Your search keyword '"Law, Emily K."' showing total 37 results

1. The role of APOBEC3B in lung tumor evolution and targeted cancer therapy resistance

Author

Caswell, Deborah R, Gui, Philippe, Mayekar, Manasi K, Law, Emily K, Pich, Oriol, Bailey, Chris, Boumelha, Jesse, Kerr, D Lucas, Blakely, Collin M, Manabe, Tadashi, Martinez-Ruiz, Carlos, Bakker, Bjorn, De Dios Palomino Villcas, Juan, I. Vokes, Natalie, Dietzen, Michelle, Angelova, Mihaela, Gini, Beatrice, Tamaki, Whitney, Allegakoen, Paul, Wu, Wei, Humpton, Timothy J, Hill, William, Tomaschko, Mona, Lu, Wei-Ting, Haderk, Franziska, Al Bakir, Maise, Nagano, Ai, Gimeno-Valiente, Francisco, de Carné Trécesson, Sophie, Vendramin, Roberto, Barbè, Vittorio, Mugabo, Miriam, Weeden, Clare E, Rowan, Andrew, McCoach, Caroline E, Almeida, Bruna, Green, Mary, Gomez, Carlos, Nanjo, Shigeki, Barbosa, Dora, Moore, Chris, Przewrocka, Joanna, Black, James RM, Grönroos, Eva, Suarez-Bonnet, Alejandro, Priestnall, Simon L, Zverev, Caroline, Lighterness, Scott, Cormack, James, Olivas, Victor, Cech, Lauren, Andrews, Trisha, Rule, Brandon, Jiao, Yuwei, Zhang, Xinzhu, Ashford, Paul, Durfee, Cameron, Venkatesan, Subramanian, Temiz, Nuri Alpay, Tan, Lisa, Larson, Lindsay K, Argyris, Prokopios P, Brown, William L, Yu, Elizabeth A, Rotow, Julia K, Guha, Udayan, Roper, Nitin, Yu, Johnny, Vogel, Rachel I, Thomas, Nicholas J, Marra, Antonio, Selenica, Pier, Yu, Helena, Bakhoum, Samuel F, Chew, Su Kit, Reis-Filho, Jorge S, Jamal-Hanjani, Mariam, Vousden, Karen H, McGranahan, Nicholas, Van Allen, Eliezer M, Kanu, Nnennaya, Harris, Reuben S, Downward, Julian, Bivona, Trever G, and Swanton, Charles

Subjects

Agricultural, Veterinary and Food Sciences, Biological Sciences, Bioinformatics and Computational Biology, Genetics, Agricultural Biotechnology, Biotechnology, Lung Cancer, Lung, Cancer, Women's Health, 5.1 Pharmaceuticals, Development of treatments and therapeutic interventions, Humans, Animals, Mice, Carcinoma, Non-Small-Cell Lung, Lung Neoplasms, Mutation, Up-Regulation, ErbB Receptors, Cytidine Deaminase, Minor Histocompatibility Antigens, Medical and Health Sciences, Developmental Biology, Agricultural biotechnology, Bioinformatics and computational biology

Abstract

In this study, the impact of the apolipoprotein B mRNA-editing catalytic subunit-like (APOBEC) enzyme APOBEC3B (A3B) on epidermal growth factor receptor (EGFR)-driven lung cancer was assessed. A3B expression in EGFR mutant (EGFRmut) non-small-cell lung cancer (NSCLC) mouse models constrained tumorigenesis, while A3B expression in tumors treated with EGFR-targeted cancer therapy was associated with treatment resistance. Analyses of human NSCLC models treated with EGFR-targeted therapy showed upregulation of A3B and revealed therapy-induced activation of nuclear factor kappa B (NF-κB) as an inducer of A3B expression. Significantly reduced viability was observed with A3B deficiency, and A3B was required for the enrichment of APOBEC mutation signatures, in targeted therapy-treated human NSCLC preclinical models. Upregulation of A3B was confirmed in patients with NSCLC treated with EGFR-targeted therapy. This study uncovers the multifaceted roles of A3B in NSCLC and identifies A3B as a potential target for more durable responses to targeted cancer therapy.

Published

2024

2. APOBEC3B regulates R-loops and promotes transcription-associated mutagenesis in cancer

Author

McCann, Jennifer L., Cristini, Agnese, Law, Emily K., Lee, Seo Yun, Tellier, Michael, Carpenter, Michael A., Beghè, Chiara, Kim, Jae Jin, Sanchez, Anthony, Jarvis, Matthew C., Stefanovska, Bojana, Temiz, Nuri A., Bergstrom, Erik N., Salamango, Daniel J., Brown, Margaret R., Murphy, Shona, Alexandrov, Ludmil B., Miller, Kyle M., Gromak, Natalia, and Harris, Reuben S.

Published

2023

3. APOBEC3B Upregulation and Genomic Mutation Patterns in Serous Ovarian Carcinoma

Author

Leonard, Brandon, Hart, Steven N, Burns, Michael B, Carpenter, Michael A, Temiz, Nuri A, Rathore, Anurag, Vogel, Rachel I, Nikas, Jason B, Law, Emily K, Brown, William L, Li, Ying, Zhang, Yuji, Maurer, Matthew J, Oberg, Ann L, Cunningham, Julie M, Shridhar, Viji, Bell, Debra A, April, Craig, Bentley, David, Bibikova, Marina, Cheetham, R Keira, Fan, Jian-Bing, Grocock, Russell, Humphray, Sean, Kingsbury, Zoya, Peden, John, Chien, Jeremy, Swisher, Elizabeth M, Hartmann, Lynn C, Kalli, Kimberly R, Goode, Ellen L, Sicotte, Hugues, Kaufmann, Scott H, and Harris, Reuben S

Subjects

Rare Diseases, Cancer, Genetics, Ovarian Cancer, Human Genome, Aetiology, 2.1 Biological and endogenous factors, Carcinoma, Ovarian Epithelial, Cell Line, Tumor, Cystadenocarcinoma, Serous, Cytidine Deaminase, Female, Gene Expression Profiling, Gene Expression Regulation, Neoplastic, Gene Knockdown Techniques, Genomics, Humans, Minor Histocompatibility Antigens, Mutation, Neoplasms, Glandular and Epithelial, Ovarian Neoplasms, RNA, Messenger, Up-Regulation, Oncology and Carcinogenesis, Oncology & Carcinogenesis

Abstract

Ovarian cancer is a clinically and molecularly heterogeneous disease. The driving forces behind this variability are unknown. Here, we report wide variation in the expression of the DNA cytosine deaminase APOBEC3B, with elevated expression in the majority of ovarian cancer cell lines (three SDs above the mean of normal ovarian surface epithelial cells) and high-grade primary ovarian cancers. APOBEC3B is active in the nucleus of several ovarian cancer cell lines and elicits a biochemical preference for deamination of cytosines in 5'-TC dinucleotides. Importantly, examination of whole-genome sequence from 16 ovarian cancers reveals that APOBEC3B expression correlates with total mutation load as well as elevated levels of transversion mutations. In particular, high APOBEC3B expression correlates with C-to-A and C-to-G transversion mutations within 5'-TC dinucleotide motifs in early-stage high-grade serous ovarian cancer genomes, suggesting that APOBEC3B-catalyzed genomic uracil lesions are further processed by downstream DNA "repair" enzymes including error-prone translesion polymerases. These data identify a potential role for APOBEC3B in serous ovarian cancer genomic instability.

Published

2013

4. Supplementary Table from An Immunogenic Model of KRAS-Mutant Lung Cancer Enables Evaluation of Targeted Therapy and Immunotherapy Combinations

Author

Boumelha, Jesse, primary, de Carné Trécesson, Sophie, primary, Law, Emily K., primary, Romero-Clavijo, Pablo, primary, Coelho, Matthew A., primary, Ng, Kevin W., primary, Mugarza, Edurne, primary, Moore, Christopher, primary, Rana, Sareena, primary, Caswell, Deborah R., primary, Murillo, Miguel, primary, Hancock, David C., primary, Argyris, Prokopios P., primary, Brown, William L., primary, Durfee, Cameron, primary, Larson, Lindsay K., primary, Vogel, Rachel I., primary, Suárez-Bonnet, Alejandro, primary, Priestnall, Simon L., primary, East, Philip, primary, Ross, Sarah J., primary, Kassiotis, George, primary, Molina-Arcas, Miriam, primary, Swanton, Charles, primary, Harris, Reuben, primary, and Downward, Julian, primary

Published

2023

5. Supplementary Data from An Immunogenic Model of KRAS-Mutant Lung Cancer Enables Evaluation of Targeted Therapy and Immunotherapy Combinations

Author

Boumelha, Jesse, primary, de Carné Trécesson, Sophie, primary, Law, Emily K., primary, Romero-Clavijo, Pablo, primary, Coelho, Matthew A., primary, Ng, Kevin W., primary, Mugarza, Edurne, primary, Moore, Christopher, primary, Rana, Sareena, primary, Caswell, Deborah R., primary, Murillo, Miguel, primary, Hancock, David C., primary, Argyris, Prokopios P., primary, Brown, William L., primary, Durfee, Cameron, primary, Larson, Lindsay K., primary, Vogel, Rachel I., primary, Suárez-Bonnet, Alejandro, primary, Priestnall, Simon L., primary, East, Philip, primary, Ross, Sarah J., primary, Kassiotis, George, primary, Molina-Arcas, Miriam, primary, Swanton, Charles, primary, Harris, Reuben, primary, and Downward, Julian, primary

Published

2023

6. Data from APOBEC3B Upregulation and Genomic Mutation Patterns in Serous Ovarian Carcinoma

Author

Leonard, Brandon, primary, Hart, Steven N., primary, Burns, Michael B., primary, Carpenter, Michael A., primary, Temiz, Nuri A., primary, Rathore, Anurag, primary, Vogel, Rachel I., primary, Nikas, Jason B., primary, Law, Emily K., primary, Brown, William L., primary, Li, Ying, primary, Zhang, Yuji, primary, Maurer, Matthew J., primary, Oberg, Ann L., primary, Cunningham, Julie M., primary, Shridhar, Viji, primary, Bell, Debra A., primary, April, Craig, primary, Bentley, David, primary, Bibikova, Marina, primary, Cheetham, R. Keira, primary, Fan, Jian-Bing, primary, Grocock, Russell, primary, Humphray, Sean, primary, Kingsbury, Zoya, primary, Peden, John, primary, Chien, Jeremy, primary, Swisher, Elizabeth M., primary, Hartmann, Lynn C., primary, Kalli, Kimberly R., primary, Goode, Ellen L., primary, Sicotte, Hugues, primary, Kaufmann, Scott H., primary, and Harris, Reuben S., primary

Published

2023

7. Supplementary Methods, Tables 1 - 6, Figures 1 - 5 from APOBEC3B Upregulation and Genomic Mutation Patterns in Serous Ovarian Carcinoma

Author

Leonard, Brandon, primary, Hart, Steven N., primary, Burns, Michael B., primary, Carpenter, Michael A., primary, Temiz, Nuri A., primary, Rathore, Anurag, primary, Vogel, Rachel I., primary, Nikas, Jason B., primary, Law, Emily K., primary, Brown, William L., primary, Li, Ying, primary, Zhang, Yuji, primary, Maurer, Matthew J., primary, Oberg, Ann L., primary, Cunningham, Julie M., primary, Shridhar, Viji, primary, Bell, Debra A., primary, April, Craig, primary, Bentley, David, primary, Bibikova, Marina, primary, Cheetham, R. Keira, primary, Fan, Jian-Bing, primary, Grocock, Russell, primary, Humphray, Sean, primary, Kingsbury, Zoya, primary, Peden, John, primary, Chien, Jeremy, primary, Swisher, Elizabeth M., primary, Hartmann, Lynn C., primary, Kalli, Kimberly R., primary, Goode, Ellen L., primary, Sicotte, Hugues, primary, Kaufmann, Scott H., primary, and Harris, Reuben S., primary

Published

2023

8. An Immunogenic Model of KRAS-Mutant Lung Cancer Enables Evaluation of Targeted Therapy and Immunotherapy Combinations

Author

Boumelha, Jesse, primary, de Carné Trécesson, Sophie, additional, Law, Emily K., additional, Romero-Clavijo, Pablo, additional, Coelho, Matthew A., additional, Ng, Kevin W., additional, Mugarza, Edurne, additional, Moore, Christopher, additional, Rana, Sareena, additional, Caswell, Deborah R., additional, Murillo, Miguel, additional, Hancock, David C., additional, Argyris, Prokopios P., additional, Brown, William L., additional, Durfee, Cameron, additional, Larson, Lindsay K., additional, Vogel, Rachel I., additional, Suárez-Bonnet, Alejandro, additional, Priestnall, Simon L., additional, East, Philip, additional, Ross, Sarah J., additional, Kassiotis, George, additional, Molina-Arcas, Miriam, additional, Swanton, Charles, additional, Harris, Reuben, additional, and Downward, Julian, additional

Published

2022

9. Abstract 2197: Targeted cancer therapy induces APOBEC fueling the evolution of drug resistance

Author

Mayekar, Manasi, primary, Caswell, Deborah, additional, Vokes, Natalie, additional, Law, Emily K., additional, Wu, Wei, additional, Hill, William, additional, Gronroos, Eva, additional, Rowan, Andrew, additional, Bakir, Maise Al, additional, Weeden, Clare, additional, McCoach, Caroline E., additional, Blakely, Collin M., additional, Temiz, Nuri Alpay, additional, Nagano, Ai, additional, Kerr, Daniel L., additional, Rotow, Julia K., additional, Pich, Oriol, additional, Haderk, Franziska, additional, Dietzen, Michelle, additional, Ruiz, Carlos Martinez, additional, Almeida, Bruna, additional, Cech, Lauren, additional, Gini, Beatrice, additional, Przewrocka, Joanna, additional, Moore, Chris, additional, Murillo, Miguel, additional, Bakker, Bjorn, additional, Rule, Brandon, additional, Durfee, Cameron, additional, Nanj, Shigeki, additional, Tan, Lisa, additional, Larson, Lindsay K., additional, Argyris, Prokopios P., additional, Brown, William L., additional, Yu, Johnny, additional, Gomez, Carlos, additional, Gui, Philippe, additional, Vogel, Rachel I., additional, Yu, Elizabeth A., additional, Thomas, Nicholas J., additional, Venkatesan, Subramanian, additional, Hobor, Sebastijan, additional, Chew, Su Kit, additional, McGranahan, Nicholas, additional, Kanu, Nnennaya, additional, Van Allen, Eliezer M., additional, Downward, Julian, additional, Harris, Reuben S., additional, Bivona, Trever, additional, and Swanton, Charles, additional

Published

2022

10. Abstract 925: A genetically engineered mouse model for carcinogenesis by the human enzyme APOBEC3B

Author

Durfee, Cameron C., primary, Argyris, Prokopios P., additional, Jarvis, Matthew C., additional, Levin-Klein, Rena, additional, Law, Emily K., additional, and Harris, Reuben S., additional

Published

2022

11. APOBEC3B is an enzymatic source of mutation in breast cancer

Author

Burns, Michael B., Lackey, Lela, Carpenter, Michael A., Rathore, Anurag, Land, Allison M., Leonard, Brandon, Refsland, Eric W., Kotandeniya, Delshanee, Tretyakova, Natalia, Nikas, Jason B., Yee, Douglas, Temiz, Nuri A., Donohue, Duncan E., McDougle, Rebecca M., Brown, William L., Law, Emily K., and Harris, Reuben S.

Subjects

Gene mutations -- Observations, Tumors -- Genetic aspects, Hydrolases -- Properties, Enzymes -- Properties, Neoplastic processes -- Research, Environmental issues, Science and technology, Zoology and wildlife conservation

Abstract

Several mutations are required for cancer development, and genome sequencing has revealed that many cancers, including breast cancer, have somatic mutation spectra dominated by C-to-T transitions (1-9). Most of these [...]

Published

2013

12. R-loop homeostasis and cancer mutagenesis promoted by the DNA cytosine deaminase APOBEC3B

Author

McCann, Jennifer L., primary, Cristini, Agnese, additional, Law, Emily K., additional, Lee, Seo Yun, additional, Tellier, Michael, additional, Carpenter, Michael A., additional, Beghè, Chiara, additional, Kim, Jae Jin, additional, Jarvis, Matthew C., additional, Stefanovska, Bojana, additional, Temiz, Nuri A., additional, Bergstrom, Erik N., additional, Salamango, Daniel J., additional, Brown, Margaret R., additional, Murphy, Shona, additional, Alexandrov, Ludmil B., additional, Miller, Kyle M., additional, Gromak, Natalia, additional, and Harris, Reuben S., additional

Published

2021

13. An immunogenic model of KRAS-mutant lung cancer for study of targeted therapy and immunotherapy combinations

Author

Boumelha, Jesse, primary, de Carné Trécesson, Sophie, additional, Law, Emily K., additional, Romero-Clavijo, Pablo, additional, Coelho, Matthew A., additional, Ng, Kevin, additional, Mugarza, Edurne, additional, Moore, Christopher, additional, Rana, Sareena, additional, Caswell, Deborah R., additional, Murillo, Miguel, additional, Hancock, David C., additional, Argyris, Prokopios P., additional, Brown, William L., additional, Durfee, Cameron, additional, Larson, Lindsay K., additional, Vogel, Rachel I., additional, Suárez-Bonnet, Alejandro, additional, Priestnall, Simon L., additional, East, Philip, additional, Ross, Sarah J., additional, Kassiotis, George, additional, Molina-Arcas, Miriam, additional, Swanton, Charles, additional, Harris, Reuben, additional, and Downward, Julian, additional

Published

2020

14. Targeted cancer therapy induces APOBEC fuelling the evolution of drug resistance

Author

Mayekar, Manasi K., primary, Caswell, Deborah R., additional, Vokes, Natalie I., additional, Law, Emily K., additional, Wu, Wei, additional, Hill, William, additional, Gronroos, Eva, additional, Rowan, Andrew, additional, Al Bakir, Maise, additional, McCoach, Caroline E., additional, Blakely, Collin M., additional, Temiz, Nuri Alpay, additional, Nagano, Ai, additional, Kerr, D. Lucas, additional, Rotow, Julia K., additional, Haderk, Franziska, additional, Dietzen, Michelle, additional, Ruiz, Carlos Martinez, additional, Almeida, Bruna, additional, Cech, Lauren, additional, Gini, Beatrice, additional, Przewrocka, Joanna, additional, Moore, Chris, additional, Murillo, Miguel, additional, Bakker, Bjorn, additional, Rule, Brandon, additional, Durfee, Cameron, additional, Nanjo, Shigeki, additional, Tan, Lisa, additional, Larson, Lindsay K., additional, Argyris, Prokopios P., additional, Brown, William L., additional, Yu, Johnny, additional, Gomez, Carlos, additional, Gui, Philippe, additional, Vogel, Rachel I., additional, Yu, Elizabeth A., additional, Thomas, Nicholas J., additional, Venkatesan, Subramanian, additional, Hobor, Sebastijan, additional, Chew, Su Kit, additional, Kanu, Nnennaya, additional, McGranahan, Nicholas, additional, Van Allen, Eliezer M., additional, Downward, Julian, additional, Harris, Reuben S., additional, Bivona, Trever G., additional, and Swanton, Charles, additional

Published

2020

15. APOBEC3A catalyzes mutation and drives carcinogenesis in vivo

Author

Law, Emily K., primary, Levin-Klein, Rena, additional, Jarvis, Matthew C., additional, Kim, Hyoung, additional, Argyris, Prokopios P., additional, Carpenter, Michael A., additional, Starrett, Gabriel J., additional, Temiz, Nuri A., additional, Larson, Lindsay K., additional, Durfee, Cameron, additional, Burns, Michael B., additional, Vogel, Rachel I., additional, Stavrou, Spyridon, additional, Aguilera, Alexya N., additional, Wagner, Sandra, additional, Largaespada, David A., additional, Starr, Timothy K., additional, Ross, Susan R., additional, and Harris, Reuben S., additional

Published

2020

16. MagnEdit—interacting factors that recruit DNA-editing enzymes to single base targets

Author

McCann, Jennifer L, primary, Salamango, Daniel J, additional, Law, Emily K, additional, Brown, William L, additional, and Harris, Reuben S, additional

Published

2020

17. APOBEC3A Catalyzes Mutation and Drives CarcinogenesisIn Vivo

Author

Law, Emily K., primary, Levin-Klein, Rena, additional, Jarvis, Matthew C., additional, Kim, Hyoung, additional, Argyris, Prokopios P., additional, Carpenter, Michael A., additional, Starrett, Gabriel J., additional, Larson, Lindsay K., additional, Burns, Michael B., additional, Vogel, Rachel I., additional, Stavrou, Spyridon, additional, Aguilera, Alexya N., additional, Wagner, Sandra, additional, Largaespada, David A., additional, Starr, Timothy K., additional, Ross, Susan R., additional, and Harris, Reuben S., additional

Published

2019

18. A Rabbit Monoclonal Antibody against the Antiviral and Cancer Genomic DNA Mutating Enzyme APOBEC3B

Author

Brown, William L., primary, Law, Emily K., additional, Argyris, Prokopios P., additional, Carpenter, Michael A., additional, Levin-Klein, Rena, additional, Ranum, Alison N., additional, Molan, Amy M., additional, Forster, Colleen L., additional, Anderson, Brett D., additional, Lackey, Lela, additional, and Harris, Reuben S., additional

Published

2019

19. The DNA deaminase APOBEC3B interacts with the cell-cycle protein CDK4 and disrupts CDK4-mediated nuclear import of Cyclin D1

Author

McCann, Jennifer L., primary, Klein, Madeline M., additional, Leland, Evelyn M., additional, Law, Emily K., additional, Brown, William L., additional, Salamango, Daniel J., additional, and Harris, Reuben S., additional

Published

2019

20. A lentivirus-based system for Cas9/gRNA expression and subsequent removal by Cre-mediated recombination

Author

Carpenter, Michael A., primary, Law, Emily K., additional, Serebrenik, Artur, additional, Brown, William L., additional, and Harris, Reuben S., additional

Published

2019

21. Polyomavirus T Antigen InducesAPOBEC3BExpression Using an LXCXE-Dependent and TP53-Independent Mechanism

Author

Starrett, Gabriel J., primary, Serebrenik, Artur A., additional, Roelofs, Pieter A., additional, McCann, Jennifer L., additional, Verhalen, Brandy, additional, Jarvis, Matthew C., additional, Stewart, Teneale A., additional, Law, Emily K., additional, Krupp, Annabel, additional, Jiang, Mengxi, additional, Martens, John W. M., additional, Cahir-McFarland, Ellen, additional, Span, Paul N., additional, and Harris, Reuben S., additional

Published

2019

22. Polyomavirus T-Antigen InducesAPOBEC3BExpression using a LXCXE-Dependent and TP53-Independent Mechanism

Author

Starrett, Gabriel J., primary, Serebrenik, Artur A., additional, Roelofs, Pieter A., additional, Verhalen, Brandy, additional, McCann, Jennifer L., additional, Jarvis, Matthew C., additional, Stewart, Teneale A., additional, Law, Emily K, additional, Krupp, Annabel, additional, Jiang, Mengxi, additional, Martens, John W. M., additional, Span, Paul N., additional, Cahir-McFarland, Ellen, additional, and Harris, Reuben S., additional

Published

2018

23. Characterization of BK Polyomaviruses from Kidney Transplant Recipients Suggests a Role for APOBEC3 in Driving In-Host Virus Evolution

Author

Peretti, Alberto, primary, Geoghegan, Eileen M., additional, Pastrana, Diana V., additional, Smola, Sigrun, additional, Feld, Pascal, additional, Sauter, Marlies, additional, Lohse, Stefan, additional, Ramesh, Mayur, additional, Lim, Efrem S., additional, Wang, David, additional, Borgogna, Cinzia, additional, FitzGerald, Peter C., additional, Bliskovsky, Valery, additional, Starrett, Gabriel J., additional, Law, Emily K., additional, Harris, Reuben S., additional, Killian, J. Keith, additional, Zhu, Jack, additional, Pineda, Marbin, additional, Meltzer, Paul S., additional, Boldorini, Renzo, additional, Gariglio, Marisa, additional, and Buck, Christopher B., additional

Published

2018

24. The DNA cytosine deaminase APOBEC3B promotes tamoxifen resistance in ER-positive breast cancer

Author

Law, Emily K., primary, Sieuwerts, Anieta M., additional, LaPara, Kelly, additional, Leonard, Brandon, additional, Starrett, Gabriel J., additional, Molan, Amy M., additional, Temiz, Nuri A., additional, Vogel, Rachel Isaksson, additional, Meijer-van Gelder, Marion E., additional, Sweep, Fred C. G. J., additional, Span, Paul N., additional, Foekens, John A., additional, Martens, John W. M., additional, Yee, Douglas, additional, and Harris, Reuben S., additional

Published

2016

25. The DNA cytosine deaminase APOBEC3H haplotype I likely contributes to breast and lung cancer mutagenesis

Author

Starrett, Gabriel J., primary, Luengas, Elizabeth M., additional, McCann, Jennifer L., additional, Ebrahimi, Diako, additional, Temiz, Nuri A., additional, Love, Robin P., additional, Feng, Yuqing, additional, Adolph, Madison B., additional, Chelico, Linda, additional, Law, Emily K., additional, Carpenter, Michael A., additional, and Harris, Reuben S, additional

Published

2016

26. DNA replication stress mediates APOBEC3 family mutagenesis in breast cancer

Author

Kanu, Nnennaya, primary, Cerone, Maria Antonietta, additional, Goh, Gerald, additional, Zalmas, Lykourgos-Panagiotis, additional, Bartkova, Jirina, additional, Dietzen, Michelle, additional, McGranahan, Nicholas, additional, Rogers, Rebecca, additional, Law, Emily K., additional, Gromova, Irina, additional, Kschischo, Maik, additional, Walton, Michael I., additional, Rossanese, Olivia W., additional, Bartek, Jiri, additional, Harris, Reuben S., additional, Venkatesan, Subramanian, additional, and Swanton, Charles, additional

Published

2016

27. Degradation of the cancer genomic DNA deaminase APOBEC3B by SIV Vif

Author

Land, Allison M., primary, Wang, Jiayi, additional, Law, Emily K., additional, Aberle, Ryan, additional, Kirmaier, Andrea, additional, Krupp, Annabel, additional, Johnson, Welkin E., additional, and Harris, Reuben S., additional

Published

2015

28. Natural Polymorphisms in Human APOBEC3H and HIV-1 Vif Combine in Primary T Lymphocytes to Affect Viral G-to-A Mutation Levels and Infectivity

Author

Refsland, Eric W., primary, Hultquist, Judd F., additional, Luengas, Elizabeth M., additional, Ikeda, Terumasa, additional, Shaban, Nadine M., additional, Law, Emily K., additional, Brown, William L., additional, Reilly, Cavan, additional, Emerman, Michael, additional, and Harris, Reuben S., additional

Published

2014

29. The Local Dinucleotide Preference of APOBEC3G Can Be Altered from 5′-CC to 5′-TC by a Single Amino Acid Substitution

Author

Rathore, Anurag, primary, Carpenter, Michael A., additional, Demir, Özlem, additional, Ikeda, Terumasa, additional, Li, Ming, additional, Shaban, Nadine M., additional, Law, Emily K., additional, Anokhin, Dmitry, additional, Brown, William L., additional, Amaro, Rommie E., additional, and Harris, Reuben S., additional

Published

2013

30. Correction: Corrigendum: APOBEC3B is an enzymatic source of mutation in breast cancer

Author

Burns, Michael B., primary, Lackey, Lela, additional, Carpenter, Michael A., additional, Rathore, Anurag, additional, Land, Allison M., additional, Leonard, Brandon, additional, Refsland, Eric W., additional, Kotandeniya, Delshanee, additional, Tretyakova, Natalia, additional, Nikas, Jason B., additional, Yee, Douglas, additional, Temiz, Nuri A., additional, Donohue, Duncan E., additional, McDougle, Rebecca M., additional, Brown, William L., additional, Law, Emily K., additional, and Harris, Reuben S., additional

Published

2013

31. Endogenous APOBEC3A DNA Cytosine Deaminase Is Cytoplasmic and Nongenotoxic

Author

Land, Allison M., primary, Law, Emily K., additional, Carpenter, Michael A., additional, Lackey, Lela, additional, Brown, William L., additional, and Harris, Reuben S., additional

Published

2013

32. Subcellular localization of the APOBEC3 proteins during mitosis and implications for genomic DNA deamination

Author

Lackey, Lela, primary, Law, Emily K., additional, Brown, William L., additional, and Harris, Reuben S., additional

Published

2013

33. 116 Deamination of both methyl- and normal-cytosine by the foreign DNA restriction enzyme APOBEC3A

Author

Carpenter, Michael A., primary, Li, Ming, additional, Rathore, Anurag, additional, Lackey, Lela, additional, Law, Emily K., additional, Land, Allison M., additional, Leonard, Brandon, additional, Shandilya, Shivender M.D., additional, Bohn, Markus-Frederik, additional, Schiffer, Celia A., additional, Brown, William L, additional, and Harris, Reuben S., additional

Published

2013

34. Methylcytosine and Normal Cytosine Deamination by the Foreign DNA Restriction Enzyme APOBEC3A

Author

Carpenter, Michael A., primary, Li, Ming, additional, Rathore, Anurag, additional, Lackey, Lela, additional, Law, Emily K., additional, Land, Allison M., additional, Leonard, Brandon, additional, Shandilya, Shivender M.D., additional, Bohn, Markus-Frederik, additional, Schiffer, Celia A., additional, Brown, William L., additional, and Harris, Reuben S., additional

Published

2012

35. Polyomavirus T Antigen Induces APOBEC3BExpression Using an LXCXE-Dependent and TP53-Independent Mechanism

Author

Starrett, Gabriel J., Serebrenik, Artur A., Roelofs, Pieter A., McCann, Jennifer L., Verhalen, Brandy, Jarvis, Matthew C., Stewart, Teneale A., Law, Emily K., Krupp, Annabel, Jiang, Mengxi, Martens, John W. M., Cahir-McFarland, Ellen, Span, Paul N., and Harris, Reuben S.

Abstract

The APOBEC3B DNA cytosine deaminase is overexpressed in many different cancers and correlates with elevated frequencies of C-to-T and C-to-G mutations in 5′-TC motifs, oncogene activation, acquired drug resistance, and poor clinical outcomes. The mechanisms responsible for APOBEC3B overexpression are not fully understood. Here, we show that the polyomavirus truncated T antigen (truncT) triggers APOBEC3B overexpression through its RB-interacting motif, LXCXE, which in turn likely modulates the binding of E2F family transcription factors to promote APOBEC3Bexpression. This work strengthens the mechanistic linkage between active cell cycling, APOBEC3B overexpression, and cancer mutagenesis. Although this mutational mechanism damages cellular genomes, viruses may leverage it to promote evolution, immune escape, and pathogenesis. The cellular portion of the mechanism may also be relevant to nonviral cancers, where genetic mechanisms often activate the RB/E2F axis and APOBEC3B mutagenesis contributes to tumor evolution.

Published

2019

36. Corrigendum: APOBEC3B is an enzymatic source of mutation in breast cancer.

Author

Burns, Michael B., Lackey, Lela, Carpenter, Michael A., Rathore, Anurag, Land, Allison M., Leonard, Brandon, Refsland, Eric W., Kotandeniya, Delshanee, Tretyakova, Natalia, Nikas, Jason B., Yee, Douglas, Temiz, Nuri A., Donohue, Duncan E., McDougle, Rebecca M., Brown, William L., Law, Emily K., and Harris, Reuben S.

Subjects

ENZYMATIC analysis, BREAST cancer

Abstract

A correction to the article "APOBEC3B is an enzymatic source of mutation in breast cancer" by Michael B. Burns and colleagues that was published in a 2013 issue of the periodical is presented.

Published

2013

37. Polyomavirus T Antigen Induces APOBEC3B Expression Using an LXCXE-Dependent and TP53-Independent Mechanism.

Author

Starrett GJ, Serebrenik AA, Roelofs PA, McCann JL, Verhalen B, Jarvis MC, Stewart TA, Law EK, Krupp A, Jiang M, Martens JWM, Cahir-McFarland E, Span PN, and Harris RS

Subjects

Antigens, Viral, Tumor genetics, Binding Sites, Cells, Cultured, E2F Transcription Factors metabolism, Gene Expression Profiling, Humans, Mutant Proteins genetics, Mutant Proteins metabolism, Neoplasms pathology, Retinoblastoma Binding Proteins metabolism, Antigens, Viral, Tumor metabolism, Cytidine Deaminase biosynthesis, Host-Pathogen Interactions, Minor Histocompatibility Antigens biosynthesis, Polyomavirus growth & development, Tumor Suppressor Protein p53 metabolism, Up-Regulation

Abstract

APOBEC3B is a single-stranded DNA cytosine deaminase with beneficial innate antiviral functions. However, misregulated APOBEC3B can also be detrimental by inflicting APOBEC signature C-to-T and C-to-G mutations in genomic DNA of multiple cancer types. Polyomavirus and papillomavirus oncoproteins induce APOBEC3B overexpression, perhaps to their own benefit, but little is known about the cellular mechanisms hijacked by these viruses to do so. Here we investigate the molecular mechanism of APOBEC3B upregulation by the polyomavirus large T antigen. First, we demonstrate that the upregulated APOBEC3B enzyme is strongly nuclear and partially localized to virus replication centers. Second, truncated T antigen (truncT) is sufficient for APOBEC3B upregulation, and the RB-interacting motif (LXCXE), but not the p53-binding domain, is required. Third, genetic knockdown of RB1 alone or in combination with RBL1 and/or RBL2 is insufficient to suppress truncT-mediated induction of APOBEC3B Fourth, CDK4/6 inhibition by palbociclib is also insufficient to suppress truncT-mediated induction of APOBEC3B Last, global gene expression analyses in a wide range of human cancers show significant associations between expression of APOBEC3B and other genes known to be regulated by the RB/E2F axis. These experiments combine to implicate the RB/E2F axis in promoting APOBEC3B transcription, yet they also suggest that the polyomavirus RB-binding motif has at least one additional function in addition to RB inactivation for triggering APOBEC3B upregulation in virus-infected cells. IMPORTANCE The APOBEC3B DNA cytosine deaminase is overexpressed in many different cancers and correlates with elevated frequencies of C-to-T and C-to-G mutations in 5'-TC motifs, oncogene activation, acquired drug resistance, and poor clinical outcomes. The mechanisms responsible for APOBEC3B overexpression are not fully understood. Here, we show that the polyomavirus truncated T antigen (truncT) triggers APOBEC3B overexpression through its RB-interacting motif, LXCXE, which in turn likely modulates the binding of E2F family transcription factors to promote APOBEC3B expression. This work strengthens the mechanistic linkage between active cell cycling, APOBEC3B overexpression, and cancer mutagenesis. Although this mutational mechanism damages cellular genomes, viruses may leverage it to promote evolution, immune escape, and pathogenesis. The cellular portion of the mechanism may also be relevant to nonviral cancers, where genetic mechanisms often activate the RB/E2F axis and APOBEC3B mutagenesis contributes to tumor evolution., (Copyright © 2019 Starrett et al.)

Published

2019