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1. Single-cell ATAC and RNA sequencing reveal pre-existing and persistent cells associated with prostate cancer relapse

Author

S. Taavitsainen, N. Engedal, S. Cao, F. Handle, A. Erickson, S. Prekovic, D. Wetterskog, T. Tolonen, E. M. Vuorinen, A. Kiviaho, R. Nätkin, T. Häkkinen, W. Devlies, S. Henttinen, R. Kaarijärvi, M. Lahnalampi, H. Kaljunen, K. Nowakowska, H. Syvälä, M. Bläuer, P. Cremaschi, F. Claessens, T. Visakorpi, T. L. J. Tammela, T. Murtola, K. J. Granberg, A. D. Lamb, K. Ketola, I. G. Mills, G. Attard, W. Wang, M. Nykter, and A. Urbanucci

Subjects
Science
Abstract

Identifying the molecular mechanisms of response to systemic therapy in prostate cancer remains crucial. Here, the authors apply single cell-ATAC and RNAseq to models of early treatment response and resistance to enzalutamide and identify chromatin and gene expression patterns that can predict treatment response.

Published
2021
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2. Prostate cancer evolution from multilineage primary to single lineage metastases with implications for liquid biopsy

Author

D. J. Woodcock, E. Riabchenko, S. Taavitsainen, M. Kankainen, G. Gundem, D. S. Brewer, P. Ellonen, M. Lepistö, Y. A. Golubeva, A. C. Warner, T. Tolonen, J. Jasu, W. B. Isaacs, M. R. Emmert-Buck, M. Nykter, T. Visakorpi, G. S. Bova, and D. C. Wedge

Subjects
Science
Abstract

The evolutionary progression from primary to metastatic prostate cancer is largely uncharted, and the implications for liquid biopsy are unexplored. Here, the authors use deep genomic sequencing and histopathological information to trace tumor evolution both within the prostate and during metastasis in ten men.

Published
2020
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3. Expression Analysis of Platinum Sensitive and Resistant Epithelial Ovarian Cancer Patient Samples Reveals New Candidates for Targeted Therapies

Author

K Veskimäe, M Scaravilli, W Niininen, H Karvonen, S Jaatinen, M Nykter, T Visakorpi, J Mäenpää, D Ungureanu, and S Staff

Subjects
Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282
Abstract

Ovarian cancer has the highest mortality rate of all gynecologic malignancies. Identification of new biomarkers is highly needed due to its late diagnosis and high recurrence rate. The objective of this study was to identify mechanisms of therapy resistance and potential biomarkers by analyzing mRNA and protein expression from samples derived from patients with platinum-sensitive and -resistant ovarian cancer (total cohort n = 53). The data revealed new candidates for targeted therapies, such as GREB1 and ROR2. We showed that the development of platinum resistance correlated with upregulation of ROR2, whereas GREB1 was downregulated. Moreover, we demonstrated that high levels of ROR2 in platinum-resistant samples were associated with upregulation of Wnt5a, STAT3 and NF-kB levels, suggesting that a crosstalk between the non-canonical Wnt5a-ROR2 and STAT3/NF-kB signaling pathways. Upregulation of ROR2, Wnt5a, STAT3 and NF-kB was further detected in a platinum-resistant cell-line model. The results of the present study provided insight into molecular mechanisms associated with platinum resistance that could be further investigated to improve treatment strategies in this clinically challenging gynecological cancer.

Published
2018
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7. How Well do Polygenic Risk Scores Identify Men at High Risk for Prostate Cancer? Systematic Review and Meta-Analysis

Author

Aino Siltari, Ragnar Lönnerbro, Karl Pang, Kirill Shiranov, Alex Asiimwe, Susan Evans-Axelsson, Billy Franks, Amit Kiran, Teemu J. Murtola, Jack Schalken, Carl Steinbeisser, Anders Bjartell, Anssi Auvinen, J. N’Dow, E.J. Smith, R. Shepherd, M. Ribal, N. Mottet, L. Moris, M. Lardas, P-P. Willemse, G. Gandaglia, R. Campi, Rossella Nicoletti, M. Gacci, A. Briganti, M.M. Ratti, E. Alleva, L. Leardini, E.S. Sisca, R. Bangma, M. Roobol, S. Remmers, D. Tilki, T. Visakorpi, K. Talala, T. Tammela, M. van Hemelrijck, K. Bayer, S. Lejeune, S. Byrne, L. Fialho, P. Palaiologou B. De Meulder, C. Auffray, A. Hijazy, S. Power, N. Zounemat Kermani, K. van Bochove, M. Kalafati, M. Moinat, E. Voss, D. Horgan, L. Fullwood, M. Holtorf, D. Lancet, G. Bernstein, I. Omar, S. MacLennan, S. Maclennan, S. Tripathee, M. Wirth, M. Froehner, B. Brenner, A. Borkowetz, C. Thomas, F. Horn, K. Reiche, M. Kreux, A. Josefsson, D. Gasi Tandefekt, J. Hugosson, H. Huisman, J. Schalken, T. Hofmacher, P. Lindgren, E. Andersson, A. Fridhammar, J. Zong, J-E. Butler-Ransohoff, R. Herrera, M. Maass, P. Torremante, M.D. Voss, Z. Devecseri, T. Abbott, C. Dau, K. Papineni, R. Snijder, M. Lambrecht, R. Wolfinger, S. Rogiers, A. Servan, L. Antoni, K. Pacoe, P. Robinson, B. Jaton, D. Bakkard, H. Turunen, O. Kilkku, P. Pohjanjousi, O. Voima, L. Nevalaita, C. Reich, S. Araujo, E. Longden-Chapman, D. Burke, P. Agapow, S. Derkits, M. Licour, C. McCrea, S. Payne, A. Yong, L. Thompson, S. Le Mare, M Bussmann, and D. Kotik

Subjects
All institutes and research themes of the Radboud University Medical Center, Oncology, Urology, Urological cancers Radboud Institute for Health Sciences [Radboudumc 15], Urological cancers Radboud Institute for Molecular Life Sciences [Radboudumc 15]
Abstract

Contains fulltext : 291547.pdf (Publisher’s version ) (Open Access) OBJECTIVES: Genome-wide association studies have revealed over 200 genetic susceptibility loci for prostate cancer (PCa). By combining them, polygenic risk scores (PRS) can be generated to predict risk of PCa. We summarize the published evidence and conduct meta-analyses of PRS as a predictor of PCa risk in Caucasian men. PATIENTS AND METHODS: Data were extracted from 59 studies, with 16 studies including 17 separate analyses used in the main meta-analysis with a total of 20,786 cases and 69,106 controls identified through a systematic search of ten databases. Random effects meta-analysis was used to obtain pooled estimates of area under the receiver-operating characteristic curve (AUC). Meta-regression was used to assess the impact of number of single-nucleotide polymorphisms (SNPs) incorporated in PRS on AUC. Heterogeneity is expressed as I(2) scores. Publication bias was evaluated using funnel plots and Egger tests. RESULTS: The ability of PRS to identify men with PCa was modest (pooled AUC 0.63, 95% CI 0.62-0.64) with moderate consistency (I(2) 64%). Combining PRS with clinical variables increased the pooled AUC to 0.74 (0.68-0.81). Meta-regression showed only negligible increase in AUC for adding incremental SNPs. Despite moderate heterogeneity, publication bias was not evident. CONCLUSION: Typically, PRS accuracy is comparable to PSA or family history with a pooled AUC value 0.63 indicating mediocre performance for PRS alone. 01 april 2023

Published
2023

10. Histological modeling of prostate cancer

Author

Leena Latonen, Pekka Ruusuvuori, T. Visakorpi, Matti Nykter, Mira Valkonen, and Kimmo Kartasalo

Subjects
Oncology, medicine.medical_specialty, Prostate cancer, business.industry, Internal medicine, medicine, business, medicine.disease
Published
2016
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12. Abstract 2476: Discovery of an androgen-responsive long noncoding RNA that associates with progression of ERG-overexpressing prostate cancers

Author

Alfonso Urbanucci, Matti Annala, Anastasia Shcherban, Matti Nykter, T. Visakorpi, Kati Kivinummi, and Annika Kohvakka

Subjects
Cancer Research, medicine.anatomical_structure, Oncology, Prostate, medicine.drug_class, medicine, Cancer research, Biology, Androgen, Erg, Long non-coding RNA
Abstract

Androgen receptor (AR) signaling pathway has an important role in the growth and development of normal prostate, but also in tumorigenesis and progression of prostate cancer (PC). Although the mechanisms of AR signaling have been widely studied and utilized for treatment in advanced PC, the exact role of AR in development of primary PC is unclear. Former studies have found that AR cistrome is reprogrammed during tumorigenesis to bind novel genomic loci by master regulators, including the ETS family transcription factor ERG. While many AR-induced target genes are known, the effect of AR signaling on regulation of long noncoding RNAs (lncRNAs) is poorly understood, especially in the context of PC progression. Previously, we discovered multiple novel PC-associated transcripts (PCATs) to be aberrantly expressed in PC. Here, we evaluated the expression of 39 Tampere PCATs (TPCATs) in 87 radical prostatectomy specimens using high-throughput real-time PCR, and studied their association with time to PSA progression after prostatectomy. Six TPCATs were significantly associated with time to PSA progression, and four of them also associated with extracapsular extension. In addition, we assessed the expression of TPCATs in the TCGA prostate adenocarcinoma cohort, and found many to be correlated with ERG expression. Moreover, publicly available AR ChIP-seq data from PC tumors indicated that several ERG-associated TPCATs had AR-binding sites on their promoters, some of which overlapped with ERG binding sites. Most notably, we found one progression-associated TPCAT that was regulated by AR in an androgen-sensitive manner according to AR siRNA knockdown and DHT stimulation experiments in vitro. The same TPCAT was also highly associated with overexpression of ERG, and further validated to be a highly PC-specific lncRNA that was abundantly expressed in primary PCs. Taken together, these findings give more insight into the role of AR cistrome in the regulation of lncRNAs in primary PC, and introduce a potential novel prognostic marker to be used in early detection of aggressive PC. Citation Format: Annika Kohvakka, Anastasia Shcherban, Kati K. Kivinummi, Matti Annala, Alfonso Urbanucci, Matti Nykter, Tapio Visakorpi. Discovery of an androgen-responsive long noncoding RNA that associates with progression of ERG-overexpressing prostate cancers [abstract]. In: Proceedings of the American Association for Cancer Research Annual Meeting 2018; 2018 Apr 14-18; Chicago, IL. Philadelphia (PA): AACR; Cancer Res 2018;78(13 Suppl):Abstract nr 2476.

Published
2018
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13. Probabilistic analysis of gene expression measurements from heterogeneous tissues

Author

Saara Lehmusvaara, T. Visakorpi, Pekka Ruusuvuori, Harri Lähdesmäki, Timo Erkkilä, and Ilya Shmulevich

Subjects
Statistics and Probability, In silico, Gene Expression, Biology, Biochemistry, 03 medical and health sciences, 0302 clinical medicine, Software, Linear regression, Replication (statistics), Probabilistic analysis of algorithms, Molecular Biology, 030304 developmental biology, Oligonucleotide Array Sequence Analysis, ta113, Genetics, 0303 health sciences, Original Paper, Models, Statistical, business.industry, Gene Expression Profiling, Statistical model, Expression (mathematics), Computer Science Applications, Gene expression profiling, Computational Mathematics, Computational Theory and Mathematics, 030220 oncology & carcinogenesis, Biological system, business, Algorithms, Biomarkers
Abstract

Motivation: Tissue heterogeneity, arising from multiple cell types, is a major confounding factor in experiments that focus on studying cell types, e.g. their expression profiles, in isolation. Although sample heterogeneity can be addressed by manual microdissection, prior to conducting experiments, computational treatment on heterogeneous measurements have become a reliable alternative to perform this microdissection in silico. Favoring computation over manual purification has its advantages, such as time consumption, measuring responses of multiple cell types simultaneously, keeping samples intact of external perturbations and unaltered yield of molecular content. Results: We formalize a probabilistic model, DSection, and show with simulations as well as with real microarray data that DSection attains increased modeling accuracy in terms of (i) estimating cell-type proportions of heterogeneous tissue samples, (ii) estimating replication variance and (iii) identifying differential expression across cell types under various experimental conditions. As our reference we use the corresponding linear regression model, which mirrors the performance of the majority of current non-probabilistic modeling approaches. Availability and Software: All codes are written in Matlab, and are freely available upon request as well as at the project web page http://www.cs.tut.fi/∼erkkila2/. Furthermore, a web-application for DSection exists at http://informatics.systemsbiology.net/DSection. Contact: timo.p.erkkila@tut.fi; harri.lahdesmaki@tut.fi

Published
2010

14. Integrative analysis of the proteome in prostate cancer uncovers robustness against genomic and transcriptomic aberrations during disease progression

Author

Janika Nättinen, Ulla Aapola, Roger W. Beuerman, Kati Kivinummi, Antti Jylhä, Teuvo L.J. Tammela, Matti Annala, Leena Latonen, E. Afyounian, T. Visakorpi, Matti Nykter, and H Uusitalo

Subjects
Transcriptome, Prostate cancer, business.industry, Urology, Proteome, Disease progression, Medicine, Robustness (evolution), Computational biology, business, medicine.disease
Published
2018
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15. The expression of SOCS is altered in rheumatoid arthritis

Author

Markku Korpela, Olli Silvennoinen, T Moilanen, A Lagerstedt, P. Isomäki, T Visakorpi, P Isohanni, and T Alanärä

Subjects
Adult, Male, medicine.medical_specialty, medicine.medical_treatment, Arthritis, Suppressor of Cytokine Signaling Proteins, Peripheral blood mononuclear cell, Suppressor of cytokine signalling, Monocytes, Arthritis, Rheumatoid, Suppressor of Cytokine Signaling 1 Protein, Rheumatology, T-Lymphocyte Subsets, Internal medicine, Synovial Fluid, Humans, Medicine, Macrophage, Synovial fluid, Pharmacology (medical), RNA, Messenger, Cells, Cultured, Aged, Aged, 80 and over, Reverse Transcriptase Polymerase Chain Reaction, business.industry, Synovial Membrane, Middle Aged, medicine.disease, Up-Regulation, Reverse transcription polymerase chain reaction, Cytokine, Endocrinology, medicine.anatomical_structure, Gene Expression Regulation, Suppressor of Cytokine Signaling 3 Protein, Leukocytes, Mononuclear, Cytokines, Female, Synovial membrane, business
Abstract

1,5Objectives. Cytokines play a key pathogenic role in rheumatoid arthritis (RA). Several cytokines signal through the JAK-STAT pathway,which is negatively regulated by the suppressors of cytokine signalling (SOCS) proteins. Since SOCS protein levels can profoundly modulatecellular responses to cytokines, we have investigated their expression in chronic RA.Methods. The levels of SOCS1–3 and CIS1 mRNA in peripheral blood (PB) and synovial fluid (SF) mononuclear cells (MCs), purified T cellsand monocytes from RA patients and healthy volunteers were studied using quantitative reverse transcriptase polymerase chain reaction(RT-PCR). SOCS mRNA and protein expression in synovial tissues were examined by RT-PCR and immunohistochemistry.Results. The levels of SOCS1 and SOCS3 were significantly increased in PBMCs from RA patients when compared with healthy volunteers.These differences were mainly due to up-regulation of SOCS1 in PB T cells and of SOCS3 in PB monocytes. In addition, SOCS2 wasup-regulated in PB T cells. Interestingly, SF T cells expressed lower and SF macrophages higher levels of SOCS molecules than their PBcounterparts. Similarly, while a significant portion of macrophages in synovial tissues expressed SOCS1 and SOCS3 proteins, the majority ofT cells remained SOCS negative. Finally, SOCS1 was up-regulated in the synovial membranes from patients with RA when compared withosteoarthritis.Conclusions. SOCS expression levels are profoundly altered in RA, and the profile of SOCS expression is dependent on both the cell typeas well as the cellular compartment.K

Published
2007
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17. 1074 Microseminoprotein-beta expression in different stages of prostate cancer

Author

T. Visakorpi, Hans Lilja, Johanna Schleutker, T. Wahlfors, K. Leinonen, Outi R. Saramäki, Teuvo L.J. Tammela, Janika Nättinen, Matti Nykter, L Sjöblom, G S Bova, T. Tolonen, and Matti Annala

Subjects
Oncology, medicine.medical_specialty, Prostate cancer, business.industry, Urology, Internal medicine, medicine, Microseminoprotein beta, medicine.disease, business
Published
2016
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19. Contents Vol. 87, 1999

Author

Y.K. Kwon, R. Taneja, C.L. Keck-Waggoner, X. Estivill, Z.G. Xue, G. Vassart, R. Langley, D.K. Griffin, O. Delattre, Q. Tu, V. Pecile, J.M. Vance, K. Hoehn, S. Zhao, N. Wang, K. Agata, Y. Baba, Y.H. Chen, E. Leung, J. Walker, P. Parham, T. Yamadori, L.K. Goff, F. Haberman, L.A. Shepel, O. Rosnet, M.A. Crackower, P.G. Suh, M. Nessling, C.R. Bonvicino, R. Kreutz, P. Castagnola, F. Ventura, J.L. Rosa, B. Malfoy, S. Armstrong, M.N. Gould, K. Sano, S.-X. Wang, M. Mori, C. Larsson, S. van Soest, R. Morello, G.M. Brasic, F. Farnebo, L. Yu, J.R. Lee, H. Nakamura, S. Kytölä, C. Bourgeois, T. Kishimoto, B.-Z. Yuan, E.M. Hammond, A. Bernheim, Y. Matsuda, M. Schmid, P. van Vooren, T. van Reeth, D. Schadendorf, U.S.R. Bergerheim, R.J.A. Grand, S.Y. Zhao, Kazuhiko Orikasa, F.A. Norris, T. Kurosaki, F. Bussolino, H. Coffigny, D.B. Zimonjic, M. Matsushita, N. Horelli-Kuitunen, H. Zhang, Z.C. Yin, N. Kansaku, J. Justesen, S.H. Park, R. Leach, M. Bagga, Y. Zhao, A. Vilain, T. Suzuki, K. Hildén, F. Tian, Z.C. Chen, R. Sallinen, R. Bartrons, K. Lehnert, M. Ricoul, M.D.A. Kuske, C. Cruz, A. Amoroso, D.S. Sinasac, C.J. Ye, P.C.L. Beverley, J. Bernardino, M. Koide, J.-H. Piao, Z. Guillier-Gencik, Johji Inazawa, L. Tonachini, J. Aaltonen, K.-S. Chen, S. Crovella, R.E. Pearlman, A. Bensimon, J.H. Xia, A. Maho, Shinichi Fukushige, H. Zürcher, A. Palotie, Takushi Monden, J. Skaug, Q. Liu, H.N. Seuánez, S.P. Stoesz, M.A.M. Moreira, J. Isola, J.Y. Chu, F.C. Canavez, S.A. Krawetz, Akira Horii, T. Visakorpi, H.H.Q. Heng, M. Ferguson-Smith, Y. Yang, J. Smith, C.G. Jakobsen, M. Ko, L.-C. Tsui, M. Wessman, D.W. Burt, Y.K. Jung, P.B. Moens, N. Nupponen, Ph. Coullin, J. Springer, N. Spieker, J.-A. Herbrick, J. Masabanda, T. Satoh, O. Ritvos, J. Bondestam, P. Stanier, I. Nanda, J.P. Johnson, M. Nadal, A. Sazanov, S. Hashimoto, C.M. Morris, L.L. Hansen, T. Namikawa, A. Niveleau, P. Lichter, P.Y. Zeng, H. Sun, P.S. White, M. Paul, W.O. Lui, R.E. Joseph, K. Shimada, D. Liu, R. Cancedda, J. Ni, G.W. Krissansen, S.H. Ryu, S.W. Scherer, M. Timón, N.C. Popescu, M. Monticone, C. Jiang, B. Dutrillaux, J. Wienberg, S.S. Thorgeirsson, E. Audero, M.A. Kern, M.Z. Li, J. Szpirer, F. Grummt, B.C. Schutte, K. Schmeiser, Seiichi Orikasa, C. Schiff, C. Szpirer, Y. Pan, Takashi Yamato, M. Yamada, M. Tarsounas, S. Garagna, A. Forus, N. Marziliano, M-G. Mattéi, S. Tsukada, W. Kuang, E. Tchilian, P. O’Brien, S.G. Gregory, S. Gough, H. Kim, Q. Pan, M. Parmentier, E. Engvall, and T.C. Matise

Subjects
Botany, Genetics, Biology, Molecular Biology, Genetics (clinical)
Published
1999
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21. 17 Expression and gene copy number alterations of her-2/neu (ERBB2) gene in prostate cancer

Author

Kimmo Savinainen and T. Visakorpi

Subjects
Betacellulin, TGF alpha, Amphiregulin, ErbB, Epidermal growth factor, Cancer research, Neuregulin, ERBB3, Biology, Molecular biology, Epiregulin
Abstract

Publisher Summary This chapter describes the expression and gene copy number alterations of HER-2/neu (ERBB2) gene in prostate cancer. The HER-2/neu gene (ERBB2) was initially identified as a transforming gene in chemically induced rat neuroblastomas. The gene, located at chromosomal region 17q21, encodes for a 185 kD transmembrane glycoprotein that contains tyrosine kinase activity and belongs to the epidermal growth factor receptor family. The human epidermal growth factor receptor (HER or ERBB) family consists of four distinct members—the epidermal growth factor (EGF) receptor (EGFR or HER-1, HER-2, HER-3, and HER-4). Ligands for this receptor family include EGF, transforming growth factor- a, amphiregulin, betacellulin, heparin-binding EGF-like growth factor, and epiregulin and neuregulins 1, 2, 3, and 4. HER-2 is amplified and overexpressed in a wide variety of human tumors, mainly from epithelial origin. Especially, high amplification frequency (20–30%) has been found in breast cancer and the amplification and/or overexpression are associated with poor prognosis.

Published
2002
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22. 299 Novel prostate cancer specific transcripts identified using RNA-seq

Author

Leena Latonen, Mauro Scaravilli, W. Zhang, Teuvo L.J. Tammela, Kati Kivinummi, K. Kartasalo, T. Visakorpi, Antti Ylipää, S-P. Leppänen, Matti Annala, and Matti Nykter

Subjects
Oncology, medicine.medical_specialty, Prostate cancer, business.industry, Urology, Internal medicine, medicine, RNA-Seq, Computational biology, business, medicine.disease
Published
2014
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23. Permanent phenotypic and genotypic changes of prostate cancer cells cultured in a three-dimensional rotating-wall vessel

Author

H W, Rhee, H E, Zhau, S, Pathak, A S, Multani, S, Pennanen, T, Visakorpi, and L W, Chung

Subjects
Chromosome Aberrations, Male, Estradiol, Genotype, Rotation, Cell Culture Techniques, Mice, Nude, Prostatic Neoplasms, Metribolone, Prostate-Specific Antigen, Coculture Techniques, Microspheres, Chromosome Banding, Mice, Phenotype, Cytogenetic Analysis, Tumor Cells, Cultured, Animals, Humans, Neoplasm Metastasis, Stromal Cells, Growth Substances, Cell Division, Neoplasm Transplantation
Abstract

A three-dimensional (3D) integrated rotating-wall vessel cell-culture system was used to evaluate the interaction between a human prostate cancer cell line, LNCaP, and microcarrier beads alone, or microcarrier beads previously seeded with either prostate or bone stromal cells. Upon coculture of LNCaP cells with microcarrier beads either in the presence or in the absence of prostate or bone stromal cells, 3D prostate organoids were formed with the expected hormonal responsiveness to androgen, increased cell growth, and prostate-specific antigen production. In this communication, we define permanent phenotypic and genotypic changes of LNCaP cells upon coculture with microcarrier beads alone, or with microcarrier beads previously seeded with either prostate or bone stromal cells. Most notably, we observed selective genetic changes, i.e., chromosomal losses or gains, as evaluated by both conventional cytogenetic and comparative genomic hybridization, in LNCaP sublines derived from the prostate organoids. Moreover, the derivative LNCaP cells appear to have altered growth profiles, and exhibit permanent and stable changes in response to androgen, estrogen, and growth factors. The derivative LNCaP sublines showed increased anchorage-independent growth rate, and enhanced tumorigenicity and metastatic potential when inoculated orthotopically in castrated athymic mice. Our results support the hypothesis that further nonrandom genetic and phenotypic changes in prostate cancer epithelial cells can occur through an event that resembles "adaptive mutation" such as has been described in bacteria subjected to nutritional starvation. The occurrence of such permanent changes may be highly contact dependent, and appears to be driven by specific microenvironmental factors surrounding the tumor cell epithelium grown as 3D prostate organoids.

Published
2001

24. Detection of differentially expressed genes in prostate cancer by combining suppression subtractive hybridization and cDNA library array

Author

K P, Porkka and T, Visakorpi

Subjects
Male, DNA, Complementary, Prostatic Hyperplasia, Tumor Cells, Cultured, Gene Expression, Humans, Nucleic Acid Hybridization, Prostatic Neoplasms, DNA, Neoplasm, Blotting, Northern, Gene Library
Abstract

The molecular mechanisms underlying the development and progression of prostate cancer have remained poorly understood. The identification of differentially expressed genes has been used as a tool to recognize genes that are involved in disease processes. In this study we combined suppression subtractive hybridization (SSH) and cDNA array hybridization to identify genes whose expression is decreased in prostate cancer. cDNA from benign prostatic hyperplasia (BPH) was subtracted with cDNA from the prostate cancer cell line PC-3 and 386 of the subtracted clones were arrayed onto a nylon filter membrane. The differential gene expression was then verified by hybridizing the filter with radioactively labelled first-strand cDNA preparations from BPH, PC-3, four other cancer cell lines, and a normal prostate epithelial cell line (PrEC). In order to validate SSH and cDNA array hybridization, the enrichment of clones in the subtraction, as well as the sensitivity and linearity of array hybridization, was first evaluated. The array hydridization results were confirmed by northern analysis and selected clones were sequenced. Altogether, several known genes, such as prostate-specific antigen (PSA), human glandular kallikrein 2 (hK2), phosphatidic acid phosphatase type 2a (PAP2a), alpha-tropomyosin, and insulin-like growth factor binding protein 7 (IGFBP-7), as well as an anonymous transcript (EST), were found to be expressed less in PC-3 than in BPH. Further studies on the significance of these genes in the development of prostate cancer are now warranted.

Published
2001

26. Molecular cytogenetics of prostate cancer

Author

N N, Nupponen and T, Visakorpi

Subjects
Chromosome Aberrations, Male, Cytogenetic Analysis, Humans, Nucleic Acid Hybridization, Prostatic Neoplasms, In Situ Hybridization, Fluorescence
Abstract

Prostate cancer is the most common malignancy among men in Western industrialized countries. The molecular pathogenesis of the disease is poorly known. Over the past 10 years, chromosomal aberrations in prostate cancer have been studied with several techniques, such as loss of heterozygosity (LOH), classical cytogenetics, and molecular cytogenetics, namely with fluorescence in situ hybridization (FISH) and comparative genomic hybridization (CGH). These analyses, especially those performed by CGH, have enabled the distinction of the predominant chromosomal regions of involvement in prostate cancer. Studies have shown that the most common chromosomal alterations in prostate cancer are losses at 1p, 6q, 8p, 10q, 13q, 16q, and 18q and gains at 1q, 2p, 7, 8q, 18q, and Xq. Fluorescence in situ hybridization (FISH) has been used to identify the target genes for some of these chromosomal alterations. For example, amplifications of AR (at Xq12), MYC (8q24), and EIF3S3 (8q23) have been found in a large fraction of hormone-refractory prostate cancer by FISH. However, many of the critical oncogenes and tumor suppressor genes located in the altered chromosomal regions have not yet been identified.

Published
2000

27. Complex chromosomal aberrations in chronic lymphocytic leukemia are associated with cellular drug and irradiation resistance

Author

T, Koski, R, Karhu, T, Visakorpi, L, Vilpo, S, Knuutila, and J, Vilpo

Subjects
Male, Ultraviolet Rays, Loss of Heterozygosity, Antineoplastic Agents, Trisomy, Radiation Tolerance, Tumor Cells, Cultured, Humans, Genes, Retinoblastoma, In Situ Hybridization, Fluorescence, Aged, Chromosome Aberrations, Chromosomes, Human, Pair 12, Chromosomes, Human, Pair 11, Nucleic Acid Hybridization, DNA, Neoplasm, Middle Aged, Prognosis, Leukemia, Lymphocytic, Chronic, B-Cell, Neoplasm Proteins, Drug Resistance, Neoplasm, Gamma Rays, Karyotyping, Disease Progression, Female, Mitogens, Gene Deletion
Abstract

Drug resistance is a major problem in chemotherapy of chronic lymphocytic leukemia (CLL). The genetic basis and molecular pathogenesis of drug resistance in CLL remain poorly understood. Here, we have investigated the association between chromosomal aberrations and cellular resistance of CLL cells against seven drugs, gamma and ultraviolet irradiation. Samples were obtained from 35 patients having a classical form of B-CLL. Chromosomal aberrations were first analyzed by traditional karyotyping improved by using optimized mitogen combinations. DNA sequence copy number changes throughout the genome were next screened by comparative genomic hybridization. Finally, fluorescence in situ hybridization was used to detect trisomy 12 and loss of Rb and deletions at chromosome 11. The cellular sensitivity in vitro was assessed by the reduction of macromolecular protein synthesis measured as incorporation of radioactive L-leucine as an endpoint. The overall analysis disclosed a statistically highly significant difference in cellular drug resistance between patients having at least three aberrations compared with patients with fewer or no aberrations. This strongly indicates that complex rather than simple molecular mechanisms are responsible for the drug and irradiation resistance in CLL. According to published results, complex aberrations are constantly associated with poor prognosis in CLL. We demonstrated here that complex chromosomal aberrations were associated with cellular irradiation and drug resistance, which, on the other hand, may be responsible for the poor clinical outcome in CLL.

Published
2000

28. Mapping the amplification of EIF3S3 in breast and prostate cancer

Author

N N, Nupponen, J, Isola, and T, Visakorpi

Subjects
Expressed Sequence Tags, Genetic Markers, Male, Eukaryotic Initiation Factor-3, Gene Expression Profiling, Gene Amplification, Chromosome Mapping, Nucleic Acid Hybridization, Prostatic Neoplasms, Breast Neoplasms, Peptide Initiation Factors, DNA, Viral, Tumor Cells, Cultured, Humans, Bacteriophages, Female, DNA Probes, In Situ Hybridization, Fluorescence, Chromosomes, Human, Pair 8
Abstract

Gain of chromosome arm 8q is a frequent genetic alteration in breast and prostate cancer. Two amplified subregions, 8q21 and 8q23-24, have been identified with comparative genomic hybridization (CGH). We have recently demonstrated that the EIF3S3 (eIF3-p40) gene, located at 8q23, is often amplified and overexpressed in both breast and prostate cancer. Here, we used fluorescence in situ hybridization (FISH) to map the amplified region around EIF3S3 in primary breast cancers and cell lines. The size of the common highly amplified region was about 2.5 Mb between the markers D8S1668 and WI-7959. Next, we analyzed the expression of all expressed sequence tags (ESTs) located within and near this region by RNA slot blot hybridization. In addition to EIF3S3, three anonymous ESTs and EXT1 were found to be highly expressed in cancer cell lines with the amplification at 8q23-q24. However, the anonymous ESTs were located outside the minimal highly amplified region and EXT1 was overexpressed only in one of the cancer cell lines with 8q amplification. Since EIF3S3 was the only consistently overexpressed gene located in the minimal highly amplified region, it is the strongest candidate target gene for 8q23-q24 amplification.

Published
2000

29. Androgen receptor gene and hormonal therapy failure of prostate cancer

Author

P, Koivisto, M, Kolmer, T, Visakorpi, and O P, Kallioniemi

Subjects
Male, Receptors, Androgen, Humans, Prostatic Neoplasms, Genetic Therapy, Treatment Failure, Hormones, Research Article
Abstract

Androgen receptor (AR) is a nuclear transcription factor that binds male sex steroids and mediates the biological effects of these hormones to the target cells, such as the epithelial cells of the prostate gland, by activating transcription of androgen-dependent genes. Withdrawal of androgens or the peripheral blockade of androgen action remain the critical therapeutic options for the treatment of advanced prostate cancer. However, after initial regression, many prostate cancers become hormone refractory and progress further with eventual fatal outcome. Understanding the mechanisms of tumor progression and endocrine therapy failure is an important goal. A large number of different molecular mechanisms may be responsible for development of hormone-refractory recurrent tumors. Many of these involve the AR gene and its complex downstream signaling pathways. The role of AR mutations and altered transactivational properties of the receptor have received the most attention as causative factors for progression. However, other mechanisms, such as AR gene amplification and overexpression or increased local bioconversion of androgens, may contribute to the development of progression by mechanisms that involve androgen-dependent cell growth. Here we review the role of the AR gene and its putative downstream effector pathways during human prostate cancer progression and endocrine therapy failure.

Published
1998

30. Optimizing DOP-PCR for universal amplification of small DNA samples in comparative genomic hybridization

Author

T, Kuukasjärvi, M, Tanner, S, Pennanen, R, Karhu, T, Visakorpi, and J, Isola

Subjects
Genome, Tumor Cells, Cultured, Humans, Nucleic Acid Hybridization, DNA, Neoplasm, Polymerase Chain Reaction, Sensitivity and Specificity, Fluorescent Dyes
Abstract

The standard comparative genomic hybridization (CGH) protocol relies on availability of macroscopic tumor samples, which do not contain too much interfering normal cells. Recently, CGH after universal amplification of genomic DNA with degenerate oligonucleotide primed PCR (DOP-PCR) has been used to detect genetic aberrations in microdissected tumor specimens. However, owing to the technical difficulties, CGH results of only few microdissected samples have so far been published. We have developed an improved protocol for DOP-PCR, which includes direct incorporation of fluorochrome-conjugated nucleotides into the PCR product. Among the four polymerase enzymes tested. ThermoSequenase gave the best yield, with PCR products ranging from 100-4,000 bp. A two-step PCR-procedure was used, consisting of a preamplification with low stringency conditions followed by amplification in more stringent conditions. The method was first validated by hybridizing DOP-PCR-amplified normal DNA against nick-translated reference DNA, which showed uniform amd even hybridization result for all chromosomes. Comparison of DOP-PCR CGH to conventional CGH in MCF-7 breast cancer cell line further indicated that genetic aberrations can be reliable detected after DOP-PCR amplification. The sensitivity of the DOP-PCR-CGH was tested by serial dilution of MCF-7 DNA. Fifty picograms of sample DNA (corresponding roughly to two MCF-7 cells) was sufficient for high quality CGH. Experiments with cells microdissected from intraductal breast cancer demonstrated that carcinoma cells from 1 to 2 ducts were sufficient for a successful DOP-PCR CGH analysis. We conclude that the improved DOP-PCR-CGH protocol provides a powerful tool to study genetic aberrations in different histological subpopulations of malignant as well as precancerous lesions. DOP-PCR also improves the success rate of conventional paraffin-block CGH, because a poor quality or a too low yield of extracted DNA can be compensated by universal DNA amplification by DOP-PCR.

Published
1997

31. Low biological aggressiveness of screen-detected lung cancers may indicate over-diagnosis

Author

M, Hakama, K, Holli, T, Visakorpi, M, Pekola, and O P, Kallioniemi

Subjects
Male, Lung Neoplasms, Humans, Mass Screening, Female, DNA, Neoplasm, Flow Cytometry, Prognosis, Survival Analysis, Finland
Abstract

All cases of lung cancer diagnosed in the Tampere University Hospital catchment area in 1983-1987 were identified, analyzed for DNA flow cytometry and followed up to 1992. The patients were classified into 3 groups: screen-detected, symptom-detected, and detected by chance. The biological aggressiveness as indicated by DNA flow cytometry was not related to the survival of the symptom-detected patients. Also the screen-detected patients with an aggressive tumour (aneuploid or high S-phase fraction, SPF) had the same survival as the symptom-detected patients. The survival of screen-detected patients with a diploid or low SPF tumour was significantly better than that in the other groups. It is concluded that some of the previously known discrepancy of no effect on mortality and effect on survival of lung-cancer screening may be due to over-diagnosis, i.e., detection of morphologically malignant but biologically indolent lesions by screening.

Published
1996

32. Genetic basis and clonal evolution of human prostate cancer

Author

O P, Kallioniemi and T, Visakorpi

Subjects
Chromosome Aberrations, Male, Risk Factors, Disease Progression, Humans, Prostatic Neoplasms, Chromosome Disorders, Oncogenes, Neoplasm Metastasis, Clone Cells, Neoplasm Staging
Published
1996

33. Analysis of genetic changes underlying local recurrence of prostate carcinoma during androgen deprivation therapy

Author

P, Koivisto, E, Hyytinen, C, Palmberg, T, Tammela, T, Visakorpi, J, Isola, and O P, Kallioniemi

Subjects
Male, X Chromosome, Receptors, Androgen, Carcinoma, Humans, Prostatic Neoplasms, Androgen Antagonists, Neoplasm Recurrence, Local, In Situ Hybridization, Fluorescence, Research Article
Abstract

The molecular mechanisms and genetic changes that lead to the progression of prostate cancer during endocrine therapy are poorly characterized. Here, paired specimens from both untreated primary tumors and from local recurrences were collected from 10 prostate cancer patients treated by conventional androgen deprivation therapy. The genetic progression of the tumors was studied by using interphase fluorescence in situ hybridization and chromosome-specific probes. Six primary tumors (60%) and all ten recurrent tumors were aneuploid by fluorescence in situ hybridization. The recurrent tumors also showed a high degree of chromosome copy number variability from one cell to another. Increased copy number of chromosome X was particularly common in the recurrent tumors. In addition, specific high level amplification of the androgen receptor (AR) gene (Xq12) was detected in three highly aneuploid recurrent tumors. Our findings suggest that hormone-refractory prostate cancers are genetically very complex and show intratumor genetic heterogeneity. Increased copy number of chromosome X and the amplification of the androgen receptor (AR) gene may confer proliferative advantage during androgen deprivation and thus contribute to the development of recurrence.

Published
1995

34. Direct visualization of the clonal progression of primary cutaneous melanoma: application of tissue microdissection and comparative genomic hybridization

Author

R N, Wiltshire, P, Duray, M L, Bittner, T, Visakorpi, P S, Meltzer, R J, Tuthill, L A, Liotta, and J M, Trent

Subjects
Male, Skin Neoplasms, Dissection, Humans, Nucleic Acid Hybridization, Female, DNA, Neoplasm, Middle Aged, Melanoma, Aged
Abstract

Human cutaneous malignant melanoma progresses through a series of well defined clinical and histopathological stages. It has been assumed that the neoplastic progression of this disease advances from a common acquired nevus or dysplastic nevus through the primary radial growth phase (RGP), primary vertical growth phase (VGP), and finally to distant metastasis. However, it has never been directly shown that VGP is clonally derived from RGP. Furthermore, it has not been possible previously to conduct a detailed genetic analysis on pure tumor cells from archival material because the lesions are a heterogeneous mixture of normal and neoplastic cells, and the entire specimen must be excised and fixed for clinical diagnosis. This report describes a new approach designed to identify DNA copy number changes in tumor cells from a series of progressive primary stages of cutaneous melanoma archival biopsies. Under direct high-power visualization, cells are procured with a sterile needle from highly specific areas of the tissue section. DNA is extracted from microdissected cells (normal, RGP, and VGP), PCR amplified, fluorescently labeled, and examined by comparative genomic hybridization to determine DNA copy number changes. Data obtained from three representative cases suggest a clonal derivation of VGP cells from RGP. This approach could be useful in identifying the sequence of genetic changes in progressive cutaneous melanoma stages.

Published
1995

35. Genetic changes in primary and recurrent prostate cancer by comparative genomic hybridization

Author

T, Visakorpi, A H, Kallioniemi, A C, Syvänen, E R, Hyytinen, R, Karhu, T, Tammela, J J, Isola, and O P, Kallioniemi

Subjects
Male, Genome, Human, Image Processing, Computer-Assisted, Prostatic Hyperplasia, Humans, Nucleic Acid Hybridization, Prostatic Neoplasms, Chromosome Deletion, Neoplasm Recurrence, Local
Abstract

Genetic changes leading to the development of prostate cancer and factors that underlie the clinical progression of the disease are poorly characterized. Here, we used comparative genomic hybridization (CGH) to screen for DNA sequence copy number changes along all chromosomes in 31 primary and 9 recurrent uncultured prostate carcinomas. The aim of the study was to identify those chromosome regions that contain genes important for the development of prostate cancer and to identify genetic markers of tumor progression. CGH analysis indicated that 74% of primary prostate carcinoma showed DNA sequence copy number changes. Losses were 5 times more common than gains and most often involved 8p (32%), 13q (32%), 6q (22%), 16q (19%), 18q (19%), and 9p (16%). Allelic loss studies with 5 polymorphic microsatellite markers for 4 different chromosomes were done from 13 samples and showed a 76% concordance with CGH results. In local recurrences that developed during endocrine therapy, there were significantly more gains (P0.001) and losses (P0.05) of DNA sequences than in primary tumors, with gains of 8q (found in 89% of recurrences versus 6% of primary tumors), X (56% versus 0%), and 7 (56% versus 10%), as well as loss of 8p (78% versus 32%), being particularly often involved. In conclusion, our CGH results indicate that losses of several chromosomal regions are common genetic changes in primary tumors, suggesting that deletional inactivation of putative tumor suppressor genes in these chromosomal sites is likely to underlie development of prostate cancer. Furthermore, the pattern of genetic changes seen in recurrent tumors with the frequent gains of 7, 8q, and X suggests that the progression of prostate cancer and development of hormone-independent growth may have a distinct genetic basis. These chromosome aberrations may have diagnostic utility as markers of prostate cancer progression.

Published
1995

36. Sensitive detection of chromosome copy number aberrations in prostate cancer by fluorescence in situ hybridization

Author

T, Visakorpi, E, Hyytinen, A, Kallioniemi, J, Isola, and O P, Kallioniemi

Subjects
Chromosome Aberrations, Male, X Chromosome, Prostatic Neoplasms, Chromosome Disorders, DNA, Neoplasm, Aneuploidy, Flow Cytometry, Sensitivity and Specificity, Humans, Chromosomes, Human, Pair 7, In Situ Hybridization, Fluorescence, Chromosomes, Human, Pair 8, Research Article
Abstract

The pattern of chromosomal aberrations and their significance in prostate cancer are poorly understood. We studied 23 prostate cancer and 10 benign prostatic hyperplasia (BPH) specimens by fluorescence in situ hybridization (FISH) using pericentromeric repeat-specific probes for 10 different chromosomes. The aims of the study were: 1) to compare the sensitivity of FISH and DNA flow cytometry in aneuploidy detection, 2) to determine which chromosome copy number changes are most common, and 3) which probe combinations would be most effective in aneuploidy diagnosis. Disaggregated tumor cells from formalin-fixed, paraffin-embedded tissues were pretreated with our newly developed method based on hot glycerol solution to improve probe penetration. All BPH specimens were diploid by DNA flow cytometry and showed no numerical chromosome aberrations by FISH. In prostate cancer, flow cytometry showed abnormal DNA content in 35% of cases, whereas 74% were abnormal by FISH. Aberrant copy number of chromosomes 8 (48% of cases), X (43% of cases), and 7 (39% of cases) were most common. Ninety-four percent of all aneuploid cases would have been detected with these three probes alone. Simple chromosome losses were uncommon but in DNA tetraploid tumors relative losses (trisomy or disomy) of several chromosomes were often found, suggesting progression of prostate cancer through tetraploidization followed by losses of selected chromosomes. In conclusion, our results indicate that FISH using three selected chromosome-specific probes is two to three times more sensitive than flow cytometric DNA content analysis in aneuploidy detection.

Published
1994

37. Overexpression of p53 and long-term survival in colon carcinoma

Author

T. Visakorpi, S Virtanen, T. Koivula, M. Hakama, Jorma Isola, and Anssi Auvinen

Subjects
Adult, Male, Cancer Research, medicine.medical_specialty, Pathology, Tumor suppressor gene, Adolescent, Gene Expression, Biology, Gastroenterology, S Phase, Statistical significance, Internal medicine, Carcinoma, medicine, Humans, Stage (cooking), Child, Survival analysis, Aged, Epithelioma, Proportional hazards model, Age Factors, Infant, Newborn, Infant, DNA, Neoplasm, Middle Aged, medicine.disease, Flow Cytometry, Genes, p53, Immunohistochemistry, Survival Analysis, Oncology, Child, Preschool, Colonic Neoplasms, Female, Tumor Suppressor Protein p53, Research Article
Abstract

Survival analysis of 144 histologically confirmed cases of colon carcinoma diagnosed in a 12 year period (1971-82) at the Tampere University Hospital was performed to test the hypothesis that p53 overexpression is associated with a poor clinical outcome. Immunohistochemical staining of paraffin-embedded sections using a polyclonal antibody CM-1 against p53 protein was performed to identify aberrant expression of the p53 tumour-suppressor gene. Sixty-nine per cent of the tumours (100/144) showed overexpression of the p53 protein. The prevalence of p53 overexpression was independent of age and sex of the patient and subsite of the tumour, but was slightly, although not statistically significantly, higher in advanced than in localised tumours. Overexpression was associated with a higher S-phase fraction. Some indication of a larger proportion of aneuploid tumours among those with overexpression was also observed, although this finding did not reach statistical significance. Significantly reduced patient survival for tumours with p53 overexpression was found. Patients with p53-overexpressing tumours had a corrected 5 year survival rate of 37% compared with 58% among patients whose tumours had normal expression of p53. The corresponding 10 year rates were 34% and 54%. In the multivariate analysis using a Cox model, the survival difference was independent of age and sex of the patient, as well as of subsite and stage of the tumour. Furthermore, the effect of p53 overexpression remained after controlling for flow cytometric parameters in an analysis of a subset of tumours. Thus, p53 overexpression appears to be a useful prognostic indicator in colon carcinoma. Images Figure 1

Published
1994

38. 831 DIFFERENCES IN GENE EXPRESSION INDUCED BY CHEMICAL CASTRATION AND ANTI-ANDROGENS IN PROSTATE CANCER

Author

Alfonso Urbanucci, Jorma Isola, Kati K. Waltering, Timo Erkkilä, Teuvo L.J. Tammela, V. Tuominen, Saara Lehmusvaara, T. Visakorpi, Paula Kujala, and Harri Lähdesmäki

Subjects
PCA3, Oncology, medicine.medical_specialty, Prostate cancer, business.industry, Urology, Internal medicine, Gene expression, medicine, Anti-Androgen, medicine.disease, business, Chemical castration
Published
2011
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39. Assignment<footref rid='foot01'>1</footref> of the protein kinase homolog of YAK1 (HIPK3) to human chromosome band 11p13 by in situ hybridization

Author

N.N. Nupponen and T. Visakorpi

Subjects
chemistry.chemical_classification, Protein-Serine-Threonine Kinases, Physical Chromosome Mapping, Saccharomyces cerevisiae Proteins, In situ hybridization, Biology, Molecular biology, Enzyme, Chromosome Band, chemistry, Gene mapping, Biochemistry, Genetics, Protein kinase A, Molecular Biology, Genetics (clinical)
Published
1999
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40. Subject Index Vol. 87, 1999

Author

Y. Baba, A. Maho, M.A.M. Moreira, P. van Vooren, T. van Reeth, M.A. Crackower, D. Schadendorf, Q. Liu, M. Mori, A. Niveleau, H. Sun, S.H. Ryu, P.C.L. Beverley, C. Larsson, S. van Soest, M. Tarsounas, Y. Matsuda, M. Schmid, Y.K. Kwon, O. Ritvos, S. Garagna, L.K. Goff, S. Armstrong, S.-X. Wang, X. Estivill, M.Z. Li, F. Haberman, S.G. Gregory, W.O. Lui, C. Szpirer, G.M. Brasic, J. Justesen, A. Bensimon, F.A. Norris, C. Schiff, A. Palotie, G. Vassart, C.R. Bonvicino, R. Kreutz, J. Szpirer, F. Farnebo, S. Gough, M.N. Gould, F. Bussolino, N. Kansaku, Shinichi Fukushige, F. Grummt, H. Kim, J.P. Johnson, E.M. Hammond, L. Tonachini, J.H. Xia, J.M. Vance, R. Bartrons, S.H. Park, K. Lehnert, R. Taneja, J. Walker, P. Parham, Q. Pan, Y.K. Jung, O. Rosnet, Y. Pan, D.S. Sinasac, A. Amoroso, N. Nupponen, O. Delattre, B. Malfoy, J. Smith, K. Hildén, P.Y. Zeng, T. Kurosaki, Y. Yang, M. Nadal, M. Koide, J. Masabanda, K. Hoehn, R. Sallinen, J. Skaug, I. Nanda, A. Sazanov, C.M. Morris, S. Tsukada, L.L. Hansen, N.C. Popescu, A. Forus, H. Nakamura, A. Vilain, M. Wessman, H.H.Q. Heng, N. Marziliano, F. Tian, W. Kuang, Z. Guillier-Gencik, Johji Inazawa, Takashi Yamato, R.E. Pearlman, T. Namikawa, P. Lichter, J.-H. Piao, T. Satoh, N. Horelli-Kuitunen, Y.H. Chen, E. Leung, K.-S. Chen, J. Springer, B.C. Schutte, E. Tchilian, P. O’Brien, P.S. White, M. Paul, M. Bagga, Q. Tu, J.-A. Herbrick, S. Zhao, L.A. Shepel, K. Schmeiser, J. Wienberg, Y. Zhao, R. Morello, F. Ventura, L. Yu, T. Kishimoto, A. Bernheim, S.S. Thorgeirsson, S. Kytölä, C. Cruz, M. Parmentier, S.A. Krawetz, J. Bernardino, Akira Horii, M. Yamada, E. Engvall, J.L. Rosa, Kazuhiko Orikasa, S. Crovella, C. Jiang, B. Dutrillaux, H. Zürcher, S. Hashimoto, T.C. Matise, S.W. Scherer, T. Visakorpi, M. Ferguson-Smith, Z.C. Chen, C.J. Ye, Seiichi Orikasa, Z.C. Yin, C.G. Jakobsen, H.N. Seuánez, P. Castagnola, M. Timón, D. Liu, J. Aaltonen, R. Cancedda, M.A. Kern, F.C. Canavez, R.E. Joseph, K. Shimada, G.W. Krissansen, P.B. Moens, U.S.R. Bergerheim, M. Monticone, T. Suzuki, E. Audero, T. Yamadori, J. Ni, C. Bourgeois, Ph. Coullin, M. Nessling, M-G. Mattéi, M. Ko, L.-C. Tsui, R. Langley, J. Isola, V. Pecile, K. Sano, J. Bondestam, P. Stanier, B.-Z. Yuan, D.B. Zimonjic, M. Matsushita, S.Y. Zhao, N. Wang, H. Zhang, R. Leach, M. Ricoul, M.D.A. Kuske, S.P. Stoesz, C.L. Keck-Waggoner, Z.G. Xue, N. Spieker, J.R. Lee, R.J.A. Grand, H. Coffigny, D.K. Griffin, P.G. Suh, K. Agata, Takushi Monden, J.Y. Chu, and D.W. Burt

Subjects
Genetics, Index (economics), Subject (documents), Biology, Social science, Molecular Biology, Genetics (clinical)
Published
1999
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41. EZH2 GENE IS AMPLIFIED IN LATE-STAGE PROSTATE CANCERS

Author

Teuvo L.J. Tammela, Robert L. Vessella, Paula M. Martikainen, Outi R. Saramäki, and T. Visakorpi

Subjects
PCA3, Oncology, medicine.medical_specialty, medicine.anatomical_structure, Prostate, business.industry, Urology, Internal medicine, EZH2, medicine, Late stage, business, Gene
Published
2006
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43. Revised guidelines for authors of gene mapping reports

Author

L.A. Shepel, F. Ventura, G.M. Brasic, J.L. Rosa, R. Taneja, F. Farnebo, E.M. Hammond, T. Kurosaki, L. Tonachini, Q. Tu, F.A. Norris, J.R. Lee, S. Zhao, O. Delattre, J. Skaug, K. Hoehn, N. Wang, S.A. Krawetz, Y.H. Chen, J. Justesen, E. Leung, Akira Horii, R. Sallinen, R.J.A. Grand, C.G. Jakobsen, J.-H. Piao, J. Smith, S. Armstrong, S.-X. Wang, M. Wessman, P. Castagnola, J. Springer, H. Coffigny, S.H. Park, M. Bagga, Y. Zhao, J.-A. Herbrick, T. Suzuki, L. Yu, B. Malfoy, L.K. Goff, Z.C. Chen, B.-Z. Yuan, T. Kishimoto, K. Hildén, A. Bernheim, O. Rosnet, J. Aaltonen, S.Y. Zhao, C. Cruz, H. Zhang, R. Morello, Kazuhiko Orikasa, Z. Guillier-Gencik, C. Bourgeois, H. Nakamura, Johji Inazawa, J. Isola, K.-S. Chen, J. Bernardino, P.G. Suh, F. Haberman, K. Schmeiser, U.S.R. Bergerheim, Z.C. Yin, S. Crovella, H. Zürcher, Takushi Monden, S. Kytölä, M.A. Crackower, M. Mori, C. Larsson, S. van Soest, Y. Matsuda, M. Schmid, Y.K. Jung, C.R. Bonvicino, J.Y. Chu, N. Nupponen, Y. Baba, A. Niveleau, H.H.Q. Heng, H. Sun, J. Masabanda, R. Kreutz, M.N. Gould, I. Nanda, A. Sazanov, S.H. Ryu, Q. Liu, D.W. Burt, D.K. Griffin, R. Langley, B.C. Schutte, V. Pecile, D.S. Sinasac, D.B. Zimonjic, M. Matsushita, R. Leach, M. Ricoul, M.D.A. Kuske, A. Vilain, M.Z. Li, F. Tian, Seiichi Orikasa, S. Hashimoto, O. Ritvos, A. Maho, J. Szpirer, F. Grummt, R.E. Joseph, M.A.M. Moreira, W.O. Lui, K. Shimada, G.W. Krissansen, R. Bartrons, J. Walker, K. Lehnert, A. Amoroso, P. Parham, P. van Vooren, T. van Reeth, D. Schadendorf, C. Jiang, B. Dutrillaux, N.C. Popescu, P.C.L. Beverley, A. Bensimon, J. Wienberg, S.S. Thorgeirsson, M.A. Kern, J.H. Xia, M-G. Mattéi, M. Tarsounas, S. Garagna, H.N. Seuánez, S.G. Gregory, A. Forus, N. Marziliano, S. Gough, H. Kim, F.C. Canavez, Q. Pan, C. Schiff, C.L. Keck-Waggoner, M. Parmentier, Z.G. Xue, Shinichi Fukushige, Y. Yang, E. Engvall, M. Ko, L.-C. Tsui, T.C. Matise, J.P. Johnson, M. Nadal, C.M. Morris, L.L. Hansen, T. Satoh, T. Namikawa, P. Lichter, P.Y. Zeng, P.S. White, S. Tsukada, W. Kuang, M. Paul, E. Tchilian, Takashi Yamato, P. O’Brien, D. Liu, S.W. Scherer, M. Yamada, M. Timón, R. Cancedda, C. Szpirer, T. Visakorpi, J. Ni, M. Ferguson-Smith, M. Monticone, Y. Pan, E. Audero, F. Bussolino, P.B. Moens, N. Kansaku, Ph. Coullin, J. Bondestam, P. Stanier, N. Horelli-Kuitunen, C.J. Ye, M. Koide, T. Yamadori, M. Nessling, S.P. Stoesz, R.E. Pearlman, K. Sano, A. Palotie, N. Spieker, K. Agata, Y.K. Kwon, X. Estivill, G. Vassart, and J.M. Vance

Subjects
Gene mapping, Evolutionary biology, Genetics, Biology, Molecular Biology, Genetics (clinical)
Published
1999
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44. Genetic basis of human prostate cancer development and progression

Author

Teuvo L.J. Tammela, Pasi A. Koivisto, J. Isola, O.-P. Kallioniemi, Anne Kallioniemi, Minna Tanner, E. Hyytinen, C. Palmberg, and T. Visakorpi

Subjects
Oncology, Cancer Research, medicine.medical_specialty, Internal medicine, Genetics, medicine, Cancer development, Biology, Molecular Biology, Human prostate
Published
1995
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48. Cerebrospinal Fluid Lactoferrin in Bacterial and Viral Meningitis

Author

M. Klockars, P. Vilja, T. Visakorpi, M. Kulomaa, and Pentti Tuohimaa

Subjects
biology, business.industry, Lactoferrin, Lactoglobulins, General Medicine, medicine.disease, Meningitis, Viral, Cerebrospinal fluid, Pediatrics, Perinatology and Child Health, Immunology, biology.protein, Viral meningitis, Humans, Medicine, Meningitis, Viral disease, business
Published
1987
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49. The expression of SOCS is altered in rheumatoid arthritis.

Author

P. Isomäki, T. Alanärä, P. Isohanni, A. Lagerstedt, M. Korpela, T. Moilanen, T. Visakorpi, and O. Silvennoinen

Subjects
CYTOKINES, RHEUMATOID arthritis, PROTEINS, CELLULAR immunity
Abstract

Objectives. Cytokines play a key pathogenic role in rheumatoid arthritis (RA). Several cytokines signal through the JAK-STAT pathway, which is negatively regulated by the suppressors of cytokine signalling (SOCS) proteins. Since SOCS protein levels can profoundly modulate cellular responses to cytokines, we have investigated their expression in chronic RA. Methods. The levels of SOCS1–3 and CIS1 mRNA in peripheral blood (PB) and synovial fluid (SF) mononuclear cells (MCs), purified T cells and monocytes from RA patients and healthy volunteers were studied using quantitative reverse transcriptase polymerase chain reaction (RT-PCR). SOCS mRNA and protein expression in synovial tissues were examined by RT-PCR and immunohistochemistry. Results. The levels of SOCS1 and SOCS3 were significantly increased in PBMCs from RA patients when compared with healthy volunteers. These differences were mainly due to up-regulation of SOCS1 in PB T cells and of SOCS3 in PB monocytes. In addition, SOCS2 was up-regulated in PB T cells. Interestingly, SF T cells expressed lower and SF macrophages higher levels of SOCS molecules than their PB counterparts. Similarly, while a significant portion of macrophages in synovial tissues expressed SOCS1 and SOCS3 proteins, the majority of T cells remained SOCS negative. Finally, SOCS1 was up-regulated in the synovial membranes from patients with RA when compared with osteoarthritis. Conclusions. SOCS expression levels are profoundly altered in RA, and the profile of SOCS expression is dependent on both the cell type as well as the cellular compartment. [ABSTRACT FROM AUTHOR]

Published
2007
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50. Single cell and spatial transcriptomics highlight the interaction of club-like cells with immunosuppressive myeloid cells in prostate cancer.

Author

Kiviaho A, Eerola SK, Kallio HML, Andersen MK, Hoikka M, Tiihonen AM, Salonen I, Spotbeen X, Giesen A, Parker CTA, Taavitsainen S, Hantula O, Marttinen M, Hermelo I, Ismail M, Midtbust E, Wess M, Devlies W, Sharma A, Krossa S, Häkkinen T, Afyounian E, Vandereyken K, Kint S, Kesseli J, Tolonen T, Tammela TLJ, Viset T, Størkersen Ø, Giskeødegård GF, Rye MB, Murtola T, Erickson A, Latonen L, Bova GS, Mills IG, Joniau S, Swinnen JV, Voet T, Mirtti T, Attard G, Claessens F, Visakorpi T, Rautajoki KJ, Tessem MB, Urbanucci A, and Nykter M

Subjects
Humans, Male, Myeloid-Derived Suppressor Cells metabolism, Myeloid-Derived Suppressor Cells immunology, Prostate metabolism, Prostate pathology, Gene Expression Profiling, Gene Expression Regulation, Neoplastic, Epithelial Cells metabolism, Androgens metabolism, Androgens pharmacology, Tumor Microenvironment immunology, Tumor Microenvironment genetics, Single-Cell Analysis, Prostatic Neoplasms genetics, Prostatic Neoplasms metabolism, Prostatic Neoplasms pathology, Prostatic Neoplasms immunology, Transcriptome, Myeloid Cells metabolism
Abstract

Prostate cancer treatment resistance is a significant challenge facing the field. Genomic and transcriptomic profiling have partially elucidated the mechanisms through which cancer cells escape treatment, but their relation toward the tumor microenvironment (TME) remains elusive. Here we present a comprehensive transcriptomic landscape of the prostate TME at multiple points in the standard treatment timeline employing single-cell RNA-sequencing and spatial transcriptomics data from 120 patients. We identify club-like cells as a key epithelial cell subtype that acts as an interface between the prostate and the immune system. Tissue areas enriched with club-like cells have depleted androgen signaling and upregulated expression of luminal progenitor cell markers. Club-like cells display a senescence-associated secretory phenotype and their presence is linked to increased polymorphonuclear myeloid-derived suppressor cell (PMN-MDSC) activity. Our results indicate that club-like cells are associated with myeloid inflammation previously linked to androgen deprivation therapy resistance, providing a rationale for their therapeutic targeting., Competing Interests: Competing interests C.T.A.P.’s employer may gain commercially from licensing data to Artera AI. G.A. received personal fees, grants, and travel support from Janssen and Astellas Pharma; personal fees or travel support from Pfizer, Novartis/AAA, Bayer Healthcare Pharmaceuticals, AstraZeneca, and Sanofi-Aventis; in addition, G.A.’s former employer, The Institute of Cancer Research, receives royalty income from abiraterone and G.A. receives a share of this income through the Institute’s Rewards to Discoverers Scheme. G.A. has received research funding (institutional) from Janssen, Astellas Pharma, and Novartis. All other authors declare no potential conflicts of interest., (© 2024. The Author(s).)

Published
2024
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