BackgroundPTOV1 is an adaptor protein with functions in diverse processes, including gene transcription and protein translation, whose overexpression is associated with a higher proliferation index and tumor grade in prostate cancer (PC) and other neoplasms. Here we report its interaction with the Notch pathway and its involvement in PC progression.MethodsStable PTOV1 knockdown or overexpression were performed by lentiviral transduction. Protein interactions were analyzed by co-immunoprecipitation, pull-down and/or immunofluorescence. Endogenous gene expression was analyzed by real time RT-PCR and/or Western blotting. Exogenous promoter activities were studied by luciferase assays. Gene promoter interactions were analyzed by chromatin immunoprecipitation assays (ChIP). In vivo studies were performed in the Drosophila melanogaster wing, the SCID-Beige mouse model, and human prostate cancer tissues and metastasis. The Excel package was used for statistical analysis.ResultsKnockdown of PTOV1 in prostate epithelial cells and HaCaT skin keratinocytes caused the upregulation, and overexpression of PTOV1 the downregulation, of the Notch target genes HEY1 and HES1, suggesting that PTOV1 counteracts Notch signaling. Under conditions of inactive Notch signaling, endogenous PTOV1 associated with the HEY1 and HES1 promoters, together with components of the Notch repressor complex. Conversely, expression of active Notch1 provoked the dismissal of PTOV1 from these promoters. The antagonist role of PTOV1 on Notch activity was corroborated in the Drosophila melanogaster wing, where human PTOV1 exacerbated Notch deletion mutant phenotypes and suppressed the effects of constitutively active Notch. PTOV1 was required for optimal in vitro invasiveness and anchorage-independent growth of PC-3 cells, activities counteracted by Notch, and for their efficient growth and metastatic spread in vivo. In prostate tumors, the overexpression of PTOV1 was associated with decreased expression of HEY1 and HES1, and this correlation was significant in metastatic lesions.ConclusionsHigh levels of the adaptor protein PTOV1 counteract the transcriptional activity of Notch. Our evidences link the pro-oncogenic and pro-metastatic effects of PTOV1 in prostate cancer to its inhibitory activity on Notch signaling and are supportive of a tumor suppressor role of Notch in prostate cancer progression.
Purpose: To analyze the expression of PTOV1 in high-grade prostatic intraepithelial neoplasia (HG-PIN) and to explore its usefulness to predict prostate cancer in patients with isolated HG-PIN in needle biopsy (prostate needle biopsy). Experimental Design: PTOV1expression in HG-PIN lesions from 140 patients was analyzed by immunohistochemistry in a semiquantitative manner (Histo-score). HG-PIN derived from 79 radical prostatectomies for prostate cancer and from 11 cistoprostatectomies for bladder cancer without prostate cancer were used as positive and negative controls, respectively. Fifty patients with HG-PIN without concomitant cancer at their first prostate needle biopsy were chosen as the study group. Patients were followed by a mean of 2.5 repeated prostate needle biopsies (1-5), during a mean period of 12.4 months (1-39). Results: PTOV1expression in HG-PIN from radical prostatectomies showed a significantly higher Histo-score (162.6) compared with specimens from cistoprostatectomies (67.0). In the study group, PTOV1 expression was significantly higher in samples with cancer in the follow-up (11 patients, 22%) compared with samples in which cancer was not detected (151.4 versus 94.6). PTOV1expression was the only independent predictor of cancer in the multivariate analysis and the area under the curve was 0.803 (95% confidence interval, 0.728-0.878). A threshold of 100 for PTOV1 expression provided 90.9% sensitivity, 51.3% specificity, 34.5% positive predictive value, and 95.2% negative predictive value. Conclusions: PTOV1 is overexpressed in HG-PIN associated with cancer and is a potential marker for studying the carcinogenesis and progression of prostate cancer. Prostate needle biopsy with PTOV1 expression in HG-PIN above a threshold of 100 should be repeated immediately for the likely presence of undiagnosed cancer.Prostate tumor overexpressed-1 (PTOV1) was identified in our laboratory as a novel gene and protein during a screening for genes differentially expressed in prostate cancer. PTOV1 protein consists of two repeated blocks of 151 and 147 amino acids, joined by a short linker peptide, and is encoded by a 12-exon gene localized in chromosome 19q13.3 (1). The expression of PTOV1 is regulated by androgens (2). By immunohistochemical analysis, PTOV1 was undetectable in normal prostate tissue and benign prostate hyperplasia, whereas a strong immunoreactivity was shown in areas of carcinoma and high-grade prostatic intraepithelial neoplasia (HG-PIN). The high expression of PTOV1 in tumors correlated with their proliferative status, assessed by Ki67 immunoreactivity, and associated with nuclear localization of the protein, suggesting a functional relationship between PTOV1 overexpression, proliferative status, and nuclear localization. In cultured prostate tumor cells, PTOV1 localized in the cytoplasm of quiescent cells and after serum stimulation, the protein partially translocated to the nucleus. Exogenous overexpression of tagged-PTOV1 induced the entry of cells into the S phase of the cell ...
The prostate tumor overexpressed-1 (PTOV1) protein was first described overexpressed in prostate cancer but not detected in normal prostate. PTOV1 expression is associated to increased cancer proliferation in vivo and in vitro. In prostate biopsy, PTOV1 detection is helpful in the early diagnosis of cancer. The purpose of this study was to analyze the relevance of PTOV1 expression to identify aggressive tumors derived from 12 different histological tissues. Tissue microarrays (TMAs) containing 182 biopsy samples, including 168 human tumors, were analyzed for PTOV1 and Ki67 expression by immunohistochemistry. Tumors of low and high histological grade were selected from lung, breast, endometrium, pancreas liver, skin, ovary, colon, stomach, kidney, bladder, and cerebral gliomas. One TMA with representative tissues without cancer (14 samples) was used as control. PTOV1 expression was analyzed semiquantitatively for the intensity and percentage of positive cells. Ki67 was evaluated for tumors proliferative index. Results show that PTOV1 was expressed in over 95% of tumors examined.
Identification of germline cancer predisposition variants in pediatric sarcoma patients from somatic tumor testing
Genetic predisposition is an important risk factor for cancer in children and adolescents but detailed associations of individual genetic mutations to childhood cancer are still under intense investigation. Among pediatric cancers, sarcomas can arise in the setting of cancer predisposition syndromes. The association of sarcomas with these syndromes is often missed, due to the rarity and heterogeneity of sarcomas and the limited search of cancer genetic syndromes. This study included 43 pediatric and young adult patients with different sarcoma subtypes. Tumor profiling was undertaken using the Oncomine Childhood Cancer Research Assay (Thermo Fisher Scientific). Sequencing results were reviewed for potential germline alterations in clinically relevant genes associated with cancer predisposition syndromes. Jongmans´ criteria were taken into consideration for the patient selection. Fifteen patients were selected as having potential pathogenic germline variants due to tumor sequencing that identified variants in the following genes: CDKN2A, NF1, NF2, RB1, SMARCA4, SMARCB1 and TP53. The variants found in NF1 and CDKN2A in two different patients were detected in the germline, confirming the diagnosis of a cancer predisposition syndrome. We have shown that the results of somatic testing can be used to identify those at risk of an underlying cancer predisposition syndrome.
Identification and Functional Analysis of a Novel CTNNB1 Mutation in Pediatric Medulloblastoma
Medulloblastoma is the primary malignant tumor of the Central Nervous System (CNS) most common in pediatrics. We present here, the histological, molecular, and functional analysis of a cohort of 88 pediatric medulloblastoma tumor samples. The WNT-activated subgroup comprised 10% of our cohort, and all WNT-activated patients had exon 3 CTNNB1 mutations and were immunostained for nuclear β-catenin. One novel heterozygous CTNNB1 mutation was found, which resulted in the deletion of β-catenin Ser37 residue (ΔS37). The ΔS37 β-catenin variant ectopically expressed in U2OS human osteosarcoma cells displayed higher protein expression levels than wild-type β-catenin, and functional analysis disclosed gain-of-function properties in terms of elevated TCF/LEF transcriptional activity in cells. Our results suggest that the stabilization and nuclear accumulation of ΔS37 β-catenin contributed to early medulloblastoma tumorigenesis.
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