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3. The PET-Tracer 89Zr-Df-IAB22M2C Enables Monitoring of Intratumoral CD8 T-cell Infiltrates in Tumor-Bearing Humanized Mice after T-cell Bispecific Antibody Treatment

Author

Griessinger, Christoph M., primary, Olafsen, Tove, additional, Mascioni, Alessandro, additional, Jiang, Ziyue Karen, additional, Zamilpa, Charles, additional, Jia, Fang, additional, Torgov, Michael, additional, Romero, Jason M., additional, Marchioni, Filippo, additional, Satpayev, Daulet, additional, Lee, Chenyu, additional, Zhang, Green, additional, Nayak, Tapan K., additional, Pincha, Mudita, additional, Amann, Maria, additional, Mohan, Preethi L.B., additional, Richard, Marine, additional, Nicolini, Valeria G., additional, Sam, Johannes, additional, Claus, Christina, additional, Ferrara, Claudia, additional, Brünker, Peter, additional, Bacac, Marina, additional, Umana, Pablo, additional, Rüttinger, Dominik, additional, Wilson, Ian A., additional, Gudas, Jean, additional, Klein, Christian, additional, and Tessier, Jean J.L., additional

Published
2020
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6. 31st Annual Meeting and Associated Programs of the Society for Immunotherapy of Cancer (SITC 2016): late breaking abstracts

Author

Althammer, Sonja, primary, Steele, Keith, additional, Rebelatto, Marlon, additional, Tan, Tze Heng, additional, Wiestler, Tobias, additional, Schmidt, Guenter, additional, Higgs, Brandon, additional, Li, Xia, additional, Shi, Li, additional, Jin, Xiaoping, additional, Antal, Joyce, additional, Gupta, Ashok, additional, Ranade, Koustubh, additional, Binning, Gerd, additional, Bellmunt, Joaquim, additional, de Wit, Ronald, additional, Vaughn, David J., additional, Fradet, Yves, additional, Lee, Jae Lyun, additional, Fong, Lawrence, additional, Vogelzang, Nicholas J., additional, Climent, Miguel A., additional, Petrylak, Daniel P., additional, Choueiri, Toni K., additional, Necchi, Andrea, additional, Gerritsen, Winald, additional, Gurney, Howard, additional, Quinn, David I., additional, Culine, Stéphane, additional, Sternberg, Cora N., additional, Mai, Yabing, additional, Puhlmann, Markus, additional, Perini, Rodolfo F., additional, Bajorin, Dean F., additional, Sharma, Padmanee, additional, Callahan, Margaret K., additional, Calvo, Emiliano, additional, Kim, Joseph W., additional, de Braud, Filipo, additional, Ott, Patrick A., additional, Bono, Petri, additional, Pillai, Rathi N., additional, Morse, Michael, additional, Le, Dung T., additional, Taylor, Matthew, additional, Spilliopoulou, Pavlina, additional, Bendell, Johanna, additional, Jaeger, Dirk, additional, Chan, Emily, additional, Antonia, Scott J., additional, Ascierto, Paolo A., additional, Hennicken, Delphine, additional, Tschaika, Marina, additional, Azrilevich, Alex, additional, Rosenberg, Jonathan, additional, Levy, Ofer, additional, Chan, Christopher, additional, Cojocaru, Gady, additional, Liang, Spencer, additional, Ophir, Eran, additional, Ganguly, Sudipto, additional, Toporik, Amir, additional, Kotturi, Maya, additional, Kfir, Tal Fridman, additional, Murter, Benjamin M., additional, Logronio, Kathryn, additional, Dassa, Liat, additional, Leung, Ling, additional, Greenwald, Shirley, additional, Azulay, Meir, additional, Kumar, Sandeep, additional, Alteber, Zoya, additional, Pan, Xiaoyu, additional, Machlenkin, Arthur, additional, Benita, Yair, additional, Drake, Andrew W., additional, Chajut, Ayelet, additional, Salomon, Ran, additional, Vankin, Ilan, additional, Safyon, Einav, additional, Hunter, John, additional, Levine, Zurit, additional, White, Mark, additional, Leidner, Rom, additional, Kang, Hyunseok, additional, Haddad, Robert, additional, Segal, Neil H., additional, Wirth, Lori J., additional, Ferris, Robert L., additional, Hodi, F. Stephen, additional, Sanborn, Rachel E., additional, Gajewski, Thomas F., additional, Sharfman, William, additional, McDonald, Dan, additional, Srivastava, Shivani, additional, Gu, Xuemin, additional, Phillips, Penny, additional, Passey, Chaitali, additional, Seiwert, Tanguy, additional, Habtetsion, Tsadik, additional, Zhou, Gang, additional, Sakellariou-Thompson, Donastas, additional, Haymaker, Cara, additional, Creasy, Caitlin, additional, Hurd, Mark, additional, Uraoka, Naohiro, additional, Canales, Jaime Rodriguez, additional, Koptez, Scott, additional, Hwu, Patrick, additional, Maitra, Anirban, additional, Bernatchez, Chantale, additional, Coyle, Scott M., additional, Roybel, Kole T., additional, Rupp, Levi J., additional, Santoro, Stephen P., additional, Secrest, Stephanie, additional, Spelman, Michael, additional, Ho, Hanson, additional, Gomes, Tina, additional, Tse, Tiffany, additional, Yung-Wu, Chia, additional, Taunton, Jack, additional, Lim, Wendell, additional, Emtage, Peter, additional, Moudgil, Tarsem, additional, Ballesteros-Merino, Carmen, additional, Hilton, Traci, additional, Paustian, Christopher, additional, Page, David, additional, Urba, Walter, additional, Fox, Bernard, additional, Bell, Bryan, additional, Patel, Ashish, additional, Olafsen, Tove, additional, Satpayev, Daulet, additional, Torgov, Michael, additional, Marchioni, Filippo, additional, Romero, Jason, additional, Jiang, Ziyue Karen, additional, Zamilpa, Charles, additional, Keppler, Jennifer S., additional, Mascioni, Alessandro, additional, Jia, Fang, additional, Lee, Chen-Yu, additional, Gudas, Jean, additional, Sullivan, Ryan J., additional, Hoshida, Yujin, additional, Logan, Theodore, additional, Khushalani, Nikhil, additional, Giobbie-Hurder, Anita, additional, Margolin, Kim, additional, Roder, Joanna, additional, Bhatt, Rupal, additional, Koon, Henry, additional, Olencki, Thomas, additional, Hutson, Thomas, additional, Curti, Brendan, additional, Blackmon, Shauna, additional, Mier, James W., additional, Puzanov, Igor, additional, Roder, Heinrich, additional, Stewart, John, additional, Amin, Asim, additional, Ernstoff, Marc S., additional, Clark, Joseph I., additional, Atkins, Michael B., additional, Kaufman, Howard L., additional, Sosman, Jeffrey, additional, Signoretti, Sabina, additional, McDermott, David F., additional, Anderson, Abraham A., additional, Milhem, Mohammed M., additional, Andtbacka, Robert H. I., additional, Minor, David, additional, Gorski, Kevin S., additional, Baker, Daniel M., additional, Hamid, Omid, additional, Akporiaye, Emmanuel, additional, Koguchi, Yoshinobu, additional, Sutcliffe, Kim, additional, Conder, Kristie, additional, Marron, Thomas, additional, Bhardwaj, Nina, additional, Hammerich, Linda, additional, George, Fiby, additional, Kim-Schulze, Seunghee, additional, Keler, Tibor, additional, Davis, Tom, additional, Crowley, Elizabeth, additional, Salazar, Andres, additional, Brody, Joshua, additional, Monjazeb, Arta, additional, Daly, Megan E., additional, Riess, Jonathan, additional, Li, Tianhong, additional, Murphy, William J., additional, Kelly, Karen, additional, Hu, Zhiwei, additional, Shen, Rulong, additional, Campbell, Amanda, additional, McMichael, Elizabeth, additional, Yu, Lianbo, additional, Ramaswam, Bhuvaneswari, additional, London, Cheryl A., additional, Xu, Tian, additional, Carson, William, additional, Kokolus, Kathleen M., additional, Repasky, Elizabeth A., additional, Schell, Todd D., additional, Drabick, Joseph D., additional, Messenheimer, David J., additional, Jensen, Shawn, additional, Rubinstein, Mark, additional, Andrijauskaite, Kristina, additional, Swiderska-syn, Marzena, additional, Lind, Kristin, additional, Choppin, Agnes, additional, Roell, Marina K., additional, Wrangle, John, additional, Rhode, Peter, additional, Wong, Hing, additional, Ahmad, Shamim, additional, Webb, Mason, additional, Abu-Eid, Rasha, additional, Shrimali, Rajeev, additional, Verma, Vivek, additional, Doroodchi, Atbin, additional, Berrong, Zuzana, additional, Yashar, David, additional, Samara, Raed, additional, Mkrtichyan, Mikayel, additional, Khleif, Samir, additional, Powell, Steven, additional, Gitau, Mark, additional, Sumey, Christopher, additional, Terrell, Andrew, additional, Lohr, Michele, additional, Nowak, Ryan K., additional, McGraw, Steven, additional, Jensen, Ash, additional, Blanchard, Miran, additional, Gold, Kathryn A., additional, Cohen, Ezra E. W., additional, Ellison, Christie, additional, Black, Lora, additional, Lee, John, additional, Spanos, William Chad, additional, Wennerberg, Erik, additional, Schwitzer, Emily, additional, Lhuillier, Claire, additional, Koelwyn, Graeme, additional, Hiner, Rebecca, additional, Jones, Lee, additional, Demaria, Sandra, additional, Amanda, Vandeveer, additional, Greiner, John W., additional, Schlom, Jeffrey, additional, Bookstaver, Michelle, additional, Jewell, Christopher M., additional, Gunderson, Andrew, additional, Boulmay, Brian, additional, Li, Rui, additional, Spieler, Bradley, additional, Happel, Kyle, additional, Feng, Zipei, additional, Dubay, Christopher, additional, Fisher, Brenda, additional, Aung, Sandra, additional, Mederos, Eileen, additional, Bifulco, Carlo B., additional, McNamara, Michael, additional, Bahjat, Keith, additional, Redmond, William, additional, Ochoa, Augusto, additional, Hu, Hong-Ming, additional, Mehta, Adi, additional, Lund-Johansen, Fridtjof, additional, Bedu-Addo, Frank, additional, Conn, Greg, additional, King, Michael, additional, Dutta, Panna, additional, Shepard, Robert, additional, Einstein, Mark, additional, Adams, Sylvia, additional, Wang, Ena, additional, Jin, Ping, additional, Novik, Yelena, additional, Morrison, Debra, additional, Oratz, Ruth, additional, Marincola, Franco M., additional, Stroncek, David, additional, Goldberg, Judith, additional, Formenti, Silvia C., additional, Galon, Jérôme, additional, Mlecnik, Bernhard, additional, Marliot, Florence, additional, Ou, Fang-Shu, additional, Lugli, Alessandro, additional, Zlobec, Inti, additional, Rau, Tilman T., additional, Nagtegaal, Iris D., additional, Vink-Borger, Elisa, additional, Hartmann, Arndt, additional, Geppert, Carol, additional, Roehrl, Michael H., additional, Bavi, Prashant, additional, Ohashi, Pamela S., additional, Wang, Julia Y., additional, Nguyen, Linh T., additional, Han, SeongJun, additional, MacGregor, Heather L., additional, Hafezi-Bakhtiari, Sara, additional, Wouters, Bradley G., additional, Kawakami, Yutaka, additional, Papivanova, Boryana, additional, Xu, Mingli, additional, Fujita, Tomonobu, additional, Hazama, Shoichi, additional, Suzuki, Nobuaki, additional, Nagano, Hiroaki, additional, Okuno, Kiyotaka, additional, Itoh, Kyogo, additional, Zavadova, Eva, additional, Vocka, Michal, additional, Spacek, Jan, additional, Petruzelka, Lubos, additional, Konopasek, Bohuslav, additional, Dundr, Pavel, additional, Skalova, Helena, additional, Torigoe, Toshihiko, additional, Sato, Noriyuki, additional, Furuhata, Tomohisa, additional, Takemasa, Ichiro, additional, Van den Eynde, Marc, additional, Jouret-Mourin, Anne, additional, Machiels, Jean-Pascal, additional, Fredriksen, Tessa, additional, Lafontaine, Lucie, additional, Buttard, Bénédicte, additional, Church, Sarah, additional, Maby, Pauline, additional, Angell, Helen, additional, Angelova, Mihaela, additional, Vasaturo, Angela, additional, Bindea, Gabriela, additional, Berger, Anne, additional, Lagorce, Christine, additional, Patel, Prabhu S., additional, Vora, Hemangini H., additional, Shah, Birva, additional, Patel, Jayendrakumar B., additional, Rajvik, Kruti N., additional, Pandya, Shashank J., additional, Shukla, Shilin N., additional, Wang, Yili, additional, Zhang, Guanjun, additional, Masucci, Giuseppe V., additional, Andersson, Emilia K., additional, Grizzi, Fabio, additional, Laghi, Luigi, additional, Botti, Gerardo, additional, Tatangelo, Fabiana, additional, Delrio, Paolo, additional, Cilberto, Gennaro, additional, Marincola, Franco, additional, Sargent, Daniel J., additional, Fox, Bernard A., additional, Algazi, Alain, additional, Tsai, Katy, additional, Rosenblum, Michael, additional, Nandoskar, Prachi, additional, Li, Amy, additional, Nonomura, John, additional, Takamura, Kathryn, additional, Dwyer, Mary, additional, Browning, Erica, additional, Talia, Reneta, additional, Twitty, Chris, additional, Gargosky, Sharron, additional, Campbell, Jean, additional, Le, Mai, additional, Pierce, Robert H., additional, Daud, Adil, additional, Gartrell, Robyn, additional, Marks, Douglas, additional, Stack, Edward, additional, Lu, Yan, additional, Izaki, Daisuke, additional, Beck, Kristen, additional, Jia, Dan Tong, additional, Armenta, Paul, additional, White-Stern, Ashley, additional, Fu, Yichun, additional, Blake, Zoe, additional, Taback, Bret, additional, Horst, Basil, additional, Saenger, Yvonne M., additional, Leonardo, Steven, additional, Gorden, Keith, additional, Fulton, Ross B., additional, Fraser, Kathryn, additional, Kangas, Takashi O., additional, Walsh, Richard, additional, Ertelt, Kathleen, additional, Graff, Jeremy, additional, Uhlik, Mark, additional, Sims, Jennifer S., additional, Lei, Liang, additional, Tsujiuchi, Takashi, additional, Bruce, Jeffrey N., additional, Canoll, Peter, additional, Tolcher, Anthony W, additional, Alley, Evan W, additional, Chichili, Gurunadh, additional, Canoll, Jan E, additional, Moore, Paul, additional, Bonvini, Ezio, additional, Johnson, Syd, additional, Shankar, Sadhna, additional, Vasselli, James, additional, Wigginton, Jon, additional, and Powderly, John, additional

Published
2016
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8. Abstract LB-351: Evaluation of two engineered antibody fragments derived from a human CD20 antibody as tracers for immunoPET .

Author

Gudas, Jean, primary, Olafsen, Tove, additional, Ho, David, additional, Bartlett, Derek, additional, Lipman, Arye, additional, Gudas, Jean, additional, Sorenson, Katy, additional, Keppler, Jennifer, additional, Behrenbruch, Christian, additional, Wu, Anna, additional, Ashworth, Sharon, additional, Passchier, Jan, additional, Gunn, Roger, additional, and Matthews, Paul, additional

Published
2013
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13. Abstract 2590: Preclinical evaluation of ASG-5ME, a novel antibody-drug conjugate for pancreatic cancer

Author

Smith, Leia M., primary, Gudas, Jean M., additional, Lewis, Tim, additional, Duniho, Steve, additional, An, Zili, additional, Morrison, Kendall, additional, Jia, Xia C., additional, Raitano, Art B., additional, Moser, Ruth, additional, Lyon, Robert P., additional, Hayes, Dawn, additional, Senter, Peter D., additional, Jakobovits, Aya, additional, and Benjamin, Dennis R., additional

Published
2010
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15. Monoclonal Antibodies to Six-Transmembrane Epithelial Antigen of the Prostate-1 Inhibit Intercellular Communication In vitro and Growth of Human Tumor Xenografts In vivo

Author

Challita-Eid, Pia M., primary, Morrison, Kendall, additional, Etessami, Soudabeh, additional, An, Zili, additional, Morrison, Karen J., additional, Perez-Villar, Juan J., additional, Raitano, Arthur B., additional, Jia, Xiao-Chi, additional, Gudas, Jean M., additional, Kanner, Steven B., additional, and Jakobovits, Aya, additional

Published
2007
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18. P-Glycoprotein Is Positively Correlated with p53 Protein Accumulation in Human Colorectal Cancers

Author

Oka, Mikio, primary, Kounoura, Kiyoshi, additional, Narasaki, Fumihiko, additional, Sakamoto, Akira, additional, Fukuda, Minoru, additional, Matsuo, Isao, additional, Ikeda, Koki, additional, Tsurutani, Junji, additional, Ikuno, Nobuhiro, additional, Omagari, Katsuhisa, additional, Mizuta, Yohei, additional, Soda, Hiroshi, additional, Gudas, Jean M., additional, and Kohno, Shigeru, additional

Published
1997
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25. Cyclin E2, a Novel G1Cyclin That Binds Cdk2 and Is Aberrantly Expressed in Human Cancers

Author

M. Gudas, Jean, Payton, Marc, Thukral, Sushil, Chen, Eddy, Bass, Michael, Robinson, Murray O., and Coats, Steve

Abstract

A novel cyclin gene was discovered by searching an expressed sequence tag database with a cyclin box profile. The human cyclin E2 gene encodes a 404-amino-acid protein that is most closely related to cyclin E. Cyclin E2 associates with Cdk2 in a functional kinase complex that is inhibited by both p27Kip1and p21Cip1. The catalytic activity associated with cyclin E2 complexes is cell cycle regulated and peaks at the G1/S transition. Overexpression of cyclin E2 in mammalian cells accelerates G1, demonstrating that cyclin E2 may be rate limiting for G1progression. Unlike cyclin E1, which is expressed in most proliferating normal and tumor cells, cyclin E2 levels were low to undetectable in nontransformed cells and increased significantly in tumor-derived cells. The discovery of a novel second cyclin E family member suggests that multiple unique cyclin E-CDK complexes regulate cell cycle progression.

Published
1999
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26. 31st Annual Meeting and Associated Programs of the Society for Immunotherapy of Cancer (SITC 2016): late breaking abstracts

Author

Althammer, Sonja, Steele, Keith, Rebelatto, Marlon, Tan, Tze Heng, Wiestler, Tobias, Schmidt, Guenter, Higgs, Brandon, Li, Xia, Shi, Li, Jin, Xiaoping, Antal, Joyce, Gupta, Ashok, Ranade, Koustubh, Binning, Gerd, Bellmunt, Joaquim, de Wit, Ronald, Vaughn, David J., Fradet, Yves, Lee, Jae Lyun, Fong, Lawrence, Vogelzang, Nicholas J., Climent, Miguel A., Petrylak, Daniel P., Choueiri, Toni K., Necchi, Andrea, Gerritsen, Winald, Gurney, Howard, Quinn, David I., Culine, Stéphane, Sternberg, Cora N., Mai, Yabing, Puhlmann, Markus, Perini, Rodolfo F., Bajorin, Dean F., Sharma, Padmanee, Callahan, Margaret K., Calvo, Emiliano, Kim, Joseph W., de Braud, Filipo, Ott, Patrick A., Bono, Petri, Pillai, Rathi N., Morse, Michael, Le, Dung T., Taylor, Matthew, Spilliopoulou, Pavlina, Bendell, Johanna, Jaeger, Dirk, Chan, Emily, Antonia, Scott J., Ascierto, Paolo A., Hennicken, Delphine, Tschaika, Marina, Azrilevich, Alex, Rosenberg, Jonathan, Levy, Ofer, Chan, Christopher, Cojocaru, Gady, Liang, Spencer, Ophir, Eran, Ganguly, Sudipto, Toporik, Amir, Kotturi, Maya, Kfir, Tal Fridman, Murter, Benjamin M., Logronio, Kathryn, Dassa, Liat, Leung, Ling, Greenwald, Shirley, Azulay, Meir, Kumar, Sandeep, Alteber, Zoya, Pan, Xiaoyu, Machlenkin, Arthur, Benita, Yair, Drake, Andrew W., Chajut, Ayelet, Salomon, Ran, Vankin, Ilan, Safyon, Einav, Hunter, John, Levine, Zurit, White, Mark, Leidner, Rom, Kang, Hyunseok, Haddad, Robert, Segal, Neil H., Wirth, Lori J., Ferris, Robert L., Hodi, F. Stephen, Sanborn, Rachel E., Gajewski, Thomas F., Sharfman, William, McDonald, Dan, Srivastava, Shivani, Gu, Xuemin, Phillips, Penny, Passey, Chaitali, Seiwert, Tanguy, Habtetsion, Tsadik, Zhou, Gang, Sakellariou-Thompson, Donastas, Haymaker, Cara, Creasy, Caitlin, Hurd, Mark, Uraoka, Naohiro, Canales, Jaime Rodriguez, Koptez, Scott, Hwu, Patrick, Maitra, Anirban, Bernatchez, Chantale, Coyle, Scott M., Roybel, Kole T., Rupp, Levi J., Santoro, Stephen P., Secrest, Stephanie, Spelman, Michael, Ho, Hanson, Gomes, Tina, Tse, Tiffany, Yung-Wu, Chia, Taunton, Jack, Lim, Wendell, Emtage, Peter, Moudgil, Tarsem, Ballesteros-Merino, Carmen, Hilton, Traci, Paustian, Christopher, Page, David, Urba, Walter, Fox, Bernard, Bell, Bryan, Patel, Ashish, Olafsen, Tove, Satpayev, Daulet, Torgov, Michael, Marchioni, Filippo, Romero, Jason, Jiang, Ziyue Karen, Zamilpa, Charles, Keppler, Jennifer S., Mascioni, Alessandro, Jia, Fang, Lee, Chen-Yu, Gudas, Jean, Sullivan, Ryan J., Hoshida, Yujin, Logan, Theodore, Khushalani, Nikhil, Giobbie-Hurder, Anita, Margolin, Kim, Roder, Joanna, Bhatt, Rupal, Koon, Henry, Olencki, Thomas, Hutson, Thomas, Curti, Brendan, Blackmon, Shauna, Mier, James W., Puzanov, Igor, Roder, Heinrich, Stewart, John, Amin, Asim, Ernstoff, Marc S., Clark, Joseph I., Atkins, Michael B., Kaufman, Howard L., Sosman, Jeffrey, Signoretti, Sabina, McDermott, David F., Anderson, Abraham A., Milhem, Mohammed M., Andtbacka, Robert H. I., Minor, David, Gorski, Kevin S., Baker, Daniel M., Hamid, Omid, Akporiaye, Emmanuel, Koguchi, Yoshinobu, Sutcliffe, Kim, Conder, Kristie, Marron, Thomas, Bhardwaj, Nina, Hammerich, Linda, George, Fiby, Kim-Schulze, Seunghee, Keler, Tibor, Davis, Tom, Crowley, Elizabeth, Salazar, Andres, Brody, Joshua, Monjazeb, Arta, Daly, Megan E., Riess, Jonathan, Li, Tianhong, Murphy, William J., Kelly, Karen, Hu, Zhiwei, Shen, Rulong, Campbell, Amanda, McMichael, Elizabeth, Yu, Lianbo, Ramaswam, Bhuvaneswari, London, Cheryl A., Xu, Tian, Carson, William, Kokolus, Kathleen M., Repasky, Elizabeth A., Schell, Todd D., Drabick, Joseph D., Messenheimer, David J., Jensen, Shawn, Rubinstein, Mark, Andrijauskaite, Kristina, Swiderska-syn, Marzena, Lind, Kristin, Choppin, Agnes, Roell, Marina K., Wrangle, John, Rhode, Peter, Wong, Hing, Ahmad, Shamim, Webb, Mason, Abu-Eid, Rasha, Shrimali, Rajeev, Verma, Vivek, Doroodchi, Atbin, Berrong, Zuzana, Yashar, David, Samara, Raed, Mkrtichyan, Mikayel, Khleif, Samir, Powell, Steven, Gitau, Mark, Sumey, Christopher, Terrell, Andrew, Lohr, Michele, Nowak, Ryan K., McGraw, Steven, Jensen, Ash, Blanchard, Miran, Gold, Kathryn A., Cohen, Ezra E. W., Ellison, Christie, Black, Lora, Lee, John, Spanos, William Chad, Wennerberg, Erik, Schwitzer, Emily, Lhuillier, Claire, Koelwyn, Graeme, Hiner, Rebecca, Jones, Lee, Demaria, Sandra, Amanda, Vandeveer, Greiner, John W., Schlom, Jeffrey, Bookstaver, Michelle, Jewell, Christopher M., Gunderson, Andrew, Boulmay, Brian, Li, Rui, Spieler, Bradley, Happel, Kyle, Feng, Zipei, Dubay, Christopher, Fisher, Brenda, Aung, Sandra, Mederos, Eileen, Bifulco, Carlo B., McNamara, Michael, Bahjat, Keith, Redmond, William, Ochoa, Augusto, Hu, Hong-Ming, Mehta, Adi, Lund-Johansen, Fridtjof, Bedu-Addo, Frank, Conn, Greg, King, Michael, Dutta, Panna, Shepard, Robert, Einstein, Mark, Adams, Sylvia, Wang, Ena, Jin, Ping, Novik, Yelena, Morrison, Debra, Oratz, Ruth, Marincola, Franco M., Stroncek, David, Goldberg, Judith, Formenti, Silvia C., Galon, Jérôme, Mlecnik, Bernhard, Marliot, Florence, Ou, Fang-Shu, Lugli, Alessandro, Zlobec, Inti, Rau, Tilman T., Nagtegaal, Iris D., Vink-Borger, Elisa, Hartmann, Arndt, Geppert, Carol, Roehrl, Michael H., Bavi, Prashant, Ohashi, Pamela S., Wang, Julia Y., Nguyen, Linh T., Han, SeongJun, MacGregor, Heather L., Hafezi-Bakhtiari, Sara, Wouters, Bradley G., Kawakami, Yutaka, Papivanova, Boryana, Xu, Mingli, Fujita, Tomonobu, Hazama, Shoichi, Suzuki, Nobuaki, Nagano, Hiroaki, Okuno, Kiyotaka, Itoh, Kyogo, Zavadova, Eva, Vocka, Michal, Spacek, Jan, Petruzelka, Lubos, Konopasek, Bohuslav, Dundr, Pavel, Skalova, Helena, Torigoe, Toshihiko, Sato, Noriyuki, Furuhata, Tomohisa, Takemasa, Ichiro, Van den Eynde, Marc, Jouret-Mourin, Anne, Machiels, Jean-Pascal, Fredriksen, Tessa, Lafontaine, Lucie, Buttard, Bénédicte, Church, Sarah, Maby, Pauline, Angell, Helen, Angelova, Mihaela, Vasaturo, Angela, Bindea, Gabriela, Berger, Anne, Lagorce, Christine, Patel, Prabhu S., Vora, Hemangini H., Shah, Birva, Patel, Jayendrakumar B., Rajvik, Kruti N., Pandya, Shashank J., Shukla, Shilin N., Wang, Yili, Zhang, Guanjun, Masucci, Giuseppe V., Andersson, Emilia K., Grizzi, Fabio, Laghi, Luigi, Botti, Gerardo, Tatangelo, Fabiana, Delrio, Paolo, Cilberto, Gennaro, Marincola, Franco, Sargent, Daniel J., Fox, Bernard A., Algazi, Alain, Tsai, Katy, Rosenblum, Michael, Nandoskar, Prachi, Li, Amy, Nonomura, John, Takamura, Kathryn, Dwyer, Mary, Browning, Erica, Talia, Reneta, Twitty, Chris, Gargosky, Sharron, Campbell, Jean, Le, Mai, Pierce, Robert H., Daud, Adil, Gartrell, Robyn, Marks, Douglas, Stack, Edward, Lu, Yan, Izaki, Daisuke, Beck, Kristen, Jia, Dan Tong, Armenta, Paul, White-Stern, Ashley, Fu, Yichun, Blake, Zoe, Taback, Bret, Horst, Basil, Saenger, Yvonne M., Leonardo, Steven, Gorden, Keith, Fulton, Ross B., Fraser, Kathryn, Kangas, Takashi O., Walsh, Richard, Ertelt, Kathleen, Graff, Jeremy, Uhlik, Mark, Sims, Jennifer S., Lei, Liang, Tsujiuchi, Takashi, Bruce, Jeffrey N., Canoll, Peter, Tolcher, Anthony W, Alley, Evan W, Chichili, Gurunadh, Canoll, Jan E, Moore, Paul, Bonvini, Ezio, Johnson, Syd, Shankar, Sadhna, Vasselli, James, Wigginton, Jon, and Powderly, John

Subjects
Meeting Abstracts
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28. The PET-Tracer 89 Zr-Df-IAB22M2C Enables Monitoring of Intratumoral CD8 T-cell Infiltrates in Tumor-Bearing Humanized Mice after T-cell Bispecific Antibody Treatment.

Author

Griessinger CM, Olafsen T, Mascioni A, Jiang ZK, Zamilpa C, Jia F, Torgov M, Romero JM, Marchioni F, Satpayev D, Lee C, Zhang G, Nayak TK, Pincha M, Amann M, Mohan PLB, Richard M, Nicolini VG, Sam J, Claus C, Ferrara C, Brünker P, Bacac M, Umana P, Rüttinger D, Wilson IA, Gudas J, Klein C, and Tessier JJL

Subjects
Animals, Antibodies, Bispecific immunology, Carcinoembryonic Antigen, Female, Folate Receptor 1 immunology, Humans, Mice, Mice, Inbred NOD, Mice, SCID, Radiopharmaceuticals metabolism, Tumor Cells, Cultured, Uterine Cervical Neoplasms metabolism, Uterine Cervical Neoplasms therapy, Antibodies, Bispecific pharmacology, CD8-Positive T-Lymphocytes immunology, Immunotherapy methods, Molecular Imaging methods, Positron-Emission Tomography methods, Uterine Cervical Neoplasms immunology, Zirconium metabolism
Abstract

CD8-expressing T cells are the main effector cells in cancer immunotherapy. Treatment-induced changes in intratumoral CD8 + T cells may represent a biomarker to identify patients responding to cancer immunotherapy. Here, we have used a 89 Zr-radiolabeled human CD8-specific minibody ( 89 Zr-Df-IAB22M2C) to monitor CD8 + T-cell tumor infiltrates by PET. The ability of this tracer to quantify CD8 + T-cell tumor infiltrates was evaluated in preclinical studies following single-agent treatment with FOLR1-T-cell bispecific (TCB) antibody and combination therapy of CEA-TCB (RG7802) and CEA-targeted 4-1BB agonist CEA-4-1BBL. In vitro cytotoxicity assays with peripheral blood mononuclear cells and CEA-expressing MKN-45 gastric or FOLR1-expressing HeLa cervical cancer cells confirmed noninterference of the anti-CD8-PET-tracer with the mode of action of CEA-TCB/CEA-4-1BBL and FOLR1-TCB at relevant doses. In vivo , the extent of tumor regression induced by combination treatment with CEA-TCB/CEA-4-1BBL in MKN-45 tumor-bearing humanized mice correlated with intratumoral CD8 + T-cell infiltration. This was detectable by 89 Zr-IAB22M2C-PET and γ-counting. Similarly, single-agent treatment with FOLR1-TCB induced strong CD8 + T-cell infiltration in HeLa tumors, where 89 Zr-Df-IAB22M2C again was able to detect CD8 tumor infiltrates. CD8-IHC confirmed the PET imaging results. Taken together, the anti-CD8-minibody 89 Zr-Df-IAB22M2C revealed a high sensitivity for the detection of intratumoral CD8 + T-cell infiltrates upon either single or combination treatment with TCB antibody-based fusion proteins. These results provide further evidence that the anti-CD8 tracer, which is currently in clinical phase II, is a promising monitoring tool for intratumoral CD8 + T cells in patients treated with cancer immunotherapy. SIGNIFICANCE: Monitoring the pharmacodynamic activity of cancer immunotherapy with novel molecular imaging tools such as 89 Zr-Df-IAB22M2C for PET imaging is of prime importance to identify patients responding early to cancer immunotherapy., (©2020 American Association for Cancer Research.)

Published
2020
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29. Fully human anti-interleukin 8 antibody inhibits tumor growth in orthotopic bladder cancer xenografts via down-regulation of matrix metalloproteases and nuclear factor-kappaB.

Author

Mian BM, Dinney CP, Bermejo CE, Sweeney P, Tellez C, Yang XD, Gudas JM, McConkey DJ, and Bar-Eli M

Subjects
Animals, Blotting, Western, Carcinoma, Transitional Cell metabolism, Cell Division, Cell Line, Tumor, Cell Nucleus metabolism, Collagen pharmacology, Drug Combinations, Humans, Laminin pharmacology, Luciferases metabolism, Mice, Mice, Nude, Neoplasm Invasiveness, Neoplasm Metastasis, Neoplasm Transplantation, Nucleic Acid Hybridization, Promoter Regions, Genetic, Proteoglycans pharmacology, RNA, Messenger metabolism, Time Factors, Transcription, Genetic, Up-Regulation, Antibodies, Monoclonal therapeutic use, Down-Regulation, Interleukin-8 chemistry, Interleukin-8 immunology, Matrix Metalloproteinase 2 biosynthesis, Matrix Metalloproteinase 9 biosynthesis, NF-kappa B biosynthesis, Urinary Bladder Neoplasms metabolism, Urinary Bladder Neoplasms therapy
Abstract

Purpose: We previously demonstrated that overexpression of interleukin 8 (IL-8) in human transitional cell carcinoma (TCC) resulted in increased tumorigenicity and metastasis. This increase in tumor growth and metastasis can be attributed to the up-regulation in the expression and activity of the metalloproteinases MMP-2 and MMP-9., Experimental Design: To investigate whether targeting IL-8 with a fully human anti-IL-8 antibody (ABX-IL8) could be a potential therapeutic strategy for controlling TCC growth, we studied its effects on TCC growth in vitro and in an in vivo mouse model. Human TCC cell lines 253J B-V and UM UC3 (high IL-8 producers), 253J (low IL-8), and 253J transfected with the IL-8 gene (high producer) were used., Results: ABX-IL8 had no effect on TCC cell proliferation in vitro. However, in the orthotopic nude mouse model, after 4 weeks of treatment (100 micro g/week, i.p.), a significant decrease in tumor growth of both cell lines was observed. IL-8 blockade by ABX-IL8 significantly inhibited the expression, activity, and transcription of MMP-2 and MMP-9, resulting in decreased invasion through reconstituted basement membrane in vitro. The down-regulation of MMP-2 and MMP-9 in these cells could be explained by the modulation of nuclear factor-kappaB expression and transcriptional activity by ABX-IL8., Conclusions: Our data point to the potential use of ABX-IL8 as a modality to treat bladder cancer and other solid tumors, either alone or in combination with conventional chemotherapy or other antitumor agents.

Published
2003

30. Fully human antibodies to MCAM/MUC18 inhibit tumor growth and metastasis of human melanoma.

Author

Mills L, Tellez C, Huang S, Baker C, McCarty M, Green L, Gudas JM, Feng X, and Bar-Eli M

Subjects
Animals, Antibodies, Monoclonal immunology, Antibody Specificity, Antigens, Surface immunology, CD146 Antigen, Cell Adhesion physiology, Down-Regulation, Endothelium, Vascular cytology, Endothelium, Vascular metabolism, Humans, Immunoglobulin G immunology, Immunoglobulin G pharmacology, Male, Matrix Metalloproteinase 2 biosynthesis, Matrix Metalloproteinase 2 metabolism, Matrix Metalloproteinase Inhibitors, Melanoma immunology, Melanoma secondary, Melanoma therapy, Mice, Mice, Inbred BALB C, Mice, Nude, Neovascularization, Pathologic immunology, Neovascularization, Pathologic pathology, Neovascularization, Pathologic therapy, Spheroids, Cellular, Tumor Cells, Cultured, Xenograft Model Antitumor Assays, Antibodies, Monoclonal pharmacology, Antigens, CD, Antigens, Surface physiology, Melanoma pathology, Membrane Glycoproteins, Neural Cell Adhesion Molecules
Abstract

MCAM/MUC18 expression correlates with tumor thickness and metastatic potential of human melanoma cells in nude mice. Moreover, ectopic expression of MUC18 in primary cutaneous melanoma cells leads to increased tumor growth and metastasis in vivo. Here we tested the effect of a fully human anti-MUC18 antibody, ABX-MA1, on angiogenesis, tumor growth, and metastasis. ABX-MA1 had no effect on melanoma cell proliferation rate in vitro. However, when cells of the metastatic melanoma lines A375SM and WM2664 (which express high levels of MUC18) were injected s.c. into nude mice and treated with ABX-MA1 (100 micro g, weekly, i.p. for 5 weeks), tumor growth was significantly inhibited compared with control IgG-treated mice. ABX-MA1 treatment also suppressed experimental lung metastasis of these melanoma cells. ABX-MA1 disrupted spheroid formation by melanoma cells expressing MUC18 (homotypic interaction) and the ability of these cells to attach to human vascular endothelial cells [HUVECs (MUC18 positive)] in vitro. ABX-MA1 treatment of melanoma cells in vitro significantly inhibited the promoter and collagenase activity of matrix metalloproteinase 2, resulting in decreased invasion through Matrigel-coated filters. Decreased expression of matrix metalloproteinase 2 was also observed in the implanted tumors in vivo. Moreover, because HUVECs also express MUC18, ABX-MA1 directly disrupted the tube-like formation by HUVECs in an in vitro vessel formation assay. Collectively, these results point to usefulness of ABX-MA1 as a modality to treat melanoma either alone or in combination with conventional chemotherapy or other antitumor agents.

Published
2002

31. Activation of the aromatic hydrocarbon receptor pathway is not sufficient for transcriptional repression of BRCA-1: requirements for metabolism of benzo[a]pyrene to 7r,8t-dihydroxy-9t,10-epoxy-7,8,9,10-tetrahydrobenzo[a]pyrene.

Author

Jeffy BD, Chirnomas RB, Chen EJ, Gudas JM, and Romagnolo DF

Subjects
7,8-Dihydro-7,8-dihydroxybenzo(a)pyrene 9,10-oxide toxicity, BRCA1 Protein genetics, Benzo(a)pyrene toxicity, Biotransformation, Breast Neoplasms chemically induced, Carcinogens toxicity, Down-Regulation, Gene Expression Profiling, Gene Expression Regulation, Neoplastic drug effects, Gene Expression Regulation, Neoplastic physiology, Genes, BRCA1 drug effects, Humans, Polychlorinated Dibenzodioxins toxicity, Promoter Regions, Genetic drug effects, RNA, Messenger biosynthesis, RNA, Messenger genetics, Receptors, Aryl Hydrocarbon metabolism, Reverse Transcriptase Polymerase Chain Reaction, Signal Transduction drug effects, Signal Transduction physiology, Transcription, Genetic physiology, Tumor Cells, Cultured, Tumor Suppressor Protein p53 genetics, Tumor Suppressor Protein p53 physiology, 7,8-Dihydro-7,8-dihydroxybenzo(a)pyrene 9,10-oxide metabolism, BRCA1 Protein biosynthesis, Benzo(a)pyrene metabolism, Breast Neoplasms genetics, Breast Neoplasms metabolism, Carcinogens metabolism, Receptors, Aryl Hydrocarbon physiology, Transcription, Genetic drug effects
Abstract

Reduction of BRCA-1 expression through nonmutational events may be a predisposing event in the onset of sporadic breast cancer. In this study, we investigated the mechanisms through which the environmental carcinogen benzo[a]pyrene (B[a]P) lowered BRCA-1 mRNA levels in breast cancer MCF-7 cells. We report that B[a]P does not compromise the stability of BRCA-1 mRNA, but represses transcriptional activity of a 1.69-kb BRCA-1 (pGL3-BRCA-1) promoter fragment that contains both exon-1A and exon-1B transcription start sites. The loss of BRCA-1 promoter activity was accompanied by accumulation of CYP1A1 and BAX-alpha mRNA and p53 and p21 protein, whereas levels of Bcl-2 mRNA were reduced. The aromatic hydrocarbon receptor ligand 2,3,7,8-tetrachlorodibenzo-p-dioxin (TCDD), which is not metabolized, did not affect BRCA-1 promoter activity or the cellular levels of BRCA-1 and p53 protein, but it did induce a CYP1A1-like promoter. Conversely, treatment with the B[a]P metabolite 7r,8t-dihydroxy-9t,10-epoxy-7,8,9,10-tetrahydrobenzo[a]pyrene (BPDE) repressed BRCA-1 promoter activity and protein, while increasing p53 and p21 protein levels. Transient expression of dominant-negative p53 ((175)Arg-->His) counteracted the detrimental effects of BPDE on BRCA-1 promoter activity and protein levels. Similarly, treatment with B[a]P, TCDD, or BPDE failed to repress transcription from the pGL3-BRCA-1 construct transfected into ZR75.1 breast cancer cells containing mutated p53 ((152)Pro-->Leu). We conclude that activation of the aromatic hydrocarbon receptor is not sufficient for down-regulation of BRCA-1 transcription, which is, however, inhibited by the B[a]P metabolite BPDE through a p53-dependent pathway.

Published
2002

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