etiopathogenesis and link to prostate cancer (PCa) are still unclear. Here, we investigated microRNAs in exosomes isolated from blood and post-prostatic-massage urine of CP/CPPS type IIIb patients and healthy men. THP-1 monocytes (human leukemia monocytic cell line) were treated with exosomes and subjected to mRNA arrays "Cancer Inflammation and Immunity Crosstalk" and "Transcription Factors." Using The Cancer Genome Atlas, the expression of CP/CPPS-associated microRNAs was analyzed in PCa and normal prostate tissue. In silico functional studies were carried out to explore the disease ontology of CP/CPPS. In CP/CPPS, urine exosomes exhibited significant upregulation of eight PCa-specific microRNAs (e.g., hsa-miR-501, hsa-miR-20a, and hsa-miR-106), whose target genes were significantly enriched for GO terms, hallmark gene sets, and pathways specific for carcinogenesis. In THP-1 monocytes, CP/CPPS-derived urine exosomes induced upregulation of PCa-associated proinflammatory genes (e.g., CCR2 and TLR2) and proto-oncogene transcription factors (e.g., MYB and JUNB). In contrast, CP/CPPS-derived blood exosomes exhibited molecular properties similar to those of healthy men. Thus, CP/CPPS exhibits molecular changes that constitute a risk for PCa and should be considered in the development of PCa biomarkers and cancer screening programs.

Interleukin-1 receptor associated kinase 1 (IRAK1) is epigenetically activated in luminal epithelial cells in prostate cancer.

The use of immune adjuvants such as toll-like receptor (TLR) agonists reflects a novel strategy in prostate cancer (PCa) therapy. However, interleukin-1 receptor associated kinase 1 (IRAK1), a central effector of TLR signaling, has been shown to be responsible for resistance to radiation-induced tumor cell death. In order to better understand the function and epigenetic regulation of IRAK1 in PCa, we performed in vitro cell culture experiments together with integrative bioinformatic studies using the latest single-cell RNA-sequencing data of human PCa and normal prostate (NOR), and data from The Cancer Genome Atlas. We focused on key effectors of TLR signaling, the Myddosome-complex components IRAK1, IRAK4 and MYD88 (myeloid differentiation primary response 88), and TRAF6 (tumor-necrosis-factor receptor associated factor 6). In PCa, IRAK1-mRNA was specifically enriched in luminal epithelial cells, representing 57% of all cells, whereas IRAK4 and MYD88 were predominantly expressed in leukocytes, and TRAF6, in endothelial cells. Compared to NOR, only IRAK1 was significantly overexpressed in PCa (Benjamini-Hochberg adjusted p<2x10-8), whereas the expression of IRAK4, MYD88, and TRAF6 was unchanged in PCa, and IRAK1-expression was inversely correlated with a specific differentially methylated region (IRAK1-DMR) within a predicted promoter region enriched for H3K27ac (Spearman correlation r<-0.36; Fisher's test, p<10-10). Transcription factors with high binding affinities in IRAK1-DMR were significantly enriched for canonical pathways associated with viral infection and carcinogenic transformation in the Kyoto Encyclopedia of Gene and Genomes analysis. DU145 cells, exhibiting hypermethylated IRAK1-DMR and low IRAK1-expression, reacted with 4-fold increased IRAK1-expression upon combined treatment with 5-aza-2-deoxycytidine and trichostatin A, and were unresponsive to infection with the uropathogenic Escherichia coli strain UTI89. In contrast, PC3 and LNCaP cells, exhibiting hypomethylated IRAK1-DMR and high endogenous IRAK1-mRNA levels, responded with strong activation of IRAK1-expression to UTI89 infection. In summary, exclusive overexpression of IRAK1 was observed in luminal epithelial cells in PCa, suggesting it has a role in addition to Myddosome-dependent TLR signaling. Our data show that the endogenous epigenetic status of PCa cells within IRAK1-DMR is decisive for IRAK1 expression and should be considered as a predictive marker when selective IRAK1-targeting therapies are considered.

Valproic Acid Initiates Transdifferentiation of the Human Ductal Adenocarcinoma Cell-line Panc-1 Into α-Like Cells.

Non-mesenchymal pancreatic cells are a potential source for cell replacement. Their transdifferentiation can be achieved by triggering epigenetic remodeling through e. g. post-translational modification of histones. Valproic acid, a branched-chain saturated fatty acid with histone deacetylase inhibitor activity, was linked to the expression of key transcription factors of pancreatic lineage in epithelial cells and insulin transcription. However, the potential of valproic acid to cause cellular reprogramming is not fully understood. To shed further light on it we employed next-generation RNA sequencing, real-time PCR, and protein analyses by ELISA and western blot, to assess the impact of valproic acid on transcriptome and function of Panc-1-cells. Our results indicate that valproic acid has a significant impact on the cell cycle, cell adhesion, histone H3 acetylation, and metabolic pathways as well as the initiation of epithelial-mesenchymal transition through acetylation of histone H3 resulting in α-cell-like characteristics. We conclude that human epithelial pancreatic cells can be transdifferentiated into cells with endocrine properties through epigenetic regulation by valproic acid favoring an α-cell-like phenotype.

H4K20me3 marks distal intergenic and repetitive regions in human mature spermatozoa.

Sperm histones represent an essential part of the paternally transmitted epigenome, but uncertainty exists about the role of those remaining in non-coding and repetitive DNA. We therefore analyzed the genome-wide distribution of the heterochromatic marker H4K20me3 in human sperm and somatic (K562) cells. To specify the function of sperm histones, we compared all H4K20me3-containing and -free loci in the sperm genome. Sperm and somatic cells possessed a very similar H4K20me3 distribution: H4K20me3 peaks occurred mostly in distal intergenic regions and repetitive gene clusters (in particular genes encoding odorant-binding factors and zinc-finger antiviral proteins). In both cell types, H4K20me3 peaks were enriched in LINEs, ERVs, satellite DNA and low complexity repeats. In contrast, H4K20me3-free nucleosomes occurred more frequently in genic regions (in particular promoters, exons, 5'-UTR and 3'-UTR) and were enriched in genes encoding developmental factors (in particular transcription activators and repressors). H4K20me3-free nucleosomes were also detected in substantial quantities in distal intergenic regions and were enriched in SINEs. Thus, evidence suggests that paternally transmitted histones may have a dual purpose: maintenance and regulation of heterochromatin and guidance towards transcription of euchromatin.

The Clinical Application and Potential Roles of Circulating Tumor Cells in Bladder Cancer and Prostate Cancer.

Circulating tumor cells (CTCs) are considered to be promising biomarkers in malignant diseases. Recently, molecular profiles of CTCs in prostate cancer (PCa) and the role of CTCs in neoadjuvant chemotherapy and transurethral resections of bladder cancer (BCa) are intensely studied. However, localized PCa and nonmuscle-invasive BCa are less investigated and discussed. Moreover, the benefit and feasibility of clinical applications of CTCs should be critically questioned and reevaluated. This review focuses mainly on clinical issues and lesser on methodologies, and summarizes the quintessence of available works dealing with clinical applications of CTCs in PCa and BCa management.

Elevated seminal plasma estradiol and epigenetic inactivation of ESR1 and ESR2 is associated with CP/CPPS.

Chronic prostatitis/chronic pelvic pain syndrome (CP/CPPS) is associated with urinary tract symptoms and hormonal imbalances amongst others. The heterogeneous clinical presentation, unexplored molecular background and lack of prostate biopsies complicate therapy. Here, using liquid biopsies, we performed a comprehensive translational study on men diagnosed with CP/CPPS type III (n= 50; median age 39.8, range 23-65) and age-matched controls (n= 61; median age 36.8, range 20-69), considering biochemical parameters of blood and ejaculates, and epigenetic regulation of the estrogen receptor genes (ESR1 and ESR2) in leukocytes isolated from blood (systemic regulation) and in somatic cells isolated from ejaculates (local regulation). We found elevated 17ß-estradiol (E2) levels in seminal plasma, but not in blood plasma, that was significantly associated with CP/CPPS and impaired urinary tract symptoms. In ejaculated somatic cells of CP/CPPS patients we found that ESR1 and ESR2 were both significantly higher methylated in CpG-promoters and expressionally down-regulated in comparison to controls. Mast cells are reported to contribute to CP/CPPS and are estrogen responsive. Consistent with this, we found that E2 -treatment of human mast cell lines (HMC-1 and LAD2) resulted in altered cytokine and chemokine expression. Interestingly, in HMC-1 cells, possessing epigenetically inactivated ESR1 and ESR2, E2 -treatment led to a reduced transcription of a number of inflammatory genes. Overall, these data suggest that elevated local E2 levels associate with an epigenetic down-regulation of the estrogen receptors and have a prominent role in CP/CPPS. Investigating E2 levels in semen could therefore serve as a promising biomarker to select patients for estrogen targeted therapy.

Impairment of IGF2 gene expression in prostate cancer is triggered by epigenetic dysregulation of IGF2-DMR0 and its interaction with KLF4.

BACKGROUND: Human cancer cells often exhibit impaired IGF2 expression and the underlying mechanisms are multifaceted and complex. Besides the well-known imprinting control region IGF2/H19-ICR, the involvement of a differentially methylated region in the promoter P0 of IGF2 gene (IGF2-DMR0) has been suggested. Here, we evaluate several mechanisms potentially leading to up- and/or down-regulation of IGF2 expression in prostate cancer and present a novel role of Kruppel-like factor 4 (KLF4) as a transcriptional regulator of IGF2 binding in IGF2-DMR0. METHODS: Putative binding sites for transcription factors were identified in IGF2-DMR0 using JASPAR CORE database. Gene expressions were analyzed by RT-qPCR in prostate carcinoma and adjacent benign prostate hyperplasia samples obtained by radical prostatectomy (86 RP-PCa and 47 RP-BPH) and BPH obtained by transurethral prostate resection (13 TUR-BPH). Pyrosequencing and qMSP were used for DNA methylation studies in IGF2-DMR0, IGF2/H19-ICR and Glutathione-S-transferase-P1 (GSTP1) promoter. Loss of imprinting (LOI) was analyzed by RFLP. Copy number variation (CNV) test was performed using qBiomarker CNV PCR Assay. KLF4-binding and histone-modifications were analyzed by ChIP-qPCR in prostate cancer cell lines exhibiting differentially methylated IGF2-DMR0 (LNCaP hypomethylated and DU145 hypermethylated). KLF4 protein was analyzed by western blot. Statistical associations of gene expression to methylation, IGF2 LOI and CNV were calculated by Mann-Whitney-U-test. Correlations between gene expression and methylation levels were evaluated by Spearman's-Rank-Correlation-test. RESULTS: We found a significant reduction of IGF2 expression in the majority of RP-PCa and RP-BPH in comparison to TUR-BPH. Analyzing potential molecular reasons, we found in RP-PCa and RP-BPH in comparison to TUR-BPH a significant hypomethylation of IGF2-DMR0, which coincided with hypermethylation of GSTP1-promoter, a prominent marker of prostate tumors. In contrast, IGF2 LOI and CNV did not associate significantly with up- and/or down-regulation of IGF2 expression in prostate tumors. By analyzing IGF2-DMR0, we detected a consensus sequence for KLF4 with a z-score of 7.6. Interestingly, we found that KLF4 binds to hypomethylated (17%) IGF2-DMR0 enriched with H3K9me3 and H3K27me3 (LNCaP), but does not bind under hypermethylated (85%) and H3K4me3-enriched conditions (DU145). KLF4 expression was detected in TUR-BPH as well as in RP-BPH and RP-PCa and showed a highly significant correlation to IGF2 expression. CONCLUSIONS: Our study demonstrated that in human prostate cancer the impairment of IGF2 expression is accompanied by hypomethylation of IGF2-DMR0. We revealed that KLF4 is a putative transcriptional regulator of IGF2, which binds in IGF2-DMR0 in dependence of the prevailing epigenetic state in this region. Herewith we provide complementary new insights into IGF2 dysregulation mechanisms as a critical process in prostate tumorigenesis.

Chronic Prostatitis Affects Male Reproductive Health and Is Associated with Systemic and Local Epigenetic Inactivation of C-X-C Motif Chemokine 12 Receptor C-X-C Chemokine Receptor Type 4.

Background/Aims/Objectives: Chronic prostatitis/chronic pelvic pain syndrome (CP/CPPS) has detrimental effects on the quality of life including the aspect of sexual dysfunction. The aim of the study was to identify if there was an adverse effect on the male genital compartment and if there are systemic or compartment-specific local signals for epigenetic dysregulation of inflammatory factors in CP/CPPS patients. METHODS: One hundred five NIH IIIb CP/CPPS patients and 41 healthy men were recruited and underwent investigations of urines, semen and blood. Promoter methylation and expression of the chemokine C-X-C motif chemokine 12 and its receptor C-X-C chemokine receptor type 4 (CXCR4) (involved in the recruitment of mast cells) were analyzed in prostate epithelial cell lines and in healthy volunteers' and patients' blood, ejaculate cell pellets, and separated ejaculate fractions (sperm and seminal somatic cells). RESULTS: Independently from age, CP/CPPS NIH IIIb was associated with significant impairment of sperm motility, morphology and semen pH (p < 0.001). Patients older than 33 years showed significantly increased seminal interleukin-8 and serum prostate specific antigen values. In patients, the CXCR4 mRNA-expression was significantly decreased in whole blood and ejaculate cell pellets due to promoter hypermethylation. Analyses on separated fractions of sperm and seminal somatic cells revealed that sperm DNA was unaffected, whereas somatic cell DNA was differentially methylated. CONCLUSIONS: NIH IIIb CP/CPPS has negative effects on surrogate parameters of male fertility and is associated significantly with systemic and local epigenetic inactivation of CXCR4.

TET enzymes are successively expressed during human spermatogenesis and their expression level is pivotal for male fertility.

STUDY QUESTION: Are ten-eleven-translocation (TET) 1-3 family enzymes involved in human spermatogenesis and do they impact male fertility? SUMMARY ANSWER: TET1, TET2 and TET3 are successively expressed at different stages of human spermatogenesis, and their expression levels associate with male fertility. WHAT IS KNOWN ALREADY: Spermatogenesis is a complex cell differentiation process accompanied by a drastic epigenetic remodeling. TET1-3 dioxygenases are essential for active DNA demethylation in the paternal pronucleus and in embryonic stem cells. STUDY DESIGN, SIZE, DURATION: Expression of TET1-3 mRNAs and proteinss and 5-hydroxymethylcytosine (5-hmC) proteins were analyzed in human testis tissues from men with obstructive azoospermia and exhibiting histologically normal spermatogenesis. Ejaculated spermatozoa from normozoospermic healthy volunteers, the 'controls' (TET1: n = 58; TET2-3: n = 63), and subfertile men who participated with their female partners in an ICSI-program, the 'patients' (TET1: n = 66; TET2-3: n = 64), were analyzed concerning the stored TET1-3 mRNAs, and the values were correlated to semen parameters and ICSI-outcomes. PARTICIPANTS/MATERIALS, SETTING, METHODS: Testis sections were used for in situ hybridization (ISH) and immunohistochemical (IHC) studies to determine TET1-3 mRNA and protein expression, and for immunofluorescence (IF) detection of 5-hmC. Sperm samples from controls were analyzed by western blot, immunocytochemistry (ICC) and RT-PCR concerning the presence of non-degraded TET1-3 protein and mRNA. Sperm samples from controls and patients were used for quantitative TET1-3 mRNA analyses (reverse transcription-polymerase chain reaction) and for comparative statistical evaluations under consideration of semen parameters and ICSI-outcome (pregnancy). MAIN RESULTS AND THE ROLE OF CHANCE: During human spermatogenesis TET1-3 proteins are successively expressed: TET2 is expressed in the cytoplasm of late pachytene spermatocytes of Stage V, TET1 starts to be expressed in the nuclei of Step 1 round spermatids at Stage I, and TET3 starts to be expressed in the nuclei of Step 3 round spermatids at Stage III. Five-hmC appears only in Step 5 elongated spermatids. All three TETs are still detectable at the mRNA and protein level in sperm cells in considerable amounts. Control men generally exhibited higher levels of TET1-3 in sperm. TET1- and TET3-mRNA levels in sperm were significantly negatively correlated with age (P = 0.0025 and P = 0.0343) and positively correlated with progressive sperm motility (P = 0.0007 and P = 0.018). All TETs showed a significant association with sperm concentration (P < 0.03). Patients diagnosed with oligozoospermia and/or asthenozoospermia (TET1: n = 35; TET2-3: n = 32) showed significantly reduced TET1-3 in sperm in comparison to controls (P = 0.003, P = 0.041 and P = 0.028), but not compared with normozoospermic patients. Levels of TET3 in sperm was significantly associated with high-fertilization rates (P = 0.009). Concerning ICSI-outcome, the lowest levels of TET1-3 mRNAs in sperm were found in the non-pregnant group. Increased TET2 in sperm was significantly associated with pregnancy (P = 0.006). LIMITATIONS, REASONS FOR CAUTION: Our results concerning the association of the mRNA level of TETs in ejaculated sperm cells to different fertility parameters are descriptive. Further studies clarifying the reasons for decreased TET1-3 levels in subfertile men and their effect on their sperm methylome are essential. WIDER IMPLICATIONS OF THE FINDINGS: The study gives a substantial indication that in human spermiogenesis, an active DNA demethylation process occurs with an involvement of TET enzymes, and that the level of TET1-3 expression is pivotal for male fertility. STUDY FUNDING: Research grant from the German Research Foundation (DFG) to U.S. (SCHA1531/1-1 and SCHA1531/2-1). COMPETING INTERESTS: None.

Bacterial prostatitis.

OBJECTIVES: The prostatitis syndrome is classified into bacterial prostatitis (acute and chronic), chronic pelvic pain syndrome and asymptomatic prostatitis. The aim of this report is to review current management standards for bacterial prostatitis. METHODS: A research was performed on literature dealing with acute and chronic bacterial prostatitis. RESULTS: There is a consensus on diagnostic management of bacterial prostatitis comprising microbiological sampling of midstream urine in acute bacterial prostatitis and performance of a bacterial localisation test in chronic bacterial prostatitis. Approximately 10 % of acute bacterial prostatitis cases eventually develop into chronic bacterial prostatitis and further 10 % into chronic pelvic pain syndrome. Bacterial isolates causing acute bacterial prostatitis are highly virulent strains comprising an array of different virulence factors. Presumably, the additional ability of isolates to form biofilms might be one factor amongst others to facilitate development of chronic bacterial prostatitis. Therapy for infectious prostatitis is standardised with antibiotics as the primary agents, empirically administered in acute prostatitis and after susceptibility testing in chronic bacterial prostatitis. Fluoroquinolones exhibit more favourable pharmacological properties; therefore, fluoroquinolones have been recommended as first-line agents in the treatment for chronic bacterial prostatitis. Antibiotic resistance to fluoroquinolones, however, is increasing and is posing significant clinical problems. Further studies on alternative antibiotics active within the prostate are therefore needed both for prophylaxis in transrectal prostate biopsy, for example, and for therapy of chronic bacterial prostatitis. CONCLUSIONS: Bacterial prostatitis has developed into well-managed entities with increasing antimicrobial resistance being the most severe drawback of yielding therapeutic success.

Epigenetic down regulation of RASSF10 and its possible clinical implication in prostate carcinoma.

BACKGROUND: Ras association domain family (RASSF) comprises several tumor suppressor genes, which are often epigenetically inactivated in human tumors. Here, we aim to analyze the relevance of the recently identified member RASSF10 in prostate carcinogenesis. METHODS: RASSF10 promoter methylation and mRNA expression were investigated by bisulfite-pyrosequencing and qRT-PCR, respectively, in prostate carcinoma (PCa) cell lines (LNCaP, 22Rv1, DU-145) and in 83 primary PCa and 53 primary benign prostatic hyperplasia (BPH) tissues obtained after radical prostatectomy. Histological localization of RASSF10 was done by in situ hybridization. To prove the epigenetic nature of RASSF10 down regulation, PCa cell lines were treated with 5-aza-2-deoxycytidine and trichostatin A. Potential function of RASSF10 was analyzed in LNCaP by colony formation and apoptosis assays. RESULTS: RASSF10 mRNA was localized to cells of the basal layer of the prostatic gland. Absence (LNCaP) and decrease (22Rv1, DU-145) of RASSF10 expression was associated with promoter methylation and could be restored by demethylating agents. A link between RASSF10 mRNA reduction and promoter methylation was also detected in primary prostate tissues (P = 0.006), where PCa showed more frequently reduced RASSF10 levels when compared with BPH (33.7% vs. 13.2%, P = 0.009). RASSF10 methylation could be further associated with advanced tumor stage and advanced age (P-values < 0.05). Our preliminary functional assays revealed the ability of RASSF10 to inhibit colony formation (P = 0.018) and to increase apoptosis (P = 0.035). CONCLUSIONS: This is the first study, which demonstrates the frequent epigenetic inactivation of RASSF10 in PCa and its implication in clinical symptoms of PCa.

Short-time glucose exposure of embryonic carcinoma cells impairs their function as terminally differentiated cardiomyocytes.

The fetal and postnatal phenotype is influenced by developmental conditions experienced prenatally. Among prenatal development metabolic factors are of particular importance as they are supposed to predispose for pathophysiological alterations later in life and to pioneer functional impairment in senescence (metabolic programming). Till now the mechanisms of metabolic programming are not well understood. We have investigated various concentrations of glucose during differentiation of pluripotent P19 embryonic carcinoma cells (ECC) into cardiomyocytes. Undifferentiated P19 cells were exposed to 5mM (low), 25 mM (control), 40 mM or 100mM (high) glucose for 48 h during embryoid body (EB) formation, followed by plating and differentiation into cardiomyocytes in vitro with standard glucose supplementation (25 mM) for 10-15 days. The amount of cardiac clusters, the frequency of spontaneous beatings as well as the expression of metabolic and cardiac marker genes and their promoter methylation were measured. We observed a metabolic programming effect of glucose during cardiac differentiation. Whereas the number of beating clusters and the expression of the cardiac marker alpha myosin heavy chain (α-MHC) were comparable in all groups, the frequencies of beating clusters were significantly higher in the high glucose group compared to low glucose. However, neither the insulin receptor (IR) or insulin like growth factor 1 receptor (IGF1R) nor the metabolic gene glucose transporter 4 (GLUT4) were influenced in RNA expression or in promoter methylation. Our data indicate that a short time glucose stress during embryonic cell determination leads to lasting effects in terminally differentiated cell function.

Frequent epigenetic inactivation of RASSF2 in thyroid cancer and functional consequences.

BACKGROUND: The Ras association domain family (RASSF) encodes for distinct tumor suppressors and several members are frequently silenced in human cancer. In our study, we analyzed the role of RASSF2, RASSF3, RASSF4, RASSF5A, RASSF5C and RASSF6 and the effectors MST1, MST2 and WW45 in thyroid carcinogenesis. RESULTS: Frequent methylation of the RASSF2 and RASSF5A CpG island promoters in thyroid tumors was observed. RASSF2 was methylated in 88% of thyroid cancer cell lines and in 63% of primary thyroid carcinomas. RASSF2 methylation was significantly increased in primary thyroid carcinoma compared to normal thyroid, goiter and follicular adenoma (0%, 17% and 0%, respectively; p < 0.05). Patients which were older than 60 years were significantly hypermethylated for RASSF2 in their primary thyroid tumors compared to those younger than 40 years (90% vs. 38%; p < 0.05). RASSF2 promoter hypermethylation correlated with its reduced expression and treatment with a DNA methylation inhibitor reactivated RASSF2 transcription. Over-expression of RASSF2 reduced colony formation of thyroid cancer cells. Functionally our data show that RASSF2 interacts with the proapoptotic kinases MST1 and MST2 and induces apoptosis in thyroid cancer cell lines. Deletion of the MST interaction domain of RASSF2 reduced apoptosis significantly (p < 0.05). CONCLUSION: These results suggest that RASSF2 encodes a novel epigenetically inactivated candidate tumor suppressor gene in thyroid carcinogenesis.

Protein kinase A-mediated phosphorylation of the RASSF1A tumour suppressor at Serine 203 and regulation of RASSF1A function.

Epigenetic inactivation of the Ras-Association Domain Family 1A (RASSF1A) gene is one of the most frequent alterations detected in cancer. The tumour suppressor function of RASSF1A contributes to cell cycle progression, microtubule stabilisation and apoptotic signalling. Here we investigated the putative phosphorylation sites of RASSF1A and the functional consequences. RASSF1A is mainly phosphorylated at Serine 203 within its Ras association domain. Phosphorylation at this site is accomplished by protein kinase A (PKA) and is reduced and elevated by PKA-specific inhibitors and activators, respectively. Functionally, an alanine substitution of Serine 203 (S203A) slightly affected the microtubule stability mediated by RASSF1A (p<0.05). Interestingly, the inhibition of PKA and the S203A substitution of RASSF1A resulted in a reduced rate of apoptotic cells induced by RASSF1A. Moreover, RASSF1A-mediated upregulation of p21 and BAX was observed. This induction was reduced when the S203A substitution was present or when PKA activity was inhibited. In summary our data show that RASSF1A is phosphorylated by PKA and this phosphorylation may affect apoptotic signalling of RASSF1A. Thus epigenetic silencing of RASSF1A may counteract its proapoptotic function in cancer.

Frequent aberrant methylation of the imprinted IGF2/H19 locus and LINE1 hypomethylation in ovarian carcinoma.

Epigenetic alteration of tumor-related genes through changes of DNA methylation is a hallmark for carcinogenesis and aberrant DNA methylation modulates the activity of tumor suppressor genes, imprinted genes and repetitive elements. In ovarian carcinoma, frequent loss of imprinting or aberrant methylation of repetitive elements were reported, however, combined analysis were not performed. We analyzed the aberrant methylation of a differentially methylated region (DMR0) and a CTCF binding site of the IGF2-H19 locus and methylation of LINE1 and Satellite 2 in 22 primary ovarian carcinomas (OC) and controls by a quantitative bisulfite restriction analysis (QUBRA). In 91% of OC, a significant hypomethylation of DMR0 was found compared to controls (p<0.05). In 77% of OC, a hypermethylation of a CTCF binding site was found (p<0.05). A combined hypomethylation of DMR0 and hypermethylation of the CTCF binding was observed in 73% of OC. Hypomethylation of LINE1 and Satellite 2 was detected in 100 and 23% of OC, respectively. In summary, we found frequent combined aberrant methylation of the IGF2-H19 locus and LINE1 in the vast majority of OC, suggesting that these changes are important events in tumorigenesis.

Frequent promoter hypermethylation of tumor-related genes in head and neck squamous cell carcinoma.

Squamous cell carcinomas of head and neck (HNSCC) are a result of multiple genetic and epigenetic alterations. Epigenetic inactivation of tumor suppressor genes is an important event in head and neck carcinogenesis. Here we analyzed the promoter methylation of 15 genes (RASSF1A, p16, MGMT, DAPK, RARbeta, MLH1, CDH1, GSTP1, RASSF2, RASSF4, RASSF5, MST1, MST2, LATS1, LATS2) in 54 HNSCC and in matching 23 normal tissues. Methylation of these tumor-related genes (TRG) was significantly more frequent in HNSCC (42%) compared to normal samples (23%; p<0.05). Particularly, methylation of p16 (60%), MGMT (53%), DAPK (67%), RARbeta (75%), MLH1 (69%), CDH1 (43%), RASSF5 and MST1 (96%) was often found in HNSCC. Methylation of RASSF1A (18%), GSTP1 (4%), RASSF4 (13%), MST2 (4%), LATS1 (24%) and LATS2 (8%) was less frequently detected. A trend of increased TRG methylation in more advanced tumor stages and less differentiated HNSCC was observed. Methylation of p16 was significantly higher in poorly differentiated HNSCC (p=0.037) and RASSF5 methylation occurred preferentially in advanced tumor stages (p<0.05). Methylation of RASSF4 was higher in patients with recurrent HNSCC (23%) than patients without relapse (0%; p=0.033). Methylation of TRG in head and neck cancer cell lines was observed at similar frequency as in primary HNSCC. In summary, frequent hyper-methylation of tumor-related genes in HNSCC was detected and this epigenetic silencing event may have an essential role in head and neck carcinogenesis.

Frequent epigenetic inactivation of RASSF10 in thyroid cancer.

The Ras association domain family (RASSF) encodes for distinct tumor suppressors and several members are frequently silenced in human cancer. In our study, we analyzed the role of a novel RASSF member termed RASSF10 in thyroid carcinogenesis. The RASSF10 CpG island promoter was intensively methylated in nine thyroid cancer cell lines and in 66% of primary thyroid carcinomas. RASSF10 methylation was significantly increased in primary thyroid carcinoma compared to normal thyroid and follicular adenoma (0 and 10%, respectively; p < 0.004). Patients with cancerous lymph nodes were significantly hypermethylated for RASSF10 in primary thyroid tumors compared to those with non-affected lymph nodes (79 vs. 36%; p = 0.047). RASSF10 promoter hypermethylation correlated with a reduced expression and treatment with a DNA methylation inhibitor reactivated RASSF10 transcription. In summary, our data show frequent epigenetic inactivation of RASSF10 in thyroid cancer. These results suggest that RASSF10 may encode a novel epigenetically inactivated candidate tumor suppressor gene in thyroid carcinogenesis.

Frequent hypermethylation of MST1 and MST2 in soft tissue sarcoma.

The RASSF1A tumor suppressor is involved in regulation of apoptosis and cell cycle progression. RASSF1A is localized to microtubules and binds the apoptotic kinases MST1 and MST2. It has been shown that this interaction is mediated by the Sav-RASSF-Hpo domain, which is an interaction domain characterized for the Drosophila proteins Sav (human WW45), Hpo (human MST1 and MST2) and Warts/LATS (large tumor suppressor). Previously, we have reported that RASSF1A hypermethylation occurs frequently in soft tissue sarcoma and is associated with an unfavorable prognosis for cancer patients. In our study, we performed methylation analysis of the CpG island promoter of MST1, MST2, WW45, LATS1 and LATS2 in soft tissue sarcomas by methylation-specific PCR. No or a very low methylation frequency was detected for WW45, LATS1 and LATS2 (<7%). In 19 out of 52 (37%) sarcomas, a methylated promoter of MST1 was detected and 12 out of 60 (20%) samples showed methylation of the MST2 promoter. Methylation status of MST1 was confirmed by bisulfite sequencing. In tumors harboring a methylated promoter of MST1, a reduction of MST1 expression was observed by RT-PCR. In leiomyosarcomas, MST1 and MST2 or RASSF1A methylation were mutually exclusive (P = 0.007 and P = 0.025, respectively). Surprisingly, a significantly increased risk for tumor-related death was found for patients with an unmethylated MST1 promoter (P = 0.036). In summary, our results suggest that alteration of the Sav-RASSF1-Hpo tumor suppressor pathway may occur through hypermethylation of the CpG island promoter of MST1, MST2 and/or RASSF1A in human sarcomas.

Genetic impact of TNF-beta on risk factors for coronary atherosclerosis.

BACKGROUND: Inflammatory processes are considered to play an important role in the development of coronary atherosclerosis. The proinflammatory cytokine, tumor necrosis factor beta (TNF-beta), is thought to contribute to the pathogenesis of atherosclerosis. STUDY DESIGN: In this clinical study, the influence of genetic variants of TNF-beta (c.7G>A, IVS1+90G>A, C13R, T60N) on major coronary risk factors, including gender, smoking, history of cardiovascular diseases, biochemical data (inflammatory markers, factors of lipid metabolism, coagulation/fibrinolysis balance), and angiographically-proven coronary state, was investigated in 176 European Caucasian probands (130 males, mean age: 51.9 +/- 8.9 y). RESULTS: The most frequent combinations of the polymorphisms investigated were significantly associated with four of the coronary risk factors evaluated: hypertension, body mass index, the common inflammatory marker TNF-alpha (mRNA expression), and fibrinogen (p < 0.05). However, on testing the impact of the genetic background on the incidence of coronary stenosis in this sample of European Caucasians, no significant influence of these polymorphisms (stepwise binary logistic regression analysis) could be proven. These findings emphasise a distinct influence of TNF-beta polymorphisms on important modulators of the development of coronary atherosclerosis, but exclude its genetic background, investigated in this study as an independent coronary risk factor.

CpG island methylation of tumor-related promoters occurs preferentially in undifferentiated carcinoma.

OBJECTIVE: To understand the role of epigenetic inactivation of tumor-related genes in the pathogenesis of thyroid cancer, we investigated the methylation profile of distinct thyroid neoplasms. DESIGN: We analyzed the methylation pattern of 17 gene promoters in nine thyroid cancer cell lines and in 38 primary thyroid carcinomas (13 papillary thyroid carcinoma [PTC], 10 follicular thyroid carcinoma [FTC], 9 undifferentiated thyroid carcinoma [UTC], 6 medullary thyroid carcinoma [MTC]), 12 goiters, and 10 follicular adenomas (FA) by methylation- specific polymerase chain reaction (PCR). Epigenetic inactivation was validated by expression analysis. MAIN OUTCOME: Twelve of these genes (RASSF1A, p16(INK4A), TSHR, MGMT, DAPK, ERalpha, ERbeta, RARbeta, PTEN, CD26, SLC5A8, and UCHL1) were frequently methylated in UTC (15%-86%) and thyroid cancer cell lines (25%-100%). In the more aggressive UTC, the mean methylation index (MI = 0.44) was the highest compared to other thyroid alterations PTC (MI = 0.29, p = 0.123), FTC (MI = 0.15, p = 0.005), MTC (MI = 0.13; p = 0.017), FA (MI = 0.27; p = 0.075) and goiters (MI = 0.23; p = 0.024). Methylation of TSHR, MGMT, UCHL1, and p16 occurred preferentially in UTC and this inactivation was reverted by a demethylating agent. CONCLUSIONS: Our results show that hypermethylation of several tumor-related gene promoters is a frequent event in UTC. The hypermethylation status may be reversed by DNA demethylating agents. Their clinical value remains to be investigated.