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8. Data from Comparison of Three Transcytotic Pathways for Distribution to Brain Metastases of Breast Cancer

Author

Khan, Imran, primary, Gril, Brunilde, primary, Paranjape, Anurag N., primary, Robinson, Christina M., primary, Difilippantonio, Simone, primary, Biernat, Wojciech, primary, Bieńkowski, Michał, primary, Pęksa, Rafał, primary, Duchnowska, Renata, primary, Jassem, Jacek, primary, Brastianos, Priscilla K., primary, Metellus, Philippe, primary, Bialecki, Emilie, primary, Woodroofe, Carolyn C., primary, Wu, Haitao, primary, Swenson, Rolf E., primary, and Steeg, Patricia S., primary

Published
2023
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9. Supplementary Figure S1-S10 from Comparison of Three Transcytotic Pathways for Distribution to Brain Metastases of Breast Cancer

Author

Khan, Imran, primary, Gril, Brunilde, primary, Paranjape, Anurag N., primary, Robinson, Christina M., primary, Difilippantonio, Simone, primary, Biernat, Wojciech, primary, Bieńkowski, Michał, primary, Pęksa, Rafał, primary, Duchnowska, Renata, primary, Jassem, Jacek, primary, Brastianos, Priscilla K., primary, Metellus, Philippe, primary, Bialecki, Emilie, primary, Woodroofe, Carolyn C., primary, Wu, Haitao, primary, Swenson, Rolf E., primary, and Steeg, Patricia S., primary

Published
2023
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10. Supplementary Table 1 from Comparison of Three Transcytotic Pathways for Distribution to Brain Metastases of Breast Cancer

Author

Khan, Imran, primary, Gril, Brunilde, primary, Paranjape, Anurag N., primary, Robinson, Christina M., primary, Difilippantonio, Simone, primary, Biernat, Wojciech, primary, Bieńkowski, Michał, primary, Pęksa, Rafał, primary, Duchnowska, Renata, primary, Jassem, Jacek, primary, Brastianos, Priscilla K., primary, Metellus, Philippe, primary, Bialecki, Emilie, primary, Woodroofe, Carolyn C., primary, Wu, Haitao, primary, Swenson, Rolf E., primary, and Steeg, Patricia S., primary

Published
2023
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11. Supplementary Material and Methods from Comparison of Three Transcytotic Pathways for Distribution to Brain Metastases of Breast Cancer

Author

Khan, Imran, primary, Gril, Brunilde, primary, Paranjape, Anurag N., primary, Robinson, Christina M., primary, Difilippantonio, Simone, primary, Biernat, Wojciech, primary, Bieńkowski, Michał, primary, Pęksa, Rafał, primary, Duchnowska, Renata, primary, Jassem, Jacek, primary, Brastianos, Priscilla K., primary, Metellus, Philippe, primary, Bialecki, Emilie, primary, Woodroofe, Carolyn C., primary, Wu, Haitao, primary, Swenson, Rolf E., primary, and Steeg, Patricia S., primary

Published
2023
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26. Comparison of Three Transcytotic Pathways for Distribution to Brain Metastases of Breast Cancer

Author

Khan, Imran, primary, Gril, Brunilde, additional, Paranjape, Anurag N., additional, Robinson, Christina M., additional, Difilippantonio, Simone, additional, Biernat, Wojciech, additional, Bieńkowski, Michał, additional, Pęksa, Rafal, additional, Duchnowska, Renata, additional, Jassem, Jacek, additional, Brastianos, Priscilla K., additional, Metellus, Philippe, additional, Bialecki, Emilie, additional, Woodroofe, Carolyn C., additional, Wu, Haitao, additional, Swenson, Rolf E., additional, and Steeg, Patricia S., additional

Published
2023
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33. Reactive astrocytic S1P3 signaling modulates the blood–tumor barrier in brain metastases

Author

Gril, Brunilde, primary, Paranjape, Anurag N., additional, Woditschka, Stephan, additional, Hua, Emily, additional, Dolan, Emma L., additional, Hanson, Jeffrey, additional, Wu, Xiaolin, additional, Kloc, Wojciech, additional, Izycka-Swieszewska, Ewa, additional, Duchnowska, Renata, additional, Pęksa, Rafał, additional, Biernat, Wojciech, additional, Jassem, Jacek, additional, Nayyar, Naema, additional, Brastianos, Priscilla K., additional, Hall, O. Morgan, additional, Peer, Cody J., additional, Figg, William D., additional, Pauly, Gary T., additional, Robinson, Christina, additional, Difilippantonio, Simone, additional, Bialecki, Emilie, additional, Metellus, Philippe, additional, Schneider, Joel P., additional, and Steeg, Patricia S., additional

Published
2018
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34. SCDT-11. ASTROCYTIC S1P3 SIGNALING MODULATES BLOOD-TUMOR BARRIER PERMEABILITY IN BRAIN METASTASES

Author

Gril, Brunilde, primary, Paranjape, Anurag N, additional, Woditschka, Stephan, additional, Hanson, Jeffrey, additional, Wu, Xiaolin, additional, Duchnowska, Renata, additional, Brastianos, Priscilla K, additional, Peer, Cody, additional, Figg, William D, additional, Pauly, Gary T, additional, Schneider, Joel P, additional, and Steeg, Patricia S, additional

Published
2017
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37. TMIC-19. ASTROCYTIC S1P3 SIGNALING MODULATES BLOOD-TUMOR BARRIER PERMEABILITY IN BRAIN METASTASES

Author

Gril, Brunilde, primary, Paranjape, Anurag N, additional, Woditschka, Stephan, additional, Hanson, Jeffrey, additional, Wu, Xiaolin, additional, Duchnowska, Renata, additional, Brastianos, Priscilla K, additional, Peer, Cody, additional, Figg, William D, additional, Pauly, Gary T, additional, Schneider, Joel P, additional, and Steeg, Patricia, additional

Published
2017
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38. Tyrosine kinase inhibitors induce mesenchymal stem cell–mediated resistance in BCR-ABL+ acute lymphoblastic leukemia

Author

Mallampati, Saradhi, Leng, Xiaohong, Ma, Haiqing, Zeng, Jianfang, Li, June, Wang, Haiying, Lin, Kevin, Lu, Yue, Yang, Yang, Sun, Baohua, Gong, Yun, Lee, Ju-Seog, Konopleva, Marina, Andreeff, Michael, Arlinghaus, Ralph B., Cai, Zhen, Fang, Bingliang, Shen, Haifa, Han, Xin, Hirsch-Ginsberg, Cheryl F., Gao, Xiaolian, Paranjape, Anurag N., Mani, Sendurai A., Clise-Dwyer, Karen, and Sun, Xiaoping

Published
2015
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39. Abstract 4330: Astrocytic S1P3 regulates blood-brain/tumor barrier permeability

Author

Paranjape, Anurag N., primary, Gril, Brunilde, additional, Woditschka, Stephan, additional, Hua, Emily, additional, Hanson, Jeffrey C., additional, Wu, Xiaolin, additional, Duchnowska, Renata, additional, Brastianos, Priscilla K., additional, Liewehr, David L., additional, Steinberg, Seth M., additional, Peer, Cody, additional, Figg, William D., additional, Pauly, Gary T., additional, Robinson, Christina, additional, Schneider, Joel P., additional, and Steeg, Patricia S., additional

Published
2017
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40. N-BLR, a primate-specific non-coding transcript leads to colorectal cancer invasion and migration

Author

Rigoutsos, Isidore, primary, Lee, Sang Kil, additional, Nam, Su Youn, additional, Anfossi, Simone, additional, Pasculli, Barbara, additional, Pichler, Martin, additional, Jing, Yi, additional, Rodriguez-Aguayo, Cristian, additional, Telonis, Aristeidis G., additional, Rossi, Simona, additional, Ivan, Cristina, additional, Catela Ivkovic, Tina, additional, Fabris, Linda, additional, Clark, Peter M., additional, Ling, Hui, additional, Shimizu, Masayoshi, additional, Redis, Roxana S., additional, Shah, Maitri Y., additional, Zhang, Xinna, additional, Okugawa, Yoshinaga, additional, Jung, Eun Jung, additional, Tsirigos, Aristotelis, additional, Huang, Li, additional, Ferdin, Jana, additional, Gafà, Roberta, additional, Spizzo, Riccardo, additional, Nicoloso, Milena S., additional, Paranjape, Anurag N., additional, Shariati, Maryam, additional, Tiron, Aida, additional, Yeh, Jen Jen, additional, Teruel-Montoya, Raul, additional, Xiao, Lianchun, additional, Melo, Sonia A., additional, Menter, David, additional, Jiang, Zhi-Qin, additional, Flores, Elsa R., additional, Negrini, Massimo, additional, Goel, Ajay, additional, Bar-Eli, Menashe, additional, Mani, Sendurai A., additional, Liu, Chang Gong, additional, Lopez-Berestein, Gabriel, additional, Berindan-Neagoe, Ioana, additional, Esteller, Manel, additional, Kopetz, Scott, additional, Lanza, Giovanni, additional, and Calin, George A., additional

Published
2017
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41. Abstract 4065: Delineating the role of epithelial-mesenchymal transition in the generation and maintenance of prostate cancer stem cells

Author

Paranjape, Anurag N., primary, Soundararajan, Rama, additional, Werden, Steven J., additional, Joseph, Robiya, additional, Taube, Joseph H., additional, Bhangre, Neeraja, additional, Liu, Hui, additional, Rodriguez-Canales, Jaime, additional, Wistuba, Ignacio I., additional, Chang, Jeffrey T., additional, Tang, Dean G., additional, Mahajan, Nupam, additional, Mahajan, Kiran, additional, Miura, Naoyuki, additional, and Mani, Sendurai A., additional

Published
2015
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46. Tyrosine kinase inhibitors induce mesenchymal stem cell–mediated resistance in BCR-ABL+acute lymphoblastic leukemia

Author

Mallampati, Saradhi, Leng, Xiaohong, Ma, Haiqing, Zeng, Jianfang, Li, June, Wang, Haiying, Lin, Kevin, Lu, Yue, Yang, Yang, Sun, Baohua, Gong, Yun, Lee, Ju-Seog, Konopleva, Marina, Andreeff, Michael, Arlinghaus, Ralph B., Cai, Zhen, Fang, Bingliang, Shen, Haifa, Han, Xin, Hirsch-Ginsberg, Cheryl F., Gao, Xiaolian, Paranjape, Anurag N., Mani, Sendurai A., Clise-Dwyer, Karen, and Sun, Xiaoping

Abstract

Tyrosine kinase inhibitors (TKIs) are used as a frontline therapy for BCR-ABL+acute lymphoblastic leukemia (ALL). However, resistance to TKI therapy arises rapidly, and its underlying molecular mechanisms are poorly understood. In this study, we identified a novel cascade of events initiated by TKIs and traversing through mesenchymal stem cells (MSCs) to leukemic cells, leading to resistance. MSCs exposed to TKIs acquired a new functional status with the expression of genes encoding for chemo-attractants, adhesion molecules, and prosurvival growth factors, and this priming enabled leukemic cells to form clusters underneath the MSCs. This cluster formation was associated with the protection of ALL cells from therapy as leukemic cells switched from BCR-ABL signaling to IL-7R/Janus kinase signaling to survive in the MSC milieu. Our findings illustrate a novel perspective in the evolution of TKI resistance and provide insights for advancing the treatment of BCR-ABL+ALL.

Published
2015
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47. N-BLR, a primate-specific non-coding transcript leads to colorectal cancer invasion and migration

Author

Shah, Maitri Y., Lopez-Berestein, Gabriel, Liu, Chang Gong, Nam, Su Youn, Jing, Yi, Esteller, Manel, Ling, Hui, Yeh, Jen Jen, Gafà, Roberta, Ferdin, Jana, Rodriguez-Aguayo, Cristian, Pichler, Martin, Negrini, Massimo, Spizzo, Riccardo, Ivan, Cristina, Zhang, Xinna, Nicoloso, Milena S., Calin, George A., Telonis, Aristeidis G., Menter, David, Melo, Sonia A., Lanza, Giovanni, Tsirigos, Aristotelis, Kopetz, Scott, Rigoutsos, Isidore, Bar-Eli, Menashe, Clark, Peter M., Okugawa, Yoshinaga, Tiron, Aida, Catela Ivkovic, Tina, Jung, Eun Jung, Flores, Elsa R., Huang, Li, Mani, Sendurai A., Pasculli, Barbara, Paranjape, Anurag N., Anfossi, Simone, Lee, Sang Kil, Xiao, Lianchun, Shimizu, Masayoshi, Berindan-Neagoe, Ioana, Redis, Roxana S., Rossi, Simona, Goel, Ajay, Fabris, Linda, Shariati, Maryam, Jiang, Zhi-Qin, and Teruel-Montoya, Raul

Subjects
3. Good health
Abstract

Background Non-coding RNAs have been drawing increasing attention in recent years as functional data suggest that they play important roles in key cellular processes. N-BLR is a primate-specific long non-coding RNA that modulates the epithelial-to-mesenchymal transition, facilitates cell migration, and increases colorectal cancer invasion. Results We performed multivariate analyses of data from two independent cohorts of colorectal cancer patients and show that the abundance of N-BLR is associated with tumor stage, invasion potential, and overall patient survival. Through in vitro and in vivo experiments we found that N-BLR facilitates migration primarily via crosstalk with E-cadherin and ZEB1. We showed that this crosstalk is mediated by a pyknon, a short ~20 nucleotide-long DNA motif contained in the N-BLR transcript and is targeted by members of the miR-200 family. In light of these findings, we used a microarray to investigate the expression patterns of other pyknon-containing genomic loci. We found multiple such loci that are differentially transcribed between healthy and diseased tissues in colorectal cancer and chronic lymphocytic leukemia. Moreover, we identified several new loci whose expression correlates with the colorectal cancer patients’ overall survival. Conclusions The primate-specific N-BLR is a novel molecular contributor to the complex mechanisms that underlie metastasis in colorectal cancer and a potential novel biomarker for this disease. The presence of a functional pyknon within N-BLR and the related finding that many more pyknon-containing genomic loci in the human genome exhibit tissue-specific and disease-specific expression suggests the possibility of an alternative class of biomarkers and therapeutic targets that are primate-specific.

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