Publications
21 found
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Brennen, W. Nathaniel, , Karkampouna, Sofia, Anselmino, Nicolas, Bock, Nathalie, Choo, Nicholas, Clark, Ashlee K., Coleman, Ilsa M., Dolgos, Robin, Ferguson, Alison M., Goode, David L., Krutihof‐de Julio, Marianna, Navone, Nora M., Nelson, Peter S., O’Neill, Edward, Porter, Laura H., Ranasinghe, Weranja, Sunada, Takuro, Williams, Elizabeth D., et al. (2024). Defining the challenges and opportunities for using patient‐derived models in prostate cancer research [Journal-article]. The Prostate. https://doi.org/10.1002/pros.24682
Brennen, W. Nathaniel, , Karkampouna, Sofia, Anselmino, Nicolas, Bock, Nathalie, Choo, Nicholas, Clark, Ashlee K., Coleman, Ilsa M., Dolgos, Robin, Ferguson, Alison M., Goode, David L., Krutihof‐de Julio, Marianna, Navone, Nora M., Nelson, Peter S., O’Neill, Edward, Porter, Laura H., Ranasinghe, Weranja, Sunada, Takuro, Williams, Elizabeth D., et al. (2024). Defining the challenges and opportunities for using patient‐derived models in prostate cancer research [Journal-article]. The Prostate. https://doi.org/10.1002/pros.24682
Bratic Hench, Ivana, Roma, Luca, Conticelli, Floriana, Bubendorf, Lenard, Calgua, Byron, , Piscuoglio, Salvatore, Rubin, Mark A., Chirindel, Alin, Nicolas, Guillaume P., Vlajnic, Tatjana, Zellweger, Tobias, Templeton, Arnoud J., Stenner, Frank, Ruiz, Christian, Rentsch, Cyrill, & Bubendorf, Lukas. (2024). Cell-Free DNA Genomic Profiling and Its Clinical Implementation in Advanced Prostate Cancer [Journal-article]. Cancers, 16(1), 45. https://doi.org/10.3390/cancers16010045
Bratic Hench, Ivana, Roma, Luca, Conticelli, Floriana, Bubendorf, Lenard, Calgua, Byron, , Piscuoglio, Salvatore, Rubin, Mark A., Chirindel, Alin, Nicolas, Guillaume P., Vlajnic, Tatjana, Zellweger, Tobias, Templeton, Arnoud J., Stenner, Frank, Ruiz, Christian, Rentsch, Cyrill, & Bubendorf, Lukas. (2024). Cell-Free DNA Genomic Profiling and Its Clinical Implementation in Advanced Prostate Cancer [Journal-article]. Cancers, 16(1), 45. https://doi.org/10.3390/cancers16010045
Vlajnic, Tatjana, Müller, David C., Ruiz, Christian, Schönegg, René, Seifert, Hans-Helge, Thalmann, George N., Zellweger, Tobias, , Rentsch, Cyrill A., & Bubendorf, Lukas. (2024). Exploring the intratumoral heterogeneity of DNA ploidy in prostate cancer. Cancer Reports, 7. https://doi.org/10.1002/cnr2.1953
Vlajnic, Tatjana, Müller, David C., Ruiz, Christian, Schönegg, René, Seifert, Hans-Helge, Thalmann, George N., Zellweger, Tobias, , Rentsch, Cyrill A., & Bubendorf, Lukas. (2024). Exploring the intratumoral heterogeneity of DNA ploidy in prostate cancer. Cancer Reports, 7. https://doi.org/10.1002/cnr2.1953
Garioni, Michele, Tschan, Viviane J., Blukacz, Lauriane, Nuciforo, Sandro, Parmentier, Romuald, Roma, Luca, Coto-Llerena, Mairene, Pueschel, Heike, Piscuoglio, Salvatore, Vlajnic, Tatjana, Stenner, Frank, Seifert, Hans-Helge, Rentsch, Cyrill A., Bubendorf, Lukas, & . (2023). Patient-derived organoids identify tailored therapeutic options and determinants of plasticity in sarcomatoid urothelial bladder cancer. Npj Precision Oncology, 7(1). https://doi.org/10.1038/s41698-023-00466-w
Garioni, Michele, Tschan, Viviane J., Blukacz, Lauriane, Nuciforo, Sandro, Parmentier, Romuald, Roma, Luca, Coto-Llerena, Mairene, Pueschel, Heike, Piscuoglio, Salvatore, Vlajnic, Tatjana, Stenner, Frank, Seifert, Hans-Helge, Rentsch, Cyrill A., Bubendorf, Lukas, & . (2023). Patient-derived organoids identify tailored therapeutic options and determinants of plasticity in sarcomatoid urothelial bladder cancer. Npj Precision Oncology, 7(1). https://doi.org/10.1038/s41698-023-00466-w
Lawrence, Mitchell G., Taylor, Renea A., Cuffe, Georgia B., Ang, Lisa S., Clark, Ashlee K., Goode, David L., Porter, Laura H., , Navone, Nora M., Schalken, Jack A., Wang, Yuzhuo, van Weerden, Wytske M., Corey, Eva, Isaacs, John T., Nelson, Peter S., & Risbridger, Gail P. (2023). The future of patient-derived xenografts in prostate cancer research. Nature Reviews Urology, 20(6), 371–384. https://doi.org/10.1038/s41585-022-00706-x
Lawrence, Mitchell G., Taylor, Renea A., Cuffe, Georgia B., Ang, Lisa S., Clark, Ashlee K., Goode, David L., Porter, Laura H., , Navone, Nora M., Schalken, Jack A., Wang, Yuzhuo, van Weerden, Wytske M., Corey, Eva, Isaacs, John T., Nelson, Peter S., & Risbridger, Gail P. (2023). The future of patient-derived xenografts in prostate cancer research. Nature Reviews Urology, 20(6), 371–384. https://doi.org/10.1038/s41585-022-00706-x
Marhold M., Kramer G., Krainer M., & (2022). The prostate cancer landscape in Europe: Current challenges, future opportunities. Cancer Letters, 526, 304–310. https://doi.org/10.1016/j.canlet.2021.11.033
Marhold M., Kramer G., Krainer M., & (2022). The prostate cancer landscape in Europe: Current challenges, future opportunities. Cancer Letters, 526, 304–310. https://doi.org/10.1016/j.canlet.2021.11.033
Servant R, Garioni M, Vlajnic T, Blind M, Pueschel H, Müller DC, Zellweger T, Templeton AJ, Garofoli A, Maletti S, Piscuoglio S, Rubin MA, Seifert H, Rentsch CA, Bubendorf L, & . (2021). Prostate cancer patient-derived organoids: detailed outcome from a prospective cohort of 81 clinical specimens. Journal of Pathology, 254(5), 543–555. https://doi.org/10.1002/path.5698
Servant R, Garioni M, Vlajnic T, Blind M, Pueschel H, Müller DC, Zellweger T, Templeton AJ, Garofoli A, Maletti S, Piscuoglio S, Rubin MA, Seifert H, Rentsch CA, Bubendorf L, & . (2021). Prostate cancer patient-derived organoids: detailed outcome from a prospective cohort of 81 clinical specimens. Journal of Pathology, 254(5), 543–555. https://doi.org/10.1002/path.5698
Federer-Gsponer JR, Müller DC, Zellweger T, Eggimann M, Marston K, Ruiz C, Seifert HH, Rentsch CA, Bubendorf L, & . (2020). Patterns of stemness-associated markers in the development of castration-resistant prostate cancer. Prostate, 80(13), 1108–1117. https://doi.org/10.1002/pros.24039
Federer-Gsponer JR, Müller DC, Zellweger T, Eggimann M, Marston K, Ruiz C, Seifert HH, Rentsch CA, Bubendorf L, & . (2020). Patterns of stemness-associated markers in the development of castration-resistant prostate cancer. Prostate, 80(13), 1108–1117. https://doi.org/10.1002/pros.24039
Dugas SG, Müller DC, , Federer-Gsponer J, Seifert HH, Ruiz C, Savic Prince S, Vlajnic T, Zellweger T, Mertz KD, Bacon JVW, Wyatt AW, Rentsch CA, & Bubendorf L. (2019). Immunocytochemistry for ARID1A as a potential biomarker in urine cytology of bladder cancer. Cancer Cytopathology, 127(9), 578–585. https://doi.org/10.1002/cncy.22167
Dugas SG, Müller DC, , Federer-Gsponer J, Seifert HH, Ruiz C, Savic Prince S, Vlajnic T, Zellweger T, Mertz KD, Bacon JVW, Wyatt AW, Rentsch CA, & Bubendorf L. (2019). Immunocytochemistry for ARID1A as a potential biomarker in urine cytology of bladder cancer. Cancer Cytopathology, 127(9), 578–585. https://doi.org/10.1002/cncy.22167
Le Magnen, C., Virk, R. K., Dutta, A., Kim, J. Y., Panja, S., Lopez-Bujanda, Z. A., Califano, A., Drake, C. G., Mitrofanova, A., & Abate-Shen, C. (2018). Cooperation of loss of NKX3.1 and inflammation in prostate cancer initiation. DMM Disease Models and Mechanisms, 11(11). https://doi.org/10.1242/dmm.035139
Le Magnen, C., Virk, R. K., Dutta, A., Kim, J. Y., Panja, S., Lopez-Bujanda, Z. A., Califano, A., Drake, C. G., Mitrofanova, A., & Abate-Shen, C. (2018). Cooperation of loss of NKX3.1 and inflammation in prostate cancer initiation. DMM Disease Models and Mechanisms, 11(11). https://doi.org/10.1242/dmm.035139
Le Magnen, C., Shen, M. M., & Abate-Shen, C. (2018). Lineage Plasticity in Cancer Progression and Treatment. Annual Review of Cancer Biology, 2, 271–289. https://doi.org/10.1146/annurev-cancerbio-030617-050224
Le Magnen, C., Shen, M. M., & Abate-Shen, C. (2018). Lineage Plasticity in Cancer Progression and Treatment. Annual Review of Cancer Biology, 2, 271–289. https://doi.org/10.1146/annurev-cancerbio-030617-050224
Zou, M., Toivanen, R., Mitrofanova, A., Floch, N., Hayati, S., Sun, Y., Le Magnen, C., Chester, D., Mostaghel, E. A., Califano, A., Rubin, M. A., Shen, M. M., & Abate-Shen, C. (2017). Transdifferentiation as a mechanism of treatment resistance in a mouse model of castration-resistant prostate cancer. Cancer Discovery, 7(7), 736–749. https://doi.org/10.1158/2159-8290.CD-16-1174
Zou, M., Toivanen, R., Mitrofanova, A., Floch, N., Hayati, S., Sun, Y., Le Magnen, C., Chester, D., Mostaghel, E. A., Califano, A., Rubin, M. A., Shen, M. M., & Abate-Shen, C. (2017). Transdifferentiation as a mechanism of treatment resistance in a mouse model of castration-resistant prostate cancer. Cancer Discovery, 7(7), 736–749. https://doi.org/10.1158/2159-8290.CD-16-1174
Dutta, A., Le Magnen, C., Mitrofanova, A., Ouyang, X., Califano, A., & Abate-Shen, C. (2016). Identification of an NKX3.1-G9a-UTY transcriptional regulatory network that controls prostate differentiation. Science, 352(6293), 1576–1580. https://doi.org/10.1126/science.aad9512
Dutta, A., Le Magnen, C., Mitrofanova, A., Ouyang, X., Califano, A., & Abate-Shen, C. (2016). Identification of an NKX3.1-G9a-UTY transcriptional regulatory network that controls prostate differentiation. Science, 352(6293), 1576–1580. https://doi.org/10.1126/science.aad9512
Le Magnen, C., Dutta, A., & Abate-Shen, C. (2016). Optimizing mouse models for precision cancer prevention. Nature Reviews Cancer, 16(3), 187–196. https://doi.org/10.1038/nrc.2016.1
Le Magnen, C., Dutta, A., & Abate-Shen, C. (2016). Optimizing mouse models for precision cancer prevention. Nature Reviews Cancer, 16(3), 187–196. https://doi.org/10.1038/nrc.2016.1
Bourgine, P., , Pigeot, S., Geurts, J., Scherberich, A., & Martin, I. (2014). Combination of immortalization and inducible death strategies to generate a human mesenchymal stromal cell line with controlled survival. Stem Cell Research, 12(2), 584–598. https://doi.org/10.1016/j.scr.2013.12.006
Bourgine, P., , Pigeot, S., Geurts, J., Scherberich, A., & Martin, I. (2014). Combination of immortalization and inducible death strategies to generate a human mesenchymal stromal cell line with controlled survival. Stem Cell Research, 12(2), 584–598. https://doi.org/10.1016/j.scr.2013.12.006
Irshad, S., Bansal, M., Castillo-Martin, M., Zheng, T., Aytes, A., Wenske, S., , Guarnieri, P., Sumazin, P., Benson, M.C., Shen, M.M., Califano, A., & Abate-Shen, C. (2013). A molecular signature predictive of indolent prostate cancer (Science Translational Medicine (2013) 5, (203er9)). Science Translational Medicine, 5(203). https://doi.org/10.1126/scitranslmed.3007585
Irshad, S., Bansal, M., Castillo-Martin, M., Zheng, T., Aytes, A., Wenske, S., , Guarnieri, P., Sumazin, P., Benson, M.C., Shen, M.M., Califano, A., & Abate-Shen, C. (2013). A molecular signature predictive of indolent prostate cancer (Science Translational Medicine (2013) 5, (203er9)). Science Translational Medicine, 5(203). https://doi.org/10.1126/scitranslmed.3007585
Irshad, S., Bansal, M., Castillo-Martin, M., Zheng, T., Aytes, A., Wenske, S., Le Magnen, C., Guarnieri, P., Sumazin, P., Benson, M. C., Shen, M. M., Califano, A., & Abate-Shen, C. (2013). A molecular signature predictive of indolent prostate cancer. Science Translational Medicine, 5(202). https://doi.org/10.1126/scitranslmed.3006408
Irshad, S., Bansal, M., Castillo-Martin, M., Zheng, T., Aytes, A., Wenske, S., Le Magnen, C., Guarnieri, P., Sumazin, P., Benson, M. C., Shen, M. M., Califano, A., & Abate-Shen, C. (2013). A molecular signature predictive of indolent prostate cancer. Science Translational Medicine, 5(202). https://doi.org/10.1126/scitranslmed.3006408
, Bubendorf, Lukas, Rentsch, Cyrill A, Mengus, Chantal, Gsponer, Joel, Zellweger, Tobias, Rieken, Malte, Thalmann, George N, Cecchini, Marco G, Germann, Markus, Bachmann, Alexander, Wyler, Stephen, Heberer, Michael, & Spagnoli, Giulio C. (2013). Characterization and clinical relevance of ALDHbright populations in prostate cancer. Clinical Cancer Research, 19(19), 5361–5371. https://doi.org/10.1158/1078-0432.ccr-12-2857
, Bubendorf, Lukas, Rentsch, Cyrill A, Mengus, Chantal, Gsponer, Joel, Zellweger, Tobias, Rieken, Malte, Thalmann, George N, Cecchini, Marco G, Germann, Markus, Bachmann, Alexander, Wyler, Stephen, Heberer, Michael, & Spagnoli, Giulio C. (2013). Characterization and clinical relevance of ALDHbright populations in prostate cancer. Clinical Cancer Research, 19(19), 5361–5371. https://doi.org/10.1158/1078-0432.ccr-12-2857
, Bubendorf, Lukas, Ruiz, Christian, Zlobec, Inti, Bachmann, Alexander, Heberer, Michael, Spagnoli, Giulio C, Wyler, Stephen, & Mengus, Chantal. (2013). Klf4 transcription factor is expressed in the cytoplasm of prostate cancer cells. European Journal of Cancer, 49(4), 955–963. https://doi.org/10.1016/j.ejca.2012.09.023
, Bubendorf, Lukas, Ruiz, Christian, Zlobec, Inti, Bachmann, Alexander, Heberer, Michael, Spagnoli, Giulio C, Wyler, Stephen, & Mengus, Chantal. (2013). Klf4 transcription factor is expressed in the cytoplasm of prostate cancer cells. European Journal of Cancer, 49(4), 955–963. https://doi.org/10.1016/j.ejca.2012.09.023
Mengus, Chantal, , Trella, Emanuele, Yousef, Kawa, Bubendorf, Lukas, Provenzano, Maurizio, Bachmann, Alexander, Heberer, Michael, Spagnoli, Giulio C, & Wyler, Stephen. (2011). Elevated levels of circulating IL-7 and IL-15 in patients with early stage prostate cancer. Journal of Translational Medicine, 9, 162. https://doi.org/10.1186/1479-5876-9-162
Mengus, Chantal, , Trella, Emanuele, Yousef, Kawa, Bubendorf, Lukas, Provenzano, Maurizio, Bachmann, Alexander, Heberer, Michael, Spagnoli, Giulio C, & Wyler, Stephen. (2011). Elevated levels of circulating IL-7 and IL-15 in patients with early stage prostate cancer. Journal of Translational Medicine, 9, 162. https://doi.org/10.1186/1479-5876-9-162
Schultz-Thater, Elke, Piscuoglio, Salvatore, Iezzi, Giandomenica, , Zajac, Paul, Carafa, Vincenza, Terracciano, Luigi, Tornillo, Luigi, & Spagnoli, Giulio C. (2011). MAGE-A10 is a nuclear protein frequently expressed in high percentages of tumor cells in lung, skin and urothelial malignancies. International Journal of Cancer, 129(5), 1137–1148. https://doi.org/10.1002/ijc.25777
Schultz-Thater, Elke, Piscuoglio, Salvatore, Iezzi, Giandomenica, , Zajac, Paul, Carafa, Vincenza, Terracciano, Luigi, Tornillo, Luigi, & Spagnoli, Giulio C. (2011). MAGE-A10 is a nuclear protein frequently expressed in high percentages of tumor cells in lung, skin and urothelial malignancies. International Journal of Cancer, 129(5), 1137–1148. https://doi.org/10.1002/ijc.25777