Your search keyword '"Holt, RA"' showing total 236 results

1. Behavioral dissection of hunger states in Drosophila

Author

Weaver, KJ, primary, Raju, S, additional, Rucker, RA, additional, Chakraborty, TS, additional, Holt, RA, additional, and Pletcher, SD, additional

Published

2023

2. Behavioral dissection of hunger states inDrosophila

Author

Weaver, KJ, primary, Raju, S, additional, Rucker, RA, additional, Chakraborty, TS, additional, Holt, RA, additional, and Pletcher, SD, additional

Published

2022

3. Encoding of hunger by the neuronal epigenome slows aging in Drosophila

Author

Weaver, KJ, primary, Holt, RA, additional, Henry, E, additional, and Pletcher, SD, additional

Published

2022

4. Genetic characterization of Flavobacterium columnare isolates from the Pacific Northwest, USA

Author

Sebastião, FdA, primary, Shahin, K, additional, Heckman, TI, additional, LaFrentz, BR, additional, Griffin, MJ, additional, Loch, TP, additional, Mukkatira, K, additional, Veek, T, additional, Richey, C, additional, Adkison, M, additional, Holt, RA, additional, and Soto, E, additional

Published

2021

5. Modeling In-Reactor Deformation of Zr-2.5Nb Pressure Tubes in CANDU Power Reactors

Author

Christodoulou, N, primary, Causey, AR, additional, Holt, RA, additional, Tomé, CN, additional, Badie, N, additional, Klassen, RJ, additional, Sauvé, R, additional, and Woo, CH, additional

Published

1996

6. The Contribution of Irradiation Growth to Pressure Tube Deformation

Author

Holt, RA, primary and Fleck, RG, additional

Published

1991

7. Comprehensive and Integrated Genomic Characterization of Adult Soft Tissue Sarcomas

Author

Lazar, AJ, McLellan, MD, Bailey, MH, Miller, CA, Appelbaum, EL, Cordes, MG, Fronick, CC, Fulton, LA, Fulton, RS, Mardis, ER, Schmidt, HK, Wong, W, Wilson, RK, Yellapantula, V, Radenbaugh, AJ, Hoadley, KA, Hayes, DN, Parker, JS, Wilkerson, MD, Auman, JT, Balu, S, Bodenheimer, T, Hoyle, AP, Jefferys, SR, Jones, CD, Lehmann, K-V, Meng, S, Mieczkowski, PA, Mose, LE, Perou, CM, Roach, J, Senbabaoglu, Y, Shi, Y, Simons, JV, Skelly, T, Soloway, MG, Tan, D, Veluvolu, U, Davis, IJ, Hepperla, AJ, Brohl, AS, Kasaian, K, Mungall, K, Sadeghi, S, Barthel, FP, Verhaak, R, Hu, X, Chibon, F, Cherniack, AD, Shih, J, Beroukhim, R, Meyerson, M, Cibulskis, C, Gabriel, SB, Saksena, G, Schumacher, SE, Gao, Q, Wyczalkowski, M, Bowlby, R, Robertson, AG, Ally, A, Balasundaram, M, Brooks, D, Carlsen, R, Chuah, E, Dhalla, N, Holt, RA, Jones, SJM, Lee, D, Li, I, Ma, Y, Marra, MA, Mayo, M, Moore, RA, Mungall, AJ, Schein, JE, Sipahimalani, P, Tam, A, Thiessen, N, Wong, T, Danilova, L, Cope, L, Baylin, SB, Bootwalla, MS, Lai, PH, Laird, PW, Maglinte, DT, Van Den Berg, DJ, Weisenberger, DJ, Wrangle, J, Drill, E, Shen, R, Iype, L, Reynolds, SM, Shmulevich, I, Yau, C, Armenia, J, Liu, EM, Benz, C, Pastore, A, Sanchez-Vega, F, Schultz, N, Akbani, R, Hegde, AM, Liu, W, Lu, Y, Mills, GB, Weinstein, JN, Roszik, J, Anur, P, Spellman, P, Abeshouse, A, Chen, H-W, Gao, J, Heins, Z, Kundra, R, Larsson, E, Ochoa, A, Sander, C, Socci, N, Zhang, H, Noble, MS, Heiman, DI, Kim, J, Chin, L, Getz, G, Cho, J, Defreitas, T, Frazer, S, Gehlenborg, N, Lawrence, MS, Lin, P, Meier, S, Voet, D, Byers, L, Diao, L, Gay, CM, Wang, J, Newton, Y, Cooper, LAD, Gutman, DA, Lee, S, Nalisnik, M, Bowen, J, Gastier-Foster, JM, Gerken, M, Helsel, C, Hobensack, S, Leraas, KM, Lichtenberg, TM, Ramirez, NC, Wise, L, Zmuda, E, Anderson, ML, Castro, P, Ittmann, M, Gordienko, E, Paklina, O, Setdikova, G, Raut, CP, Karlan, BY, Lester, J, Belyaev, D, Fulidou, V, Potapova, O, Voronina, O, Demetri, GD, Ramalingam, SS, Behera, M, Delman, K, Owonikoko, TK, Sica, GL, Boyd, J, Magliocco, A, Salner, A, Bennett, J, Iacocca, M, Swanson, P, Dottino, P, Kalir, T, Pereira, E, Akeredolu, T, Crain, D, Curley, E, Gardner, J, Mallery, D, Morris, S, Paulauskis, J, Penny, R, Shelton, C, Shelton, T, Thompson, E, Hoon, DB, Parfitt, J, Birrer, M, Karseladze, A, Mariamidze, A, Dao, F, Levine, DA, Olvera, N, Maki, RG, Bartlett, J, Eschbacher, J, Dubina, M, Mozgovoy, E, Fedosenko, K, Manikhas, G, Sekhon, H, Ramirez, N, Ingram, DR, Torres, KE, DiSaia, P, Godwin, AK, Godwin, EM, Kuo, H, Madan, R, Reilly, C, Adebamowo, C, Adebamowo, SN, Bocklage, T, Higgins, K, Martinez, C, Boice, L, Grilley-Olson, JE, Huang, M, Perou, AH, Thorne, LB, Rathmell, WK, Gutmann, DH, Singer, S, Chudamani, S, Liu, J, Lolla, L, Naresh, R, Pihl, T, Sun, Q, Wan, Y, Wu, Y, Felau, I, Zenklusen, JC, Demchok, JA, Ferguson, ML, Hutter, CM, Sofia, HJ, Tarnuzzer, R, Wang, Z, Yang, L, Zhang, JJ, Demicco, EG, Doyle, LA, Hornick, JL, Rubin, BP, de Rijn, MV, Baker, L, Riedel, RF, Ding, L, Ladanyi, M, Novak, JE, Van Tine, BA, Davis, LE, Grilley-Olsen, JE, Pollock, RE, Jones, KB, Martignetti, JA, Tong, P, and Network, CGAR

Subjects

0301 basic medicine, Leiomyosarcoma, Adult, Epigenomics, DNA Copy Number Variations, Genomics, Biology, General Biochemistry, Genetics and Molecular Biology, Undifferentiated Pleomorphic Sarcoma, Article, 03 medical and health sciences, Young Adult, 0302 clinical medicine, medicine, Cluster Analysis, Humans, ATRX, Aged, Comparative genomics, Aged, 80 and over, Genome, Human, Sarcoma, Middle Aged, medicine.disease, Synovial sarcoma, 030104 developmental biology, 030220 oncology & carcinogenesis, Immunology, DNA methylation, Mutation, Cancer research, Genome-Wide Association Study

Abstract

Summary Sarcomas are a broad family of mesenchymal malignancies exhibiting remarkable histologic diversity. We describe the multi-platform molecular landscape of 206 adult soft tissue sarcomas representing 6 major types. Along with novel insights into the biology of individual sarcoma types, we report three overarching findings: (1) unlike most epithelial malignancies, these sarcomas (excepting synovial sarcoma) are characterized predominantly by copy-number changes, with low mutational loads and only a few genes ( TP53 , ATRX , RB1 ) highly recurrently mutated across sarcoma types; (2) within sarcoma types, genomic and regulomic diversity of driver pathways defines molecular subtypes associated with patient outcome; and (3) the immune microenvironment, inferred from DNA methylation and mRNA profiles, associates with outcome and may inform clinical trials of immune checkpoint inhibitors. Overall, this large-scale analysis reveals previously unappreciated sarcoma-type-specific changes in copy number, methylation, RNA, and protein, providing insights into refining sarcoma therapy and relationships to other cancer types.

Published

2017

8. Integrated genomic characterization of oesophageal carcinoma

Author

Kim, J, Bowlby, R, Mungall, AJ, Robertson, AG, Odze, RD, Cherniack, AD, Shih, J, Pedamallu, CS, Cibulskis, C, Dunford, A, Meier, SR, Raphael, BJ, Wu, H-T, Wong, AM, Willis, JE, Bass, AJ, Derks, S, Garman, K, McCall, SJ, Wiznerowicz, M, Pantazi, A, Parfenov, M, Thorsson, V, Shmulevich, I, Dhankani, V, Miller, M, Sakai, R, Wang, K, Schultz, N, Shen, R, Arora, A, Weinhold, N, Sanchez-Vega, F, Kelsen, DP, Zhang, J, Felau, I, Demchok, J, Rabkin, CS, Camargo, MC, Zenklusen, JC, Bowen, J, Leraas, K, Lichtenberg, TM, Curtis, C, Seoane, JA, Ojesina, AI, Beer, DG, Gulley, ML, Pennathur, A, Luketich, JD, Zhou, Z, Weisenberger, DJ, Akbani, R, Lee, J-S, Liu, W, Mills, GB, Zhang, W, Reid, BJ, Hinoue, T, Laird, PW, Shen, H, Piazuelo, MB, Schneider, BG, McLellan, M, Taylor-Weiner, A, Lawrence, M, Cibulskis, K, Stewart, C, Getz, G, Lander, E, Gabriel, SB, Ding, L, McLellan, MD, Miller, CA, Appelbaum, EL, Cordes, MG, Fronick, CC, Fulton, LA, Mardis, ER, Wilson, RK, Schmidt, HK, Fulton, RS, Ally, A, Balasundaram, M, Carlsen, R, Chuah, E, Dhalla, N, Holt, RA, Jones, SJM, Kasaian, K, Brooks, D, Li, HI, Ma, Y, Marra, MA, Mayo, M, Moore, RA, Mungall, KL, Schein, JE, Sipahimalani, P, Tam, A, Thiessen, N, Wong, T, Beroukhim, R, Bullman, S, Murray, BA, Saksena, G, Schumacher, SE, Gabriel, S, Meyerson, M, Hadjipanayis, A, Kucherlapati, R, Ren, X, Park, PJ, Lee, S, Kucherlapati, M, Yang, L, Baylin, SB, Hoadley, KA, Bootwalla, MS, Lai, PH, Van den Berg, DJ, Berrios, M, Holbrook, A, Hwang, J-E, Jang, H-J, Weinstein, JN, Lu, Y, Sohn, BH, Mills, G, Seth, S, Protopopov, A, Bristow, CA, Mahadeshwar, HS, Tang, J, Song, X, Cho, J, Defrietas, T, Frazer, S, Gehlenborg, N, Heiman, DI, Lawrence, MS, Lin, P, Noble, MS, Doug, V, Zhang, H, Polak, P, Chin, L, Bernard, B, Iype, L, Reynolds, SM, Abeshouse, A, Armenia, J, Kundra, R, Ladanyi, M, Kjong-Van, L, Gao, J, Sander, C, Chakravarty, D, Radenbaugh, A, Hegde, A, Penny, R, Crain, D, Gardner, J, Curley, E, Mallery, D, Morris, S, Paulauskis, J, Shelton, T, Shelton, C, Frick, J, Gastier-Foster, JM, Gerken, M, Leraas, KM, Ramirez, NC, Wise, L, Zmuda, E, Tarvin, K, Saller, C, Park, YS, Button, M, Carvalho, AL, Reis, RM, Matsushita, MM, Lucchesi, F, de Oliveira, AT, Le, X, Paklina, O, Setdikova, G, Lee, J-H, Bennett, J, Iacocca, M, Huelsenbeck-Dill, L, Potapova, CO, Voronina, O, Liu, O, Fulidou, V, Cates, C, Sharp, A, Behera, M, Force, S, Khuri, F, Owonikoko, T, Pickens, A, Ramalingam, S, Sica, G, Dinjens, W, van Nistelrooij, A, Wijnhoven, B, Sandusky, G, Stepa, S, Juhl, IH, Zornig, C, Kwon, SY, Kelsen, D, Kim, GHK, Bartlett, J, Parfitt, J, Chetty, R, Darling, G, Knox, J, Wong, R, El-Zimaity, H, Liu, G, Boussioutas, A, Park, DY, Kemp, R, Carlotti, CG, da Cunha Tirapelli, DP, Saggioro, FP, Sankarankutty, AK, Noushmehr, H, dos Santos, JS, Trevisan, FA, Eschbacher, J, Dubina, M, Mozgovoy, E, Carey, F, Chalmers, S, Forgie, I, Godwin, A, Reilly, C, Madan, R, Naima, Z, Ferrer-Torres, D, Rathmell, WK, Dhir, R, Luketich, J, Ajani, JA, Janjigian, Y, Tang, L, Cheong, J-H, Chudamani, S, Liu, J, Lolla, L, Naresh, R, Pihl, T, Sun, Q, Wan, Y, Wu, Y, Demchok, JA, Ferguson, ML, Shaw, KRM, sheth, M, Tarnuzzer, R, Wang, Z, Hutter, CM, Sofia, HJ, Kim, J, Bowlby, R, Mungall, AJ, Robertson, AG, Odze, RD, Cherniack, AD, Shih, J, Pedamallu, CS, Cibulskis, C, Dunford, A, Meier, SR, Raphael, BJ, Wu, H-T, Wong, AM, Willis, JE, Bass, AJ, Derks, S, Garman, K, McCall, SJ, Wiznerowicz, M, Pantazi, A, Parfenov, M, Thorsson, V, Shmulevich, I, Dhankani, V, Miller, M, Sakai, R, Wang, K, Schultz, N, Shen, R, Arora, A, Weinhold, N, Sanchez-Vega, F, Kelsen, DP, Zhang, J, Felau, I, Demchok, J, Rabkin, CS, Camargo, MC, Zenklusen, JC, Bowen, J, Leraas, K, Lichtenberg, TM, Curtis, C, Seoane, JA, Ojesina, AI, Beer, DG, Gulley, ML, Pennathur, A, Luketich, JD, Zhou, Z, Weisenberger, DJ, Akbani, R, Lee, J-S, Liu, W, Mills, GB, Zhang, W, Reid, BJ, Hinoue, T, Laird, PW, Shen, H, Piazuelo, MB, Schneider, BG, McLellan, M, Taylor-Weiner, A, Lawrence, M, Cibulskis, K, Stewart, C, Getz, G, Lander, E, Gabriel, SB, Ding, L, McLellan, MD, Miller, CA, Appelbaum, EL, Cordes, MG, Fronick, CC, Fulton, LA, Mardis, ER, Wilson, RK, Schmidt, HK, Fulton, RS, Ally, A, Balasundaram, M, Carlsen, R, Chuah, E, Dhalla, N, Holt, RA, Jones, SJM, Kasaian, K, Brooks, D, Li, HI, Ma, Y, Marra, MA, Mayo, M, Moore, RA, Mungall, KL, Schein, JE, Sipahimalani, P, Tam, A, Thiessen, N, Wong, T, Beroukhim, R, Bullman, S, Murray, BA, Saksena, G, Schumacher, SE, Gabriel, S, Meyerson, M, Hadjipanayis, A, Kucherlapati, R, Ren, X, Park, PJ, Lee, S, Kucherlapati, M, Yang, L, Baylin, SB, Hoadley, KA, Bootwalla, MS, Lai, PH, Van den Berg, DJ, Berrios, M, Holbrook, A, Hwang, J-E, Jang, H-J, Weinstein, JN, Lu, Y, Sohn, BH, Mills, G, Seth, S, Protopopov, A, Bristow, CA, Mahadeshwar, HS, Tang, J, Song, X, Cho, J, Defrietas, T, Frazer, S, Gehlenborg, N, Heiman, DI, Lawrence, MS, Lin, P, Noble, MS, Doug, V, Zhang, H, Polak, P, Chin, L, Bernard, B, Iype, L, Reynolds, SM, Abeshouse, A, Armenia, J, Kundra, R, Ladanyi, M, Kjong-Van, L, Gao, J, Sander, C, Chakravarty, D, Radenbaugh, A, Hegde, A, Penny, R, Crain, D, Gardner, J, Curley, E, Mallery, D, Morris, S, Paulauskis, J, Shelton, T, Shelton, C, Frick, J, Gastier-Foster, JM, Gerken, M, Leraas, KM, Ramirez, NC, Wise, L, Zmuda, E, Tarvin, K, Saller, C, Park, YS, Button, M, Carvalho, AL, Reis, RM, Matsushita, MM, Lucchesi, F, de Oliveira, AT, Le, X, Paklina, O, Setdikova, G, Lee, J-H, Bennett, J, Iacocca, M, Huelsenbeck-Dill, L, Potapova, CO, Voronina, O, Liu, O, Fulidou, V, Cates, C, Sharp, A, Behera, M, Force, S, Khuri, F, Owonikoko, T, Pickens, A, Ramalingam, S, Sica, G, Dinjens, W, van Nistelrooij, A, Wijnhoven, B, Sandusky, G, Stepa, S, Juhl, IH, Zornig, C, Kwon, SY, Kelsen, D, Kim, GHK, Bartlett, J, Parfitt, J, Chetty, R, Darling, G, Knox, J, Wong, R, El-Zimaity, H, Liu, G, Boussioutas, A, Park, DY, Kemp, R, Carlotti, CG, da Cunha Tirapelli, DP, Saggioro, FP, Sankarankutty, AK, Noushmehr, H, dos Santos, JS, Trevisan, FA, Eschbacher, J, Dubina, M, Mozgovoy, E, Carey, F, Chalmers, S, Forgie, I, Godwin, A, Reilly, C, Madan, R, Naima, Z, Ferrer-Torres, D, Rathmell, WK, Dhir, R, Luketich, J, Ajani, JA, Janjigian, Y, Tang, L, Cheong, J-H, Chudamani, S, Liu, J, Lolla, L, Naresh, R, Pihl, T, Sun, Q, Wan, Y, Wu, Y, Demchok, JA, Ferguson, ML, Shaw, KRM, sheth, M, Tarnuzzer, R, Wang, Z, Hutter, CM, and Sofia, HJ

Abstract

Oesophageal cancers are prominent worldwide; however, there are few targeted therapies and survival rates for these cancers remain dismal. Here we performed a comprehensive molecular analysis of 164 carcinomas of the oesophagus derived from Western and Eastern populations. Beyond known histopathological and epidemiologic distinctions, molecular features differentiated oesophageal squamous cell carcinomas from oesophageal adenocarcinomas. Oesophageal squamous cell carcinomas resembled squamous carcinomas of other organs more than they did oesophageal adenocarcinomas. Our analyses identified three molecular subclasses of oesophageal squamous cell carcinomas, but none showed evidence for an aetiological role of human papillomavirus. Squamous cell carcinomas showed frequent genomic amplifications of CCND1 and SOX2 and/or TP63, whereas ERBB2, VEGFA and GATA4 and GATA6 were more commonly amplified in adenocarcinomas. Oesophageal adenocarcinomas strongly resembled the chromosomally unstable variant of gastric adenocarcinoma, suggesting that these cancers could be considered a single disease entity. However, some molecular features, including DNA hypermethylation, occurred disproportionally in oesophageal adenocarcinomas. These data provide a framework to facilitate more rational categorization of these tumours and a foundation for new therapies.

Published

2017

9. Comprehensive genomic characterization of head and neck squamous cell carcinomas

Author

Lawrence, MS, Sougnez, C, Lichtenstein, L, Cibulskis, K, Lander, E, Gabriel, SB, Getz, G, Ally, A, Balasundaram, M, Birol, I, Bowlby, R, Brooks, D, Butterfield, YSN, Carlsen, R, Cheng, D, Chu, A, Dhalla, N, Guin, R, Holt, RA, Jones, SJM, Lee, D, Li, HI, Marra, MA, Mayo, M, Moore, RA, Mungall, AJ, Robertson, AG, Schein, JE, Sipahimalani, P, Tam, A, Thiessen, N, Wong, T, Protopopov, A, Santoso, N, Lee, S, Parfenov, M, Zhang, J, Mahadeshwar, HS, Tang, J, Ren, X, Seth, S, Haseley, P, Zeng, D, Yang, L, Xu, AW, Song, X, Pantazi, A, Bristow, CA, Hadjipanayis, A, Seidman, J, Chin, L, Park, PJ, Kucherlapati, R, Akbani, R, Casasent, T, Liu, W, Lu, Y, Mills, G, Motter, T, Weinstein, J, Diao, L, Wang, J, Hong Fan, Y, Liu, J, Wang, K, Auman, JT, Balu, S, Bodenheimer, T, Buda, E, Hayes, DN, Hoadley, KA, Hoyle, AP, Jefferys, SR, Jones, CD, Kimes, PK, Liu, Y, Marron, JS, Meng, S, Mieczkowski, PA, Mose, LE, Parker, JS, Perou, CM, Prins, JF, Roach, J, Shi, Y, Simons, JV, Singh, D, Soloway, MG, Tan, D, Veluvolu, U, Walter, V, Waring, S, Wilkerson, MD, and Wu, J

Abstract

© 2015 Macmillan Publishers Limited. All rights reserved. The Cancer Genome Atlas profiled 279 head and neck squamous cell carcinomas (HNSCCs) to provide a comprehensive landscape of somatic genomic alterations. Here we show that human-papillomavirus-associated tumours are dominated by helical domain mutations of the oncogene PIK3CA, novel alterations involving loss of TRAF3, and amplification of the cell cycle gene E2F1. Smoking-related HNSCCs demonstrate near universal loss-of-function TP53 mutations and CDKN2A inactivation with frequent copy number alterations including amplification of 3q26/28 and 11q13/22. A subgroup of oral cavity tumours with favourable clinical outcomes displayed infrequent copy number alterations in conjunction with activating mutations of HRAS or PIK3CA, coupled with inactivating mutations of CASP8, NOTCH1 and TP53. Other distinct subgroups contained loss-of-function alterations of the chromatin modifier NSD1, WNT pathway genes AJUBA and FAT1, and activation of oxidative stress factor NFE2L2, mainly in laryngeal tumours. Therapeutic candidate alterations were identified in most HNSCCs.

Published

2015

10. Integrated genomic characterization of endometrial carcinoma

Author

Getz, G, Gabriel, SB, Cibulskis, K, Lander, E, Sivachenko, A, Sougnez, C, Lawrence, M, Kandoth, C, Dooling, D, Fulton, R, Fulton, L, Kalicki-Veizer, J, McLellan, MD, O'Laughlin, M, Schmidt, H, Wilson, RK, Ye, K, Li, D, Ally, A, Balasundaram, M, Birol, I, Butterfield, YSN, Carlsen, R, Carter, C, Chu, A, Chuah, E, Chun, HJE, Dhalla, N, Guin, R, Hirst, C, Holt, RA, Jones, SJM, Lee, D, Li, HI, Marra, MA, Mayo, M, Moore, RA, Mungall, AJ, Plettner, P, Schein, JE, Sipahimalani, P, Tam, A, Varhol, RJ, Gordon Robertson, A, Cherniack, AD, Pashtan, I, Saksena, G, Onofrio, RC, Schumacher, SE, Tabak, B, Carter, SL, Hernandez, B, Gentry, J, Salvesen, HB, Ardlie, K, Winckler, W, Beroukhim, R, Meyerson, M, Hadjipanayis, A, Lee, S, Mahadeshwar, HS, Park, P, Protopopov, A, Ren, X, Seth, S, Song, X, Tang, J, Xi, R, Yang, L, Dong, Z, Kucherlapati, R, Chin, L, Zhang, J, Todd Auman, J, Balu, S, Bodenheimer, T, Buda, E, Neil Hayes, D, Hoyle, AP, Jefferys, SR, Jones, CD, Meng, S, Mieczkowski, PA, Mose, LE, Parker, JS, and Perou, CM

Subjects

endocrine system diseases

Abstract

We performed an integrated genomic, transcriptomic and proteomic characterization of 373 endometrial carcinomas using array-and sequencing-based technologies. Uterine serous tumours and ∼25% of high-grade endometrioid tumours had extensive copy number alterations, few DNA methylation changes, low oestrogen receptor/progesterone receptor levels, and frequent TP53 mutations. Most endometrioid tumours had few copy number alterations or TP53 mutations, but frequent mutations in PTEN, CTNNB1, PIK3CA, ARID1A and KRAS and novel mutations in the SWI/SNF chromatin remodelling complex gene ARID5B. A subset of endometrioid tumours that we identified had a markedly increased transversion mutation frequency and newly identified hotspot mutations in POLE. Our results classified endometrial cancers into four categories: POLE ultramutated, microsatellite instability hypermutated, copy-number low, and copy-number high. Uterine serous carcinomas share genomic features with ovarian serous and basal-like breast carcinomas. We demonstrated that the genomic features of endometrial carcinomas permit a reclassification that may affect post-surgical adjuvant treatment for women with aggressive tumours. © 2013 Macmillan Publishers Limited. All rights reserved.

Published

2013

11. Comprehensive molecular characterization of gastric adenocarcinoma

Author

Bass, AJ, Thorsson, V, Shmulevich, I, Reynolds, SM, Miller, M, Bernard, B, Hinoue, T, Laird, PW, Curtis, C, Shen, H, Weisenberger, DJ, Schultz, N, Shen, R, Weinhold, N, Keiser, DP, Bowlby, R, Sipahimalani, P, Cherniack, AD, Getz, G, Liu, Y, Noble, MS, Pedamallu, C, Sougnez, C, Taylor-Weiner, A, Akbani, R, Lee, J-S, Liu, W, Mills, GB, Yang, D, Zhang, W, Pantazi, A, Parfenov, M, Gulley, M, Piazuelo, MB, Schneider, BG, Kim, J, Boussioutas, A, Sheth, M, Demchok, JA, Rabkin, CS, Willis, JE, Ng, S, Garman, K, Beer, DG, Pennathur, A, Raphael, BJ, Wu, H-T, Odze, R, Kim, HK, Bowen, J, Leraas, KM, Lichtenberg, TM, Weaver, L, McLellan, M, Wiznerowicz, M, Sakai, R, Lawrence, MS, Cibulskis, K, Lichtenstein, L, Fisher, S, Gabriel, SB, Lander, ES, Ding, L, Niu, B, Ally, A, Balasundaram, M, Birol, I, Brooks, D, Butterfield, YSN, Carlsen, R, Chu, A, Chu, J, Chuah, E, Chun, H-JE, Clarke, A, Dhalla, N, Guin, R, Holt, RA, Jones, SJM, Kasaian, K, Lee, D, Li, HA, Lim, E, Ma, Y, Marra, MA, Mayo, M, Moore, RA, Mungall, AJ, Mungall, KL, Nip, KM, Robertson, AG, Schein, JE, Tam, A, Thiessen, N, Beroukhim, R, Carter, SL, Cho, J, DiCara, D, Frazer, S, Gehlenborg, N, Heiman, DI, Jung, J, Lin, P, Meyerson, M, Ojesina, AI, Pedamallu, CS, Saksena, G, Schumacher, SE, Stojanov, P, Tabak, B, Voet, D, Rosenberg, M, Zack, TI, Zhang, H, Zou, L, Protopopov, A, Santoso, N, Lee, S, Zhang, J, Mahadeshwar, HS, Tang, J, Ren, X, Seth, S, Yang, L, Xu, AW, Song, X, Xi, R, Bristow, CA, Hadjipanayis, A, Seidman, J, Chin, L, Park, PJ, Kucherlapati, R, Ling, S, Rao, A, Weinstein, JN, Kim, S-B, Lu, Y, Mills, G, Bootwalla, MS, Lai, PH, Triche, T, Van Den Berg, DJ, Baylin, SB, Herman, JG, Murray, BA, Askoy, BA, Ciriello, G, Dresdner, G, Gao, J, Gross, B, Jacobsen, A, Lee, W, Ramirez, R, Sander, C, Senbabaoglu, Y, Sinha, R, Sumer, SO, Sun, Y, Iype, L, Kramer, RW, Kreisberg, R, Rovira, H, Tasman, N, Haussler, D, Stuart, JM, Verhaak, RGW, Leiserson, MDM, Taylor, BS, Black, AD, Carney, JA, Gastier-Foster, JM, Helsel, C, McAllister, C, Ramirez, NC, Tabler, TR, Wise, L, Zmuda, E, Penny, R, Crain, D, Gardner, J, Lau, K, Curely, E, Mallery, D, Morris, S, Paulauskis, J, Shelton, T, Shelton, C, Sherman, M, Benz, C, Lee, J-H, Fedosenko, K, Manikhas, G, Voronina, O, Belyaev, D, Dolzhansky, O, Rathmell, WK, Brzezinski, J, Ibbs, M, Korski, K, Kycler, W, Lazniak, R, Leporowska, E, Mackiewicz, A, Murawa, D, Murawa, P, Spychala, A, Suchorska, WM, Tatka, H, Teresiak, M, Abdel-Misih, R, Bennett, J, Brown, J, Iacocca, M, Rabeno, B, Kwon, S-Y, Kemkes, A, Curley, E, Alexopoulou, I, Engel, J, Bartlett, J, Albert, M, Park, D-Y, Dhir, R, Luketich, J, Landreneau, R, Janjigian, YY, Kelsen, DP, Cho, E, Ladanyi, M, Tang, L, McCall, SJ, Park, YS, Cheong, J-H, Ajani, J, Camargo, MC, Alonso, S, Ayala, B, Jensen, MA, Pihl, T, Raman, R, Walton, J, Wan, Y, Eley, G, Shaw, KRM, Tarnuzzer, R, Wang, Z, Zenklusen, JC, Davidsen, T, Hutter, CM, Sofia, HJ, Burton, R, Chudamani, S, Liu, J, Bass, AJ, Thorsson, V, Shmulevich, I, Reynolds, SM, Miller, M, Bernard, B, Hinoue, T, Laird, PW, Curtis, C, Shen, H, Weisenberger, DJ, Schultz, N, Shen, R, Weinhold, N, Keiser, DP, Bowlby, R, Sipahimalani, P, Cherniack, AD, Getz, G, Liu, Y, Noble, MS, Pedamallu, C, Sougnez, C, Taylor-Weiner, A, Akbani, R, Lee, J-S, Liu, W, Mills, GB, Yang, D, Zhang, W, Pantazi, A, Parfenov, M, Gulley, M, Piazuelo, MB, Schneider, BG, Kim, J, Boussioutas, A, Sheth, M, Demchok, JA, Rabkin, CS, Willis, JE, Ng, S, Garman, K, Beer, DG, Pennathur, A, Raphael, BJ, Wu, H-T, Odze, R, Kim, HK, Bowen, J, Leraas, KM, Lichtenberg, TM, Weaver, L, McLellan, M, Wiznerowicz, M, Sakai, R, Lawrence, MS, Cibulskis, K, Lichtenstein, L, Fisher, S, Gabriel, SB, Lander, ES, Ding, L, Niu, B, Ally, A, Balasundaram, M, Birol, I, Brooks, D, Butterfield, YSN, Carlsen, R, Chu, A, Chu, J, Chuah, E, Chun, H-JE, Clarke, A, Dhalla, N, Guin, R, Holt, RA, Jones, SJM, Kasaian, K, Lee, D, Li, HA, Lim, E, Ma, Y, Marra, MA, Mayo, M, Moore, RA, Mungall, AJ, Mungall, KL, Nip, KM, Robertson, AG, Schein, JE, Tam, A, Thiessen, N, Beroukhim, R, Carter, SL, Cho, J, DiCara, D, Frazer, S, Gehlenborg, N, Heiman, DI, Jung, J, Lin, P, Meyerson, M, Ojesina, AI, Pedamallu, CS, Saksena, G, Schumacher, SE, Stojanov, P, Tabak, B, Voet, D, Rosenberg, M, Zack, TI, Zhang, H, Zou, L, Protopopov, A, Santoso, N, Lee, S, Zhang, J, Mahadeshwar, HS, Tang, J, Ren, X, Seth, S, Yang, L, Xu, AW, Song, X, Xi, R, Bristow, CA, Hadjipanayis, A, Seidman, J, Chin, L, Park, PJ, Kucherlapati, R, Ling, S, Rao, A, Weinstein, JN, Kim, S-B, Lu, Y, Mills, G, Bootwalla, MS, Lai, PH, Triche, T, Van Den Berg, DJ, Baylin, SB, Herman, JG, Murray, BA, Askoy, BA, Ciriello, G, Dresdner, G, Gao, J, Gross, B, Jacobsen, A, Lee, W, Ramirez, R, Sander, C, Senbabaoglu, Y, Sinha, R, Sumer, SO, Sun, Y, Iype, L, Kramer, RW, Kreisberg, R, Rovira, H, Tasman, N, Haussler, D, Stuart, JM, Verhaak, RGW, Leiserson, MDM, Taylor, BS, Black, AD, Carney, JA, Gastier-Foster, JM, Helsel, C, McAllister, C, Ramirez, NC, Tabler, TR, Wise, L, Zmuda, E, Penny, R, Crain, D, Gardner, J, Lau, K, Curely, E, Mallery, D, Morris, S, Paulauskis, J, Shelton, T, Shelton, C, Sherman, M, Benz, C, Lee, J-H, Fedosenko, K, Manikhas, G, Voronina, O, Belyaev, D, Dolzhansky, O, Rathmell, WK, Brzezinski, J, Ibbs, M, Korski, K, Kycler, W, Lazniak, R, Leporowska, E, Mackiewicz, A, Murawa, D, Murawa, P, Spychala, A, Suchorska, WM, Tatka, H, Teresiak, M, Abdel-Misih, R, Bennett, J, Brown, J, Iacocca, M, Rabeno, B, Kwon, S-Y, Kemkes, A, Curley, E, Alexopoulou, I, Engel, J, Bartlett, J, Albert, M, Park, D-Y, Dhir, R, Luketich, J, Landreneau, R, Janjigian, YY, Kelsen, DP, Cho, E, Ladanyi, M, Tang, L, McCall, SJ, Park, YS, Cheong, J-H, Ajani, J, Camargo, MC, Alonso, S, Ayala, B, Jensen, MA, Pihl, T, Raman, R, Walton, J, Wan, Y, Eley, G, Shaw, KRM, Tarnuzzer, R, Wang, Z, Zenklusen, JC, Davidsen, T, Hutter, CM, Sofia, HJ, Burton, R, Chudamani, S, and Liu, J

Abstract

Gastric cancer is a leading cause of cancer deaths, but analysis of its molecular and clinical characteristics has been complicated by histological and aetiological heterogeneity. Here we describe a comprehensive molecular evaluation of 295 primary gastric adenocarcinomas as part of The Cancer Genome Atlas (TCGA) project. We propose a molecular classification dividing gastric cancer into four subtypes: tumours positive for Epstein-Barr virus, which display recurrent PIK3CA mutations, extreme DNA hypermethylation, and amplification of JAK2, CD274 (also known as PD-L1) and PDCD1LG2 (also known as PD-L2); microsatellite unstable tumours, which show elevated mutation rates, including mutations of genes encoding targetable oncogenic signalling proteins; genomically stable tumours, which are enriched for the diffuse histological variant and mutations of RHOA or fusions involving RHO-family GTPase-activating proteins; and tumours with chromosomal instability, which show marked aneuploidy and focal amplification of receptor tyrosine kinases. Identification of these subtypes provides a roadmap for patient stratification and trials of targeted therapies.

Published

2014

12. Irradiation Creep due to SIPA Under Cascade Damage Conditions

Author

Woo, CH, primary, Garner, FA, additional, and Holt, RA, additional

13. Evolution of Microstructure in Zirconium Alloy Core Components of Nuclear Reactors during Service

Author

Griffiths, M, primary, Chow, PCK, additional, Coleman, CE, additional, Holt, RA, additional, Sagat, S, additional, and Urbanic, VF, additional

14. Zircaloy-2 Pressure Tube Elongation at the Hanford N Reactor

Author

Alexander, WK, primary, Fidleris, V, additional, and Holt, RA, additional

15. Effect of Oxygen on the Deformation of Zircaloy-2 at Elevated Temperatures

Author

Rizkalla, AS, primary, Holt, RA, additional, and Jonas, JJ, additional

16. Variability of In-Reactor Diametral Deformation for Zr-2.5Nb Pressure Tubing

Author

Griffiths, M, primary, Davies, WG, additional, Causey, AR, additional, Moan, GD, additional, Holt, RA, additional, and Aldridge, SA, additional

17. Modelling the Effect of Texture and Dislocation Structure on Irradiation Creep of Zirconium Alloys

Author

Christodoulou, N, primary, Causey, AR, additional, Woo, CH, additional, Tome, CN, additional, Klassen, RJ, additional, and Holt, RA, additional

18. High-Strength, Creep-Resistant Excel Pressure Tubes

Author

Cheadle, BA, primary, Holt, RA, additional, Fidleris, V, additional, Causey, AR, additional, and Urbanic, VF, additional

19. Dislocation Substructure in Zirconium Alloys Irradiated in EBR-II

Author

Holt, RA, primary, Gilbert, RW, additional, and Fidleris, V, additional

20. Non-Linear Irradiation Growth of Cold-Worked Zircaloy-2

Author

Holt, RA, primary, Causey, AR, additional, Christodoulou, N, additional, Griffiths, M, additional, Ho, ETC, additional, and Woo, CH, additional

21. Irradiation-Enhanced Deformation of Zr-2.5Nb Tubes at High Neutron Fluences

Author

Causey, AR, primary, Holt, RA, additional, Christodoulou, N, additional, and Ho, ETC, additional

22. On the Anisotropy of In-Reactor Creep of Zr-2.5Nb Tubes

Author

Causey, AR, primary, Elder, JE, additional, Holt, RA, additional, and Fleck, RG, additional

23. The Effect of Temperature on the Irradiation Growth of Cold-Worked Zr-2.5 Nb

Author

Holt, RA, primary and Fleck, RG, additional

24. Variability of Irradiation Growth in Zr-2.5Nb Pressure Tubes

Author

Fleck, RG, primary, Elder, JE, additional, Causey, AR, additional, and Holt, RA, additional

25. In-Reactor Creep of Zr-2.5Nb

Author

Causey, AR, primary, Holt, RA, additional, and MacEwen, SR, additional

26. Predicting High-Temperature Transient Deformation from Microstructural Models

Author

Sills, HE, primary and Holt, RA, additional

27. Flow Stress of Oxygen-Enriched Zircaloy-2 Between 1023 and 1873 K

Author

Choubey, R, primary, Jonas, JJ, additional, Holt, RA, additional, and Ells, CE, additional

28. High-Fluence Irradiation Growth of Cold-Worked Zr-2.5Nb

Author

Holt, RA, primary, Causey, AR, additional, Griffiths, M, additional, and Ho, ETC, additional

29. Temporal and spatial evolution of hypocentres and anisotropy from the Darfield aftershock sequence: implications for fault geometry and age

Author

Syracuse, EM, primary, Holt, RA, additional, Savage, MK, additional, Johnson, JH, additional, Thurber, CH, additional, Unglert, K, additional, Allan, KN, additional, Karaliyadda, S, additional, and Henderson, M, additional

Published

2012

30. Water-born transmission of Dermocystidtum salmonis in the laboratory

Author

Olson, RE, primary, Dungan, CF, additional, and Holt, RA, additional

Published

1992

31. Is lithium-induced weight gain prevented by providing healthy eating advice at the commencement of lithium therapy?

Author

Holt RA and Maunder EMW

Published

1996

32. Spiral swimming behavior due to cranial and vertebral lesions associated with Cytophaga psychrophila infections in salmonid fishes

Author

Kent, ML, primary, Groff, JM, additional, Morrison, JK, additional, Yasutake, WT, additional, and Holt, RA, additional

Published

1989

33. Cytophaga sp. (Cytophagales) infection in seawater pen-reared Atlantic salmon Salmo salar

Author

Kent, ML, primary, Dungan, CF, additional, Elston, RA, additional, and Holt, RA, additional

Published

1988

34. Feedback. Apocalyptic fantasy.

Author

Holt RA

Published

2008

35. Letters.

Author

Wilcoxin-Rogers W, Holt RA, Cruz NJ, Ebner D, and Huggins D

Published

1978

36. A synthetic cytotoxic T cell platform for rapidly prototyping TCR function.

Author

Sharma G, Round J, Teng F, Ali Z, May C, Yung E, and Holt RA

Abstract

Current tools for functionally profiling T cell receptors with respect to cytotoxic potency and cross-reactivity are hampered by difficulties in establishing model systems to test these proteins in the contexts of different HLA alleles and against broad arrays of potential antigens. We have implemented a granzyme-activatable sensor of T cell cytotoxicity in a universal prototyping platform which enables facile recombinant expression of any combination of TCR-, peptide-, and class I MHC-coding sequences and direct assessment of resultant responses. This system consists of an engineered cell platform based on the immortalized natural killer cell line, YT-Indy, and the MHC-null antigen-presenting cell line, K562. These cells were engineered to furnish the YT-Indy/K562 pair with appropriate protein domains required for recombinant TCR expression and function in a non-T cell chassis, integrate a fluorescence-based target-centric early detection reporter of cytotoxic function, and deploy a set of protective genetic interventions designed to preserve antigen-presenting cells for subsequent capture and downstream characterization. Our data show successful reconstitution of the surface TCR complex in the YT-Indy cell line at biologically relevant levels. We also demonstrate successful induction and highly sensitive detection of antigen-specific response in multiple distinct model TCRs. Additionally, we monitored destruction of targets in co-culture and found that our survival-optimized system allowed for complete preservation after 24 h exposure to cytotoxic effectors. With this bioplatform, we anticipate investigators will be empowered to rapidly express and characterize T cell receptor responses, generate knowledge regarding the patterns of T cell receptor recognition, and optimize therapeutic T cell receptors., (© 2024. The Author(s).)

Published

2024

37. Direct in vivo CAR T cell engineering.

Author

Short L, Holt RA, Cullis PR, and Evgin L

Subjects

Humans, Animals, Cell Engineering methods, Receptors, Antigen, T-Cell immunology, Neoplasms therapy, Neoplasms immunology, T-Lymphocytes immunology, Receptors, Chimeric Antigen immunology, Immunotherapy, Adoptive methods

Abstract

T cells modified to express intelligently designed chimeric antigen receptors (CARs) are exceptionally powerful therapeutic agents for relapsed and refractory blood cancers and have the potential to revolutionize therapy for many other diseases. To circumvent the complexity and cost associated with broad-scale implementation of ex vivo manufactured adoptive cell therapy products, alternative strategies to generate CAR T cells in vivo by direct infusion of nanoparticle-formulated nucleic acids or engineered viral vectors under development have received a great deal of attention in the past few years. Here, we outline the ex vivo manufacturing process as a motivating framework for direct in vivo strategies and discuss emerging data from preclinical models to highlight the potency of the in vivo approach, the applicability for new disease indications, and the remaining challenges associated with clinical readiness, including delivery specificity, long term efficacy, and safety., Competing Interests: Declaration of interests PRC has financial interests in Acuitas Therapeutics, Mesentech, and NanoVation Therapeutics. LE collaborates with NanoVation Therapeutics and has received material support. RAH and LS do not have any conflicts to disclose., (Copyright © 2024 The Authors. Published by Elsevier Ltd.. All rights reserved.)

Published

2024

38. Immune checkpoint therapy responders display early clonal expansion of tumor infiltrating lymphocytes.

Author

Kidman J, Zemek RM, Sidhom JW, Correa D, Principe N, Sheikh F, Fear VS, Forbes CA, Chopra A, Boon L, Zaitouny A, de Jong E, Holt RA, Jones M, Millward MJ, Lassmann T, Forrest ARR, Nowak AK, Watson M, Lake RA, Lesterhuis WJ, and Chee J

Subjects

Animals, Mice, CD8-Positive T-Lymphocytes immunology, CD8-Positive T-Lymphocytes drug effects, CD8-Positive T-Lymphocytes metabolism, Humans, Mice, Inbred C57BL, Female, Immune Checkpoint Inhibitors pharmacology, Immune Checkpoint Inhibitors therapeutic use, Receptors, Antigen, T-Cell, alpha-beta genetics, Receptors, Antigen, T-Cell, alpha-beta metabolism, Lymphocytes, Tumor-Infiltrating immunology, Lymphocytes, Tumor-Infiltrating drug effects, Lymphocytes, Tumor-Infiltrating metabolism

Abstract

Immune checkpoint therapy (ICT) causes durable tumour responses in a subgroup of patients, but it is not well known how T cell receptor beta (TCRβ) repertoire dynamics contribute to the therapeutic response. Using murine models that exclude variation in host genetics, environmental factors and tumour mutation burden, limiting variation between animals to naturally diverse TCRβ repertoires, we applied TCRseq, single cell RNAseq and flow cytometry to study TCRβ repertoire dynamics in ICT responders and non-responders. Increased oligoclonal expansion of TCRβ clonotypes was observed in responding tumours. Machine learning identified TCRβ CDR3 signatures unique to each tumour model, and signatures associated with ICT response at various timepoints before or during ICT. Clonally expanded CD8+ T cells in responding tumours post ICT displayed effector T cell gene signatures and phenotype. An early burst of clonal expansion during ICT is associated with response, and we report unique dynamics in TCRβ signatures associated with ICT response., Competing Interests: LB is employed by the company JJP Biologics. WJL received research funding from Douglas Pharmaceuticals, AstraZeneca, ENA therapeutics, consultancy for Douglas Pharmaceuticals and MSD. AN is on the advisory board of Boehringer Ingelheim, Bayer, Roche, BMS; and received research funding from AstraZeneca. The remaining authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest., (© 2024 The Author(s). Published with license by Taylor & Francis Group, LLC.)

Published

2024

39. Discovery and preclinical development of a therapeutically active nanobody-based chimeric antigen receptor targeting human CD22.

Author

McComb S, Arbabi-Ghahroudi M, Hay KA, Keller BA, Faulkes S, Rutherford M, Nguyen T, Shepherd A, Wu C, Marcil A, Aubry A, Hussack G, Pinto DM, Ryan S, Raphael S, van Faassen H, Zafer A, Zhu Q, Maclean S, Chattopadhyay A, Gurnani K, Gilbert R, Gadoury C, Iqbal U, Fatehi D, Jezierski A, Huang J, Pon RA, Sigrist M, Holt RA, Nelson BH, Atkins H, Kekre N, Yung E, Webb J, Nielsen JS, and Weeratna RD

Abstract

Chimeric antigen receptor (CAR) T cell therapies targeting B cell-restricted antigens CD19, CD20, or CD22 can produce potent clinical responses for some B cell malignancies, but relapse remains common. Camelid single-domain antibodies (sdAbs or nanobodies) are smaller, simpler, and easier to recombine than single-chain variable fragments (scFvs) used in most CARs, but fewer sdAb-CARs have been reported. Thus, we sought to identify a therapeutically active sdAb-CAR targeting human CD22. Immunization of an adult Llama glama with CD22 protein, sdAb-cDNA library construction, and phage panning yielded >20 sdAbs with diverse epitope and binding properties. Expressing CD22-sdAb-CAR in Jurkat cells drove varying CD22-specific reactivity not correlated with antibody affinity. Changing CD28- to CD8-transmembrane design increased CAR persistence and expression in vitro . CD22-sdAb-CAR candidates showed similar CD22-dependent CAR-T expansion in vitro, although only membrane-proximal epitope targeting CD22-sdAb-CARs activated direct cytolytic killing and extended survival in a lymphoma xenograft model. Based on enhanced survival in blinded xenograft studies, a lead CD22sdCAR-T was selected, achieving comparable complete responses to a benchmark short linker m971-scFv CAR-T in high-dose experiments. Finally, immunohistochemistry and flow cytometry confirm tissue and cellular-level specificity of the lead CD22-sdAb. This presents a complete report on preclinical development of a novel CD22sdCAR therapeutic., Competing Interests: CD22-nanobody binding elements used in this work were disclosed in provisional patent filing US 2023/0265185 A1 and other provisional filings by the NRC. The authors declare no competing interests., (Crown Copyright © 2024.)

Published

2024

40. A Synthetic Cytotoxic T cell Platform for Rapidly Prototyping TCR Function.

Author

Sharma G, Round J, Teng F, Ali Z, May C, Yung E, and Holt RA

Abstract

Current tools for functionally profiling T cell receptors with respect to cytotoxic potency and cross-reactivity are hampered by difficulties in establishing model systems to test these proteins in the contexts of different HLA alleles and against broad arrays of potential antigens. We have implemented and validated a granzyme-activatable sensor of T cell cytotoxicity in a novel universal prototyping platform which enables facile recombinant expression of any combination of TCR-, peptide-, and class I MHC-coding sequences and direct assessment of resultant responses. This system consists of an engineered cell platform based on the immortalized natural killer cell line, YT-Indy, and the MHC-null antigen-presenting cell line, K562. These cells were engineered using contemporary gene-editing techniques to furnish the YT-Indy/K562 pair with appropriate protein domains required for recombinant TCR expression and function in a non-T cell chassis, integrate a fluorescence-based target-centric early detection reporter of cytotoxic function, and deploy a set of protective genetic interventions designed to preserve antigen-presenting cells for subsequent capture and downstream characterization. Our data show successful reconstitution of the surface TCR complex in the YT-Indy cell line at biologically relevant levels. We also demonstrate successful induction and highly sensitive detection of antigen-specific response in multiple distinct model TCRs, with significant responses (p < 0.05 and Cohen's d >1.9) in all cases. Additionally, we monitored destruction of targets in co-culture and found that our survival-optimized system allowed for complete preservation after 24-hour exposure to cytotoxic effectors. With this bioplatform, we anticipate investigators will be empowered to rapidly express and characterize T cell receptor responses, generate new knowledge regarding the patterns of T cell receptor recognition, and optimize novel therapeutic T cell receptors for improved cytotoxic potential and reduced cross-reactivity to undesired antigenic targets., Competing Interests: Competing interests GS and RAH are named inventors on United States Issued Patent No. 10627411 and Canada Issued Patent No. 2943569, “T cell epitope identification”. GS, JR, CM, RAH are named inventors on United States Provisional Patent Application No. 63/538232, “Methods And Compositions For Performing Granzyme-Based T cell Antigen Profiling In A Fully Recombinant System”. Rights to claims from patents and patent applications mentioned here have been licensed to Immfinity Biotechnologies, Inc, in which GS and JR have financial interests.

Published

2023

41. Behavioral dissection of hunger states in Drosophila .

Author

Weaver KJ, Raju S, Rucker RA, Chakraborty T, Holt RA, and Pletcher SD

Subjects

Animals, Drosophila melanogaster genetics, Motivation, Dopaminergic Neurons, Feeding Behavior physiology, Hunger physiology, Drosophila

Abstract

Hunger is a motivational drive that promotes feeding, and it can be generated by the physiological need to consume nutrients as well as the hedonic properties of food. Brain circuits and mechanisms that regulate feeding have been described, but which of these contribute to the generation of motive forces that drive feeding is unclear. Here, we describe our first efforts at behaviorally and neuronally distinguishing hedonic from homeostatic hunger states in Drosophila melanogaster and propose that this system can be used as a model to dissect the molecular mechanisms that underlie feeding motivation. We visually identify and quantify behaviors exhibited by hungry flies and find that increased feeding duration is a behavioral signature of hedonic feeding motivation. Using a genetically encoded marker of neuronal activity, we find that the mushroom body (MB) lobes are activated by hedonic food environments, and we use optogenetic inhibition to implicate a dopaminergic neuron cluster (protocerebral anterior medial [PAM]) to α'/β' MB circuit in hedonic feeding motivation. The identification of discrete hunger states in flies and the development of behavioral assays to measure them offers a framework to begin dissecting the molecular and circuit mechanisms that generate motivational states in the brain., Competing Interests: KW, SR, RR, TC, RH No competing interests declared, SP is a share holder in the company, Flidea, which has developed technology related to the FLIC feeding system, (© 2023, Weaver et al.)

Published

2023

42. Effects of hunger on neuronal histone modifications slow aging in Drosophila .

Author

Weaver KJ, Holt RA, Henry E, Lyu Y, and Pletcher SD

Subjects

Animals, Histone Code, Aging genetics, Aging metabolism, Amino Acids, Branched-Chain deficiency, Histones metabolism, Hunger physiology, Neurons metabolism, Drosophila melanogaster genetics, Drosophila melanogaster metabolism

Abstract

Hunger is an ancient drive, yet the molecular nature of pressures of this sort and how they modulate physiology are unknown. We find that hunger modulates aging in Drosophila . Limitation of branched-chain amino acids (BCAAs) or activation of hunger-promoting neurons induced a hunger state that extended life span despite increased feeding. Alteration of the neuronal histone acetylome was associated with BCAA limitation, and preventing these alterations abrogated the effect of BCAA limitation to increase feeding and extend life span. Hunger acutely increased feeding through usage of the histone variant H3.3, whereas prolonged hunger seemed to decrease a hunger set point, resulting in beneficial consequences for aging. Demonstration of the sufficiency of hunger to extend life span reveals that motivational states alone can be deterministic drivers of aging.

Published

2023

43. Complete sequence verification of plasmid DNA using the Oxford Nanopore Technologies' MinION device.

Author

Brown SD, Dreolini L, Wilson JF, Balasundaram M, and Holt RA

Subjects

Sequence Analysis, DNA methods, Plasmids genetics, DNA, High-Throughput Nucleotide Sequencing methods, Nanopores

Abstract

Background: Sequence verification is essential for plasmids used as critical reagents or therapeutic products. Typically, high-quality plasmid sequence is achieved through capillary-based Sanger sequencing, requiring customized sets of primers for each plasmid. This process can become expensive, particularly for applications where the validated sequence needs to be produced within a regulated and quality-controlled environment for downstream clinical research applications., Results: Here, we describe a cost-effective and accurate plasmid sequencing and consensus generation procedure using the Oxford Nanopore Technologies' MinION device as an alternative to capillary-based plasmid sequencing options. This procedure can verify the identity of a pure population of plasmid, either confirming it matches the known and expected sequence, or identifying mutations present in the plasmid if any exist. We use a full MinION flow cell per plasmid, maximizing available data and allowing for stringent quality filters. Pseudopairing reads for consensus base calling reduces read error rates from 5.3 to 0.53%, and our pileup consensus approach provides per-base counts and confidence scores, allowing for interpretation of the certainty of the resulting consensus sequences. For pure plasmid samples, we demonstrate 100% accuracy in the resulting consensus sequence, and the sensitivity to detect small mutations such as insertions, deletions, and single nucleotide variants. In test cases where the sequenced pool of plasmids contains subclonal templates, detection sensitivity is similar to that of traditional capillary sequencing., Conclusions: Our pipeline can provide significant cost savings compared to outsourcing clinical-grade sequencing of plasmids, making generation of high-quality plasmid sequence for clinical sequence verification more accessible. While other long-read-based methods offer higher-throughput and less cost, our pipeline produces complete and accurate sequence verification for cases where absolute sequence accuracy is required., (© 2023. The Author(s).)

Published

2023

44. Immune Activation following Irbesartan Treatment in a Colorectal Cancer Patient: A Case Study.

Author

Titmuss E, Milne K, Jones MR, Ng T, Topham JT, Brown SD, Schaeffer DF, Kalloger S, Wilson D, Corbett RD, Williamson LM, Mungall K, Mungall AJ, Holt RA, Nelson BH, Jones SJM, Laskin J, Lim HJ, and Marra MA

Subjects

Humans, Irbesartan therapeutic use, CD8-Positive T-Lymphocytes pathology, Antihypertensive Agents therapeutic use, Colorectal Neoplasms drug therapy, Colorectal Neoplasms genetics, Colorectal Neoplasms pathology

Abstract

Colorectal cancers are one of the most prevalent tumour types worldwide and, despite the emergence of targeted and biologic therapies, have among the highest mortality rates. The Personalized OncoGenomics (POG) program at BC Cancer performs whole genome and transcriptome analysis (WGTA) to identify specific alterations in an individual's cancer that may be most effectively targeted. Informed using WGTA, a patient with advanced mismatch repair-deficient colorectal cancer was treated with the antihypertensive drug irbesartan and experienced a profound and durable response. We describe the subsequent relapse of this patient and potential mechanisms of response using WGTA and multiplex immunohistochemistry (m-IHC) profiling of biopsies before and after treatment from the same metastatic site of the L3 spine. We did not observe marked differences in the genomic landscape before and after treatment. Analyses revealed an increase in immune signalling and infiltrating immune cells, particularly CD8+ T cells, in the relapsed tumour. These results indicate that the observed anti-tumour response to irbesartan may have been due to an activated immune response. Determining whether there may be other cancer contexts in which irbesartan may be similarly valuable will require additional studies.

Published

2023

45. Oncomicrobial vaccines: The potential for a Fusobacterium nucleatum vaccine to improve colorectal cancer outcomes.

Author

Holt RA

Subjects

Humans, Fusobacterium nucleatum, Colorectal Neoplasms microbiology, Fusobacterium Infections microbiology, Vaccines

Abstract

There is increasing awareness of the many different ways host-microbe interactions relate to cancer initiation and progression. Vaccines designed to drive immune responses against key tumor-promoting mechanisms of oncomicrobes like F. nucleatum may provide novel and effective interventions against colorectal cancer and other diseases., Competing Interests: Declaration of interests R.A.H. is working on developing F. nucleatum vaccines with potential for institutional patent filings., (Copyright © 2022. Published by Elsevier Inc.)

Published

2023

46. CLIC-01: Manufacture and distribution of non-cryopreserved CAR-T cells for patients with CD19 positive hematologic malignancies.

Author

Kekre N, Hay KA, Webb JR, Mallick R, Balasundaram M, Sigrist MK, Clement AM, Nielsen JS, Quizi J, Yung E, Brown SD, Dreolini L, Waller DD, Smazynski J, Gierc NS, Loveless BC, Clark K, Dyer T, Hogg R, McCormick L, Gignac M, Bell S, Chapman DM, Bond D, Yong S, Fung R, Lockyer HM, Hodgson V, Murphy C, Subramanian A, Wiebe E, Yoganathan P, Medynski L, Vaillan DC, Black A, McDiarmid S, Kennah M, Hamelin L, Song K, Narayanan S, Rodrigo JA, Dupont S, Hawrysh T, Presseau J, Thavorn K, Lalu MM, Fergusson DA, Bell JC, Atkins H, Nelson BH, and Holt RA

Subjects

Male, Humans, Aged, T-Lymphocytes, Immunotherapy, Adoptive adverse effects, Immunotherapy, Adoptive methods, Cyclophosphamide, Recurrence, Antigens, CD19, Lymphoma, Non-Hodgkin, Hematologic Neoplasms therapy

Abstract

Access to commercial CD19 CAR-T cells remains limited even in wealthy countries like Canada due to clinical, logistical, and financial barriers related to centrally manufactured products. We created a non-commercial academic platform for end-to-end manufacturing of CAR-T cells within Canada's publicly funded healthcare system. We report initial results from a single-arm, open-label study to determine the safety and efficacy of in-house manufactured CD19 CAR-T cells (entitled CLIC-1901) in participants with relapsed/refractory CD19 positive hematologic malignancies. Using a GMP compliant semi-automated, closed process on the Miltenyi Prodigy, T cells were transduced with lentiviral vector bearing a 4-1BB anti-CD19 CAR transgene and expanded. Participants underwent lymphodepletion with fludarabine and cyclophosphamide, followed by infusion of non-cryopreserved CAR-T cells. Thirty participants with non-Hodgkin's lymphoma (n=25) or acute lymphoblastic leukemia (n=5) were infused with CLIC-1901: 21 males (70%), median age 66 (range 18-75). Time from enrollment to CLIC-1901 infusion was a median of 20 days (range 15-48). The median CLIC-1901 dose infused was 2.3 × 10 6 CAR-T cells/kg (range 0.13-3.6 × 10 6 /kg). Toxicity included ≥ grade 3 cytokine release syndrome (n=2) and neurotoxicity (n=1). Median follow-up was 6.5 months. Overall response rate at day 28 was 76.7%. Median progression-free and overall survival was 6 months (95%CI 3-not estimable) and 11 months (95% 6.6-not estimable), respectively. This is the first trial of in-house manufactured CAR-T cells in Canada and demonstrates that administering fresh CLIC-1901 product is fast, safe, and efficacious. Our experience may provide helpful guidance for other jurisdictions seeking to create feasible and sustainable CAR-T cell programs in research-oriented yet resource-constrained settings., Clinical Trial Registration: https://clinicaltrials.gov/ct2/show/NCT03765177, identifier NCT03765177., Competing Interests: The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest., (Copyright © 2022 Kekre, Hay, Webb, Mallick, Balasundaram, Sigrist, Clement, Nielsen, Quizi, Yung, Brown, Dreolini, Waller, Smazynski, Gierc, Loveless, Clark, Dyer, Hogg, McCormick, Gignac, Bell, Chapman, Bond, Yong, Fung, Lockyer, Hodgson, Murphy, Subramanian, Wiebe, Yoganathan, Medynski, Vaillan, Black, McDiarmid, Kennah, Hamelin, Song, Narayanan, Rodrigo, Dupont, Hawrysh, Presseau, Thavorn, Lalu, Fergusson, Bell, Atkins, Nelson and Holt.)

Published

2022

47. Selective B cell depletion upon intravenous infusion of replication-incompetent anti-CD19 CAR lentivirus.

Author

Rive CM, Yung E, Dreolini L, Brown SD, May CG, Woodsworth DJ, and Holt RA

Abstract

Anti-CD19 chimeric antigen receptor (CAR)-T therapy for B cell malignancies has shown clinical success, but a major limitation is the logistical complexity and high cost of manufacturing autologous cell products. If engineered for improved safety, direct infusion of viral gene transfer vectors to initiate in vivo CAR-T transduction, expansion, and anti-tumor activity could provide an alternative, universal approach. To explore this approach we administered approximately 20 million replication-incompetent vesicular stomatitis virus G protein (VSV-G) lentiviral particles carrying an anti-CD19CAR-2A-GFP transgene comprising either an FMC63 (human) or 1D3 (murine) anti-CD19 binding domain, or a GFP-only control transgene, to wild-type C57BL/6 mice by tail vein infusion. The dynamics of immune cell subsets isolated from peripheral blood were monitored at weekly intervals. We saw emergence of a persistent CAR-transduced CD3 + T cell population beginning week 3-4 that reaching a maximum of 13.5% ± 0.58% (mean ± SD) and 7.8% ± 0.76% of the peripheral blood CD3 + T cell population in mice infused with ID3-CAR or FMC63-CAR lentivector, respectively, followed by a rapid decline in each case of the B cell content of peripheral blood. Complete B cell aplasia was apparent by week 5 and was sustained until the end of the protocol (week 8). No significant CAR-positive populations were observed within other immune cell subsets or other tissues. These results indicate that direct intravenous infusion of conventional VSV-G-pseudotyped lentiviral particles carrying a CD19 CAR transgene can transduce T cells that then fully ablate endogenous B cells in wild-type mice., Competing Interests: The authors declare no competing interests., (© 2022 The Authors.)

Published

2022

48. Computational Estimation of the Acidities of Pyrimidines and Related Compounds.

Author

Holt RA and Seybold PG

Abstract

Pyrimidines are key components in the genetic code of living organisms and the pyrimidine scaffold is also found in many bioactive and medicinal compounds. The acidities of these compounds, as represented by their pK a s, are of special interest since they determine the species that will prevail under different pH conditions. Here, a quantum chemical quantitative structure-activity relationship (QSAR) approach was employed to estimate these acidities. Density-functional theory calculations at the B3LYP/6-31+G(d,p) level and the SM8 aqueous solvent model were employed, and the energy difference ∆E H2O between the parent compound and its dissociation product was used as a variation parameter. Excellent estimates for both the cation → neutral (pK a1 , R 2 = 0.965) and neutral → anion (pK a2 , R 2 = 0.962) dissociations were obtained. A commercial package from Advanced Chemical Design also yielded excellent results for these acidities.

Published

2022

49. Fusobacterium nucleatum and Bacteroides fragilis detection in colorectal tumours: Optimal target site and correlation with total bacterial load.

Author

Rye MS, Garrett KL, Holt RA, Platell CF, and McCoy MJ

Subjects

Adult, Aged, Aged, 80 and over, Bacterial Load, Bacteroides Infections diagnosis, Colorectal Neoplasms etiology, Female, Fusobacterium Infections diagnosis, Humans, Male, Middle Aged, Bacteroides Infections complications, Bacteroides fragilis isolation & purification, Colorectal Neoplasms microbiology, Fusobacterium Infections complications, Fusobacterium nucleatum isolation & purification

Abstract

Background: Mucosal infiltration by certain bacterial species may contribute to the development and progression of colorectal cancer (CRC). There is considerable variation in reported detection rates in human CRC samples and the extent to which bacterial infiltration varies across regions of the primary tumour is unknown. This study aimed to determine if there is an optimal site for bacterial detection within CRC tumours., Methods: Presence of target bacterial species was assessed by quantitative real-time PCR (qPCR) in 42 human CRC tumours. Abundance in primary tumour regions, normal epithelium and at metastatic sites was investigated in an expanded cohort of 51 patients. Species presence/absence was confirmed by diversity profiling in five patients. Correlation with total bacterial load and clinicopathological features was assessed., Results: Fusobacterium nucleatum and Bacteroides fragilis were detected in tumours from 43% and 24% of patients, respectively (17% positive for both species). The optimal detection site was the tumour luminal surface (TLS). Patients testing positive at the TLS frequently tested negative at other sites, including central tumour and invasive margin. F. nucleatum was detected at a higher frequency in tumour versus normal epithelium (p < 0.01) and was associated with more advanced disease (p = 0.01). Detection of both species correlated with total bacterial load. However, corroboration of qPCR results via diversity profiling suggests detection of these species may indicate a specific microbial signature., Conclusions: This study supports a role for F. nucleatum in CRC development. Presence of F. nucleatum and B. fragilis varies across primary tumour regions, with the TLS representing the optimal site for bacterial detection., Competing Interests: The authors have declared that no competing interests exist.

Published

2022

50. Clinical response to nivolumab in an INI1-deficient pediatric chordoma correlates with immunogenic recognition of brachyury.

Author

Williamson LM, Rive CM, Di Francesco D, Titmuss E, Chun HE, Brown SD, Milne K, Pleasance E, Lee AF, Yip S, Rosenbaum DG, Hasselblatt M, Johann PD, Kool M, Harvey M, Dix D, Renouf DJ, Holt RA, Nelson BH, Hirst M, Jones SJM, Laskin J, Rassekh SR, Deyell RJ, and Marra MA

Abstract

Poorly differentiated chordoma (PDC) is a recently recognized subtype of chordoma characterized by expression of the embryonic transcription factor, brachyury, and loss of INI1. PDC primarily affects children and is associated with a poor prognosis and limited treatment options. Here we describe the molecular and immune tumour microenvironment profiles of two paediatric PDCs produced using whole-genome, transcriptome and whole-genome bisulfite sequencing (WGBS) and multiplex immunohistochemistry. Our analyses revealed the presence of tumour-associated immune cells, including CD8+ T cells, and expression of the immune checkpoint protein, PD-L1, in both patient samples. Molecular profiling provided the rationale for immune checkpoint inhibitor (ICI) therapy, which resulted in a clinical and radiographic response. A dominant T cell receptor (TCR) clone specific for a brachyury peptide-MHC complex was identified from bulk RNA sequencing, suggesting that targeting of the brachyury tumour antigen by tumour-associated T cells may underlie this clinical response to ICI. Correlative analysis with rhabdoid tumours, another INI1-deficient paediatric malignancy, suggests that a subset of tumours may share common immune phenotypes, indicating the potential for a therapeutically targetable subgroup of challenging paediatric cancers., (© 2021. Crown.)

Published

2021