Your search keyword '"Buczkowicz, Pawel"' showing total 120 results

1. Genomic answers for children: Dynamic analyses of >1000 pediatric rare disease genomes

Author

Cohen, Ana S.A., Farrow, Emily G., Abdelmoity, Ahmed T., Alaimo, Joseph T., Amudhavalli, Shivarajan M., Anderson, John T., Bansal, Lalit, Bartik, Lauren, Baybayan, Primo, Belden, Bradley, Berrios, Courtney D., Biswell, Rebecca L., Buczkowicz, Pawel, Buske, Orion, Chakraborty, Shreyasee, Cheung, Warren A., Coffman, Keith A., Cooper, Ashley M., Cross, Laura A., Curran, Tom, Dang, Thuy Tien T., Elfrink, Mary M., Engleman, Kendra L., Fecske, Erin D., Fieser, Cynthia, Fitzgerald, Keely, Fleming, Emily A., Gadea, Randi N., Gannon, Jennifer L., Gelineau-Morel, Rose N., Gibson, Margaret, Goldstein, Jeffrey, Grundberg, Elin, Halpin, Kelsee, Harvey, Brian S., Heese, Bryce A., Hein, Wendy, Herd, Suzanne M., Hughes, Susan S., Ilyas, Mohammed, Jacobson, Jill, Jenkins, Janda L., Jiang, Shao, Johnston, Jeffrey J., Keeler, Kathryn, Korlach, Jonas, Kussmann, Jennifer, Lambert, Christine, Lawson, Caitlin, Le Pichon, Jean-Baptiste, Leeder, James Steven, Little, Vicki C., Louiselle, Daniel A., Lypka, Michael, McDonald, Brittany D., Miller, Neil, Modrcin, Ann, Nair, Annapoorna, Neal, Shelby H., Oermann, Christopher M., Pacicca, Donna M., Pawar, Kailash, Posey, Nyshele L., Price, Nigel, Puckett, Laura M.B., Quezada, Julio F., Raje, Nikita, Rowell, William J., Rush, Eric T., Sampath, Venkatesh, Saunders, Carol J., Schwager, Caitlin, Schwend, Richard M., Shaffer, Elizabeth, Smail, Craig, Soden, Sarah, Strenk, Meghan E., Sullivan, Bonnie R., Sweeney, Brooke R., Tam-Williams, Jade B., Walter, Adam M., Welsh, Holly, Wenger, Aaron M., Willig, Laurel K., Yan, Yun, Younger, Scott T., Zhou, Dihong, Zion, Tricia N., Thiffault, Isabelle, and Pastinen, Tomi

Published

2022

2. EXPERIMENTAL THERAPEUTICS AND PHARMACOLOGY

Author

Aaberg-Jessen, Charlotte, Fogh, Louise, Halle, Bo, Jensen, Vibeke, Brünner, Nils, Kristensen, Bjarne, Abe, Tatsuya, Momii, Yasutomo, Watanabe, Junko, Morisaki, Ikuko, Natsume, Atsushi, Wakabayashi, Toshihiko, Fujiki, Minoru, Balyasnikova, Irina, Prasol, Melanie, Kanoija, Deepak, Aboody, Karen, Lesniak, Maciej, Barone, Tara, Burkhart, Catherine, Purmal, Andrei, Gudkov, Andrei, Gurova, Katerina, Plunkett, Robert, Barton, Kelly, Misuraca, Katie, Cordero, Francisco, Dobrikova, Elena, Min, Hooney, Gromeier, Matthias, Kirsch, David, Becher, Oren, Pont, Lotte, Kloezeman, Jenneke, van den Bent, Martin, Kanaar, Roland, Kremer, Andreas, Swagemakers, Sigrid, French, Pim, Dirven, Clemens, Lamfers, Martine, Leenstra, Sieger, Balvers, Rutger, Kleijn, Anne, Lawler, Sean, Chen, Chiao-Chi, Yao, Nai-Wei, Chuang, Woei-Jer, Chang, Chen, Choi, Young, Pandya, Hetal, Gibo, Denise, Fokt, Isabela, Priebe, Waldemar, Debinski, Waldemar, Chornenkyy, Yev, Agnihotri, Sameer, Buczkowicz, Pawel, Rakopoulos, Patricia, Morrison, Andrew, Barszczyk, Mark, Hawkins, Cynthia, Chung, Sylvia, Decollogne, Stéphanie, Luk, Peter, Shen, Han, Ha, Wendy, Day, Bryan, Stringer, Brett, Hogg, Philip, Dilda, Pierre, McDonald, Kerrie, Das, Arabinda, Varma, Abhay, Wallace, Gerald, Dixon-Mah, Yaenette, Vandergrift, W, Giglio, Pierre, Ray, Swapan, Patel, Sunil, Banik, Naren, Dave, Nimita, Desai, Pankaj, Gudelsky, Gary, Chow, Lionel, LaSance, Kathleen, Qi, Xiaoyang, Førde, Hilde, Netland, Inger, Sleire, Linda, Skeie, Bente, Enger, Per, Goplen, Dorota, and Gramatzki, Dorothee

Abstract

The multifunctional protein - tissue inhibitor of metalloproteinases-1 (TIMP-1) - has been associated with poor prognosis in several types of cancers including glioblastomas. Glioblastomas are the most common and malignant primary brain tumor known for being highly invasive and resistant to therapy. New treatment strategies are continuously being explored and currently vascular endothelial growth factor (VEGF) inhibitors administered in combination with Irinotecan is the most promising second line treatment. TIMP-1 has been associated with decreased response to chemotherapy in breast and colorectal cancer and especially the family of topoisomerase (TOP) inhibitors, such as Irinotecan, has been suggested to be affected by TIMP-1. In the present study, we investigated whether a high TIMP-1 expression in glioblastoma cells played a role in TOP inhibitor resistance. We established two TIMP-1 over-expressing cell lines and evaluated the sensitivity towards the TOP1 inhibitor SN-38 and the TOP2 inhibitor Epirubicin using a viability and a cytotoxicity assay. In addition, we investigated the invasive features of the cells in a brain slice culture model as well as in an orthotopic xenograft model. The results showed that TIMP-1 over-expressing U87MG cell line sub-clones were significantly more resistant than the controls when exposed to SN-38 and Epirubicin. The same tendency was seen for the TIMP-1 over-expressing A172 sub-clones. No significant differences in invasion patterns were observed for TIMP-1 over-expressing sub-clones when compared to controls. In conclusion, the present study suggests that TIMP-1 over-expression reduces the effect of TOP inhibitors in the glioblastoma cell line U87MG. There was no significant effect of TIMP-1 over-expression on tumor cell invasion. The association found between TIMP-1 cellular levels and the effect of TOP inhibitors needs to be validated in clinical patient material. Pediatric supratentorial high-grade astrocytomas (pHGAs) and diffuse intrinsic pontine gliomas (DIPG) are devastating pediatric malignancies for which no effective therapies exist. Poly-(ADP-Ribose)-Polymerase (PARP) protein expression is found in ∼60% of DIPGs suggesting PARP may be a potential therapeutic target. PARP1/2 were characterized by Western-blotting in normal human astrocytes (NHA), pHGA cell lines (SJG2, SF-188), DIPG cell lines (DIPG-M, DIPG58), and one murine brainstem glioma cell line (mBSG). Cell viability in response to different dosages of Olaparib, Veliparib, or Niraparib was determined using the MTT Assay. PARP activity, apoptosis, and DNA damage was determined by Western blotting against PAR, cleaved PARP, and phosphorylated yH2AX, respectively. Cell cycle phases were analyzed using FACS and western blot for p21. Western blotting demonstrated that, compared with NHAs, PARP1 were highly expressed in SJG2, DIPG-M, and DIPG-58 cells. PARP2 expression was only detected in SJG2 cells. All PARP inhibitors reduced PARP activity as indicated by reduced PAR levels. Olaparib reduced SJG2, mBSG, DIPG58 and DIPGM cell viability at concentrations of 5 or 10uM uM (P < 0.05), Whereas Niraparib induced cytotoxicity at concentrations of 2uM and above (P < 0.05). Olaparib and Niraparib induced DNA damage and apoptosis in SJG2 at doses of 5, 10uM and 2, 5, 10uM, respectively. Niraparib induced G2 arrest in mBSG demonstrated by FACS and increased levels of p21 (P < 0.05). Our data provides in vitro evidence that PARP inhibition may be an effective therapeutic avenue for treatment of pHGA and DIPG. Furthermore while all PARP inhibitors suppress PARP activity not all PARP inhibitors reduce cell viability. Thus not all PARP inhibitors can be expected to be equally efficacious in a clinical trial setting. Toca 511 (vocimagene amiretrorepvec), an amphotropic retroviral replicating vector (RRV), can successfully and safely deliver a functional, optimized yeast cytosine deaminase (CD) gene to tumors in orthotopic glioma models. Within infected cells, CD converts 5-fluorocytosine (5-FC) to the anti-cancer drug 5-FU. The combination of Toca 511 with oral extended release 5-FC (Toca FC), is currently in clinical trials for recurrent High Grade Glioma (HGG, NCT01156584 and NCT01470794). Temozolomide (TMZ), in combination with radiation therapy, is the most commonly used first-line chemotherapy treatment for patients with glioblastoma, the most common and aggressive form of primary brain cancer. A separate study (Takahashi et al., this meeting) addresses the potential radiation synergy with Toca 511/5-FC treatment. A subset of patients with certain genetic alterations does not respond well to TMZ treatment and the overall median survival for patients who respond remains poor, suggesting combinatorial approaches may be necessary to significantly improve patient outcomes. To determine whether Toca 511 and 5-FC therapy is compatible with TMZ, we examined the effect of TMZ in combination with Toca 511 and 5-FC in TMZ-sensitive and resistant glioma lines both in vitro and in vivo. We show that in vitro TMZ delays but does not prevent RRV spread, nor interfere with Toca 511 and 5-FC mediated cell killing in glioma tumor cells, and in vivo there is no significant hematologic effect from the combination of 5-FC and the clinically relevant dose of TMZ. A synergistic long-term survival advantage is observed in mice bearing an orthotopic TMZ-sensitive glioma tumor after Toca 511 administration followed by co-administration of TMZ in combination with 5-FC. These results provide support for the investigation of this novel combination treatment strategy for patients with newly diagnosed glioblastoma. BACKGROUND: LAZ is a 21-aminosteroid that has radioprotective effects against radiation-induced lipid peroxidation. Also antiproliferative effects have been reported against glioblastoma cell lines. DESIGN/METHODS: LAZ PEGylated liposomes (Lipo G) were developed at the University of Houston.. Glioblastoma cell line U87-expressing firefly luciferase reporter gene (100,000 cells in 2 µL) was injected intracranially in each SCID mouse. There were 4 treatment groups (n = 8-9, each): brain model (M) without treatment (control), radiation 2Gy weekly (M + R), Lipo G at 5 mg/kg dose intraperitoneally twice per week (M + L) and radiation with Lipo G (M + R + L). Treatment lasted three weeks. Tumor size was monitored using bioluminescence imaging (BLI), in each mouse. Mice were sacrificed after 3 weeks. Brain was harvested. Lipid peroxidation of brain tissues was quantified by measuring malondialdehyde (MDA) as a surrogate biomarker. Survival was evaluated using Kaplan Meier analysis at P= 0.05. RESULTS: BLI intensity was 4002.03 ± 1737.67, 2034 ± 737.72, 1387.36 ± 684.53 and 2498.89 ± 2521.32 % for M, M + R, M + L and M + R + L, respectively. Tumor size of the M + L group was reduced by 65% compared to control. There was no significant difference in tumor size of radiated groups compared to control group. MDA brain concentration in M + L and M + R + L groups was significantly less than in M + R group (8.27 ± 0.78 and 10.37 ± 3.30 µM/gm vs. 23.09± 3.79 µM/gm). The survival mean was 22.67, 25.33, 25.22 and 27.13 days for M, M + R, M + R + L and M + L groups, respectively. Mean survival of LAZ treated groups (M + L and M + R + L) was significantly longer than that of the control group. CONCLUSIONS: LAZ liposomal formulations reduced tumor growth by 65%. LAZ also protected brain tissue from radiation-induced lipid peroxidation by reducing MDA concentration by 50%. These provocative data warrant further investigation of LAZ as a radiation protectant and chemotherapeutic agent. Patients with malignant brain tumors have a median survival of approximately one year following diagnosis, regardless of currently available treatments which include surgery followed by radiation and chemotherapy. Improvement in the survival of brain cancer patients requires the design of new therapeutic modalities that take advantage of common phenotypes. One such phenotype is the metabolic dysregulation that is a hallmark of cancer cells. It has therefore been postulated that one approach to treating brain tumors may be by metabolic alteration such as that which occurs through the use of the ketogenic diet (KD). The KD is high-fat, low-carbohydrate diet that induces ketosis and has been utilized for the non-pharmacologic treatment of refractory epilepsy. We and others have shown that this diet enhances survival and potentiates standard therapy in mouse models of malignant gliomas, yet the anti-tumor mechanisms are not fully understood. It has been previously shown that caloric restriction, which induces ketosis, reduces microvessel density in mouse and human brain tumor models, suggesting an anti-angiogenic effect. We now report that in animals fed KetoCal® (KC)(4:1 fat:protein/carbohydrates) ad libitum, peritumoral edema is significantly reduced early in tumor progression when compared to those fed a standard rodent diet. Gene expression profiling demonstrated that KC decreases the expression of the gene encoding vascular endothelial growth factor B (VEGFB) and angiopoetin 1 receptor (TEK). Furthermore, protein analysis showed a reduction of platelet endothelial cell adhesion molecule 1 (PECAM1/CD31) in tumors from animals maintained on KC. Taken together our data suggests that KC alters the angiogenic processes involved in malignant progression of gliomas. A greater understanding of the effects of the ketogenic diet as an adjuvant therapy will allow for a more rational approach to its clinical use.

Published

2013

3. Editorial: Methods in cancer genetics

Author

D’Aguanno, Simona, primary and Buczkowicz, Pawel, additional

Published

2023

4. Editorial: Recent advances in the molecular genetics of glioma.

Author

Chung, Caroline and Buczkowicz, Pawel

Subjects

CENTRAL nervous system tumors, TUMOR genetics, CANCER genetics, MOLECULAR genetics, CHROMOSOMAL proteins, GENE amplification

Abstract

This article is an editorial that discusses recent advances in the molecular genetics of glioma, a type of brain tumor. Gliomas are a leading cause of cancer-related death in certain age groups, emphasizing the need for effective diagnostic and therapeutic strategies. The article highlights the importance of understanding the molecular genetics of glioma in developing targeted therapies. It also discusses the role of gene expression profiles in predicting prognosis and shaping treatment strategies. The editorial explores three key avenues for therapeutic interventions: single-targets, pan-targets, and immunotherapy. The complex and heterogeneous nature of gliomas presents challenges but also opportunities for personalized treatments. Ongoing research is crucial for improving patient survival and quality of life. [Extracted from the article]

Published

2024

5. Supplementary Table 1 - Cell line information from Poly-ADP-Ribose Polymerase as a Therapeutic Target in Pediatric Diffuse Intrinsic Pontine Glioma and Pediatric High-Grade Astrocytoma

Author

Chornenkyy, Yevgen, primary, Agnihotri, Sameer, primary, Yu, Man, primary, Buczkowicz, Pawel, primary, Rakopoulos, Patricia, primary, Golbourn, Brian, primary, Garzia, Livia, primary, Siddaway, Robert, primary, Leung, Stephie, primary, Rutka, James T., primary, Taylor, Michael D., primary, Dirks, Peter B., primary, and Hawkins, Cynthia, primary

Published

2023

6. Supplementary Figure 1 - PARP1 protein is expressed in pHGA and DIPG patient samples from Poly-ADP-Ribose Polymerase as a Therapeutic Target in Pediatric Diffuse Intrinsic Pontine Glioma and Pediatric High-Grade Astrocytoma

Author

Chornenkyy, Yevgen, primary, Agnihotri, Sameer, primary, Yu, Man, primary, Buczkowicz, Pawel, primary, Rakopoulos, Patricia, primary, Golbourn, Brian, primary, Garzia, Livia, primary, Siddaway, Robert, primary, Leung, Stephie, primary, Rutka, James T., primary, Taylor, Michael D., primary, Dirks, Peter B., primary, and Hawkins, Cynthia, primary

Published

2023

7. Supplementary Figure 4 - Niraparib induces growth arrest in SJG2 and SF188 cells. from Poly-ADP-Ribose Polymerase as a Therapeutic Target in Pediatric Diffuse Intrinsic Pontine Glioma and Pediatric High-Grade Astrocytoma

Author

Chornenkyy, Yevgen, primary, Agnihotri, Sameer, primary, Yu, Man, primary, Buczkowicz, Pawel, primary, Rakopoulos, Patricia, primary, Golbourn, Brian, primary, Garzia, Livia, primary, Siddaway, Robert, primary, Leung, Stephie, primary, Rutka, James T., primary, Taylor, Michael D., primary, Dirks, Peter B., primary, and Hawkins, Cynthia, primary

Published

2023

8. Supplemental Figure Legends from ATM Regulates 3-Methylpurine-DNA Glycosylase and Promotes Therapeutic Resistance to Alkylating Agents

Author

Agnihotri, Sameer, primary, Burrell, Kelly, primary, Buczkowicz, Pawel, primary, Remke, Marc, primary, Golbourn, Brian, primary, Chornenkyy, Yevgen, primary, Gajadhar, Aaron, primary, Fernandez, Nestor A., primary, Clarke, Ian D., primary, Barszczyk, Mark S., primary, Pajovic, Sanja, primary, Ternamian, Christian, primary, Head, Renee, primary, Sabha, Nesrin, primary, Sobol, Robert W., primary, Taylor, Michael D., primary, Rutka, James T., primary, Jones, Chris, primary, Dirks, Peter B., primary, Zadeh, Gelareh, primary, and Hawkins, Cynthia, primary

Published

2023

9. Data from ATM Regulates 3-Methylpurine-DNA Glycosylase and Promotes Therapeutic Resistance to Alkylating Agents

Author

Agnihotri, Sameer, primary, Burrell, Kelly, primary, Buczkowicz, Pawel, primary, Remke, Marc, primary, Golbourn, Brian, primary, Chornenkyy, Yevgen, primary, Gajadhar, Aaron, primary, Fernandez, Nestor A., primary, Clarke, Ian D., primary, Barszczyk, Mark S., primary, Pajovic, Sanja, primary, Ternamian, Christian, primary, Head, Renee, primary, Sabha, Nesrin, primary, Sobol, Robert W., primary, Taylor, Michael D., primary, Rutka, James T., primary, Jones, Chris, primary, Dirks, Peter B., primary, Zadeh, Gelareh, primary, and Hawkins, Cynthia, primary

Published

2023

10. Supplemental Figures 1 - 9 from ATM Regulates 3-Methylpurine-DNA Glycosylase and Promotes Therapeutic Resistance to Alkylating Agents

Author

Agnihotri, Sameer, primary, Burrell, Kelly, primary, Buczkowicz, Pawel, primary, Remke, Marc, primary, Golbourn, Brian, primary, Chornenkyy, Yevgen, primary, Gajadhar, Aaron, primary, Fernandez, Nestor A., primary, Clarke, Ian D., primary, Barszczyk, Mark S., primary, Pajovic, Sanja, primary, Ternamian, Christian, primary, Head, Renee, primary, Sabha, Nesrin, primary, Sobol, Robert W., primary, Taylor, Michael D., primary, Rutka, James T., primary, Jones, Chris, primary, Dirks, Peter B., primary, Zadeh, Gelareh, primary, and Hawkins, Cynthia, primary

Published

2023

11. Supplementary Figure 3 - Niraparib treatment increases DNA damage and decreases proliferation. from Poly-ADP-Ribose Polymerase as a Therapeutic Target in Pediatric Diffuse Intrinsic Pontine Glioma and Pediatric High-Grade Astrocytoma

Author

Chornenkyy, Yevgen, primary, Agnihotri, Sameer, primary, Yu, Man, primary, Buczkowicz, Pawel, primary, Rakopoulos, Patricia, primary, Golbourn, Brian, primary, Garzia, Livia, primary, Siddaway, Robert, primary, Leung, Stephie, primary, Rutka, James T., primary, Taylor, Michael D., primary, Dirks, Peter B., primary, and Hawkins, Cynthia, primary

Published

2023

12. Supplemental Methods from ATM Regulates 3-Methylpurine-DNA Glycosylase and Promotes Therapeutic Resistance to Alkylating Agents

Author

Agnihotri, Sameer, primary, Burrell, Kelly, primary, Buczkowicz, Pawel, primary, Remke, Marc, primary, Golbourn, Brian, primary, Chornenkyy, Yevgen, primary, Gajadhar, Aaron, primary, Fernandez, Nestor A., primary, Clarke, Ian D., primary, Barszczyk, Mark S., primary, Pajovic, Sanja, primary, Ternamian, Christian, primary, Head, Renee, primary, Sabha, Nesrin, primary, Sobol, Robert W., primary, Taylor, Michael D., primary, Rutka, James T., primary, Jones, Chris, primary, Dirks, Peter B., primary, Zadeh, Gelareh, primary, and Hawkins, Cynthia, primary

Published

2023

13. Supplementary Figure Legends from Poly-ADP-Ribose Polymerase as a Therapeutic Target in Pediatric Diffuse Intrinsic Pontine Glioma and Pediatric High-Grade Astrocytoma

Author

Chornenkyy, Yevgen, primary, Agnihotri, Sameer, primary, Yu, Man, primary, Buczkowicz, Pawel, primary, Rakopoulos, Patricia, primary, Golbourn, Brian, primary, Garzia, Livia, primary, Siddaway, Robert, primary, Leung, Stephie, primary, Rutka, James T., primary, Taylor, Michael D., primary, Dirks, Peter B., primary, and Hawkins, Cynthia, primary

Published

2023

14. Supplemental Table 1 from ATM Regulates 3-Methylpurine-DNA Glycosylase and Promotes Therapeutic Resistance to Alkylating Agents

Author

Agnihotri, Sameer, primary, Burrell, Kelly, primary, Buczkowicz, Pawel, primary, Remke, Marc, primary, Golbourn, Brian, primary, Chornenkyy, Yevgen, primary, Gajadhar, Aaron, primary, Fernandez, Nestor A., primary, Clarke, Ian D., primary, Barszczyk, Mark S., primary, Pajovic, Sanja, primary, Ternamian, Christian, primary, Head, Renee, primary, Sabha, Nesrin, primary, Sobol, Robert W., primary, Taylor, Michael D., primary, Rutka, James T., primary, Jones, Chris, primary, Dirks, Peter B., primary, Zadeh, Gelareh, primary, and Hawkins, Cynthia, primary

Published

2023

15. Supplementary Figure 2 - Cell viability assay for pediatric brain tumour lines exposed to the indicated concentrations of Veliparib, Olaparib, or Niraparib. from Poly-ADP-Ribose Polymerase as a Therapeutic Target in Pediatric Diffuse Intrinsic Pontine Glioma and Pediatric High-Grade Astrocytoma

Author

Chornenkyy, Yevgen, primary, Agnihotri, Sameer, primary, Yu, Man, primary, Buczkowicz, Pawel, primary, Rakopoulos, Patricia, primary, Golbourn, Brian, primary, Garzia, Livia, primary, Siddaway, Robert, primary, Leung, Stephie, primary, Rutka, James T., primary, Taylor, Michael D., primary, Dirks, Peter B., primary, and Hawkins, Cynthia, primary

Published

2023

16. Supplementary Figure 5 - Low doses of Niraparib reduce the rate of DNA repair and sensitize cells to ionizing radiation from Poly-ADP-Ribose Polymerase as a Therapeutic Target in Pediatric Diffuse Intrinsic Pontine Glioma and Pediatric High-Grade Astrocytoma

Author

Chornenkyy, Yevgen, primary, Agnihotri, Sameer, primary, Yu, Man, primary, Buczkowicz, Pawel, primary, Rakopoulos, Patricia, primary, Golbourn, Brian, primary, Garzia, Livia, primary, Siddaway, Robert, primary, Leung, Stephie, primary, Rutka, James T., primary, Taylor, Michael D., primary, Dirks, Peter B., primary, and Hawkins, Cynthia, primary

Published

2023

17. EPCO-17. UNMASKING CLONAL EVOLUTION OF DIFFUSE INTRINSIC GLIOMA USING MULTI-MODAL GENOMIC DATA

Author

Patel, Palak, primary, Ryall, Scott, additional, Turinsky, Andrei, additional, Siddaway, Robert, additional, Pajovic, Sanja, additional, Buczkowicz, Pawel, additional, Brudno, Michael, additional, Ramani, Arun, additional, and Hawkins, Cynthia, additional

Published

2022

18. Telomerase inhibition abolishes the tumorigenicity of pediatric ependymoma tumor-initiating cells

Author

Barszczyk, Mark, Buczkowicz, Pawel, Castelo-Branco, Pedro, Mack, Stephen C., Ramaswamy, Vijay, Mangerel, Joshua, Agnihotri, Sameer, Remke, Marc, Golbourn, Brian, Pajovic, Sanja, Elizabeth, Cynthia, Yu, Man, Luu, Betty, Morrison, Andrew, Adamski, Jennifer, Nethery-Brokx, Kathleen, Li, Xiao-Nan, Van Meter, Timothy, Dirks, Peter B., Rutka, James T., Taylor, Michael D., Tabori, Uri, and Hawkins, Cynthia

Published

2014

19. Alternative lengthening of telomeres is enriched in, and impacts survival of TP53 mutant pediatric malignant brain tumors

Author

Mangerel, Joshua, Price, Aryeh, Castelo-Branco, Pedro, Brzezinski, Jack, Buczkowicz, Pawel, Rakopoulos, Patricia, Merino, Diana, Baskin, Berivan, Wasserman, Jonathan, Mistry, Matthew, Barszczyk, Mark, Picard, Daniel, Mack, Stephen, Remke, Marc, Starkman, Hava, Elizabeth, Cynthia, Zhang, Cindy, Alon, Noa, Lees, Jodi, Andrulis, Irene L., Wunder, Jay S., Jabado, Nada, Johnston, Donna L., Rutka, James T., Dirks, Peter B., Bouffet, Eric, Taylor, Michael D., Huang, Annie, Malkin, David, Hawkins, Cynthia, and Tabori, Uri

Published

2014

20. Histopathological spectrum of paediatric diffuse intrinsic pontine glioma: diagnostic and therapeutic implications

Author

Buczkowicz, Pawel, Bartels, Ute, Bouffet, Eric, Becher, Oren, and Hawkins, Cynthia

Published

2014

21. IGenomic answers for children: Dynamic analyses of >1000 pediatric rare disease genomes

Author

Cohen, Ana SA, primary, Farrow, Emily G, additional, Abdelmoity, Ahmed T, additional, Alaimo, Joseph T, additional, Amudhavalli, Shivarajan M, additional, Anderson, John T, additional, Bansal, Lalit, additional, Bartik, Lauren, additional, Baybayan, Primo, additional, Belden, Bradley, additional, Berrios, Courtney D, additional, Biswell, Rebecca L, additional, Buczkowicz, Pawel, additional, Buske, Orion, additional, Chakraborty, Shreyasee, additional, Cheung, Warren A, additional, Coffman, Keith A, additional, Cooper, Ashley M, additional, Cross, Laura A, additional, Curran, Thomas, additional, Dang, Thuy Tien T, additional, Elfrink, Mary M, additional, Engleman, Kendra L, additional, Fecske, Erin D, additional, Fieser, Cynthia, additional, Fitzgerald, Keely, additional, Fleming, Emily A, additional, Gadea, Randi N, additional, Gannon, Jennifer L, additional, Gelineau-Morel, Rose N, additional, Gibson, Margaret, additional, Goldstein, Jeffrey, additional, Grundberg, Elin, additional, Halpin, Kelsee, additional, Harvey, Brian S, additional, Heese, Bryce A, additional, Hein, Wendy, additional, Herd, Suzanne M, additional, Hughes, Susan S, additional, Ilyas, Mohammed, additional, Jacobson, Jill, additional, Jenkins, Janda L, additional, Jiang, Shao, additional, Johnston, Jeffrey J, additional, Keeler, Kathryn, additional, Korlach, Jonas, additional, Kussmann, Jennifer, additional, Lambert, Christine, additional, Lawson, Caitlin, additional, Le Pichon, Jean-Baptiste, additional, Leeder, Steve, additional, Little, Vicki C, additional, Louiselle, Daniel A, additional, Lypka, Michael, additional, McDonald, Brittany D, additional, Miller, Neil, additional, Modrcin, Ann, additional, Nair, Annapoorna, additional, Neal, Shelby H, additional, Oermann, Christopher M, additional, Pacicca, Donna M, additional, Pawar, Kailash, additional, Posey, Nyshele L, additional, Price, Nigel, additional, Puckett, Laura MB, additional, Quezada, Julio F, additional, Raje, Nikita, additional, Rowell, William J, additional, Rush, Eric T, additional, Sampath, Venkatesh, additional, Saunders, Carol J, additional, Schwager, Caitlin, additional, Schwend, Richard M, additional, Shaffer, Elizabeth, additional, Smail, Craig, additional, Soden, Sarah, additional, Strenk, Meghan E, additional, Sullivan, Bonnie R, additional, Sweeney, Brooke R, additional, Tam-Williams, Jade B, additional, Walter, Adam M, additional, Welsh, Holly, additional, Wenger, Aaron M, additional, Willig, Laurel K, additional, Yan, Yun, additional, Younger, Scott T, additional, Zhou, Dihong, additional, Zion, Tricia N, additional, Thiffault, Isabelle, additional, and Pastinen, Tomi, additional

Published

2021

22. K27M mutation in histone H3.3 defines clinically and biologically distinct subgroups of pediatric diffuse intrinsic pontine gliomas

Author

Khuong-Quang, Dong-Anh, Buczkowicz, Pawel, Rakopoulos, Patricia, Liu, Xiao-Yang, Fontebasso, Adam M., Bouffet, Eric, Bartels, Ute, Albrecht, Steffen, Schwartzentruber, Jeremy, Letourneau, Louis, Bourgey, Mathieu, Bourque, Guillaume, Montpetit, Alexandre, Bourret, Genevieve, Lepage, Pierre, Fleming, Adam, Lichter, Peter, Kool, Marcel, von Deimling, Andreas, Sturm, Dominik, Korshunov, Andrey, Faury, Damien, Jones, David T., Majewski, Jacek, Pfister, Stefan M., Jabado, Nada, and Hawkins, Cynthia

Published

2012

23. Editorial: Methods in cancer genetics.

Author

D'Aguanno, Simona and Buczkowicz, Pawel

Subjects

CANCER genetics, MICROSATELLITE repeats, MEDICAL genetics

Published

2023

24. Aurora Kinase B Is a Potential Therapeutic Target in Pediatric Diffuse Intrinsic Pontine Glioma

Author

Buczkowicz, Pawel, Zarghooni, Maryam, Bartels, Ute, Morrison, Andrew, Misuraca, Katherine L., Chan, Tiffany, Bouffet, Eric, Huang, Annie, Becher, Oren, and Hawkins, Cynthia

Published

2013

25. GLI2 Is a Potential Therapeutic Target in Pediatric Medulloblastoma

Author

Buczkowicz, Pawel, Ma, Jing, and Hawkins, Cynthia

Published

2011

26. Additional file 8: Figure S4. of Targeted detection of genetic alterations reveal the prognostic impact of H3K27M and MAPK pathway aberrations in paediatric thalamic glioma

Author

Ryall, Scott, Krishnatry, Rahul, Arnoldo, Anthony, Buczkowicz, Pawel, Mistry, Matthew, Siddaway, Robert, Ling, Cino, Pajovic, Sanja, Yu, Man, Rubin, Joshua, Hukin, Juliette, Steinbok, Paul, Bartels, Ute, Bouffet, Eric, Tabori, Uri, and Hawkins, Cynthia

Subjects

endocrine system, technology, industry, and agriculture, complex mixtures, eye diseases

Abstract

Droplet digital PCR minimum mutant allele frequency detection. (PPTX 38Â kb)

Published

2016

27. Additional file 6: Table S3. of Targeted detection of genetic alterations reveal the prognostic impact of H3K27M and MAPK pathway aberrations in paediatric thalamic glioma

Author

Ryall, Scott, Krishnatry, Rahul, Arnoldo, Anthony, Buczkowicz, Pawel, Mistry, Matthew, Siddaway, Robert, Ling, Cino, Pajovic, Sanja, Yu, Man, Rubin, Joshua, Hukin, Juliette, Steinbok, Paul, Bartels, Ute, Bouffet, Eric, Tabori, Uri, and Hawkins, Cynthia

Abstract

Droplet digital PCR H3K27M detection validation as compared to WES and Sanger Sequencing. (DOCX 12Â kb)

Published

2016

28. Additional file 4: Figure S2. of Targeted detection of genetic alterations reveal the prognostic impact of H3K27M and MAPK pathway aberrations in paediatric thalamic glioma

Author

Ryall, Scott, Krishnatry, Rahul, Arnoldo, Anthony, Buczkowicz, Pawel, Mistry, Matthew, Siddaway, Robert, Ling, Cino, Pajovic, Sanja, Yu, Man, Rubin, Joshua, Hukin, Juliette, Steinbok, Paul, Bartels, Ute, Bouffet, Eric, Tabori, Uri, and Hawkins, Cynthia

Abstract

Droplet digital PCR annealing temperature comparison. (PPTX 173Â kb)

Published

2016

29. Additional file 12: Figure S5. of Targeted detection of genetic alterations reveal the prognostic impact of H3K27M and MAPK pathway aberrations in paediatric thalamic glioma

Author

Ryall, Scott, Krishnatry, Rahul, Arnoldo, Anthony, Buczkowicz, Pawel, Mistry, Matthew, Siddaway, Robert, Ling, Cino, Pajovic, Sanja, Yu, Man, Rubin, Joshua, Hukin, Juliette, Steinbok, Paul, Bartels, Ute, Bouffet, Eric, Tabori, Uri, and Hawkins, Cynthia

Abstract

Clinical characteristics of H3K27M and H3WT paediatric thalamic glioma Canadian cohort. (PPTX 84Â kb)

Published

2016

30. Additional file 10: Table S6. of Targeted detection of genetic alterations reveal the prognostic impact of H3K27M and MAPK pathway aberrations in paediatric thalamic glioma

Author

Ryall, Scott, Krishnatry, Rahul, Arnoldo, Anthony, Buczkowicz, Pawel, Mistry, Matthew, Siddaway, Robert, Ling, Cino, Pajovic, Sanja, Yu, Man, Rubin, Joshua, Hukin, Juliette, Steinbok, Paul, Bartels, Ute, Bouffet, Eric, Tabori, Uri, and Hawkins, Cynthia

Subjects

neoplasms, nervous system diseases

Abstract

Clinical characteristics of paediatric thalamic glioma Canadian cohort. (DOCX 12Â kb)

Published

2016

31. Additional file 3: Figure S1. of Targeted detection of genetic alterations reveal the prognostic impact of H3K27M and MAPK pathway aberrations in paediatric thalamic glioma

Author

Ryall, Scott, Krishnatry, Rahul, Arnoldo, Anthony, Buczkowicz, Pawel, Mistry, Matthew, Siddaway, Robert, Ling, Cino, Pajovic, Sanja, Yu, Man, Rubin, Joshua, Hukin, Juliette, Steinbok, Paul, Bartels, Ute, Bouffet, Eric, Tabori, Uri, and Hawkins, Cynthia

Subjects

endocrine system, technology, industry, and agriculture, complex mixtures, eye diseases

Abstract

Droplet digital PCR minimum concentration detection. (PPTX 55Â kb)

Published

2016

32. Additional file 5: Figure S3. of Targeted detection of genetic alterations reveal the prognostic impact of H3K27M and MAPK pathway aberrations in paediatric thalamic glioma

Author

Ryall, Scott, Krishnatry, Rahul, Arnoldo, Anthony, Buczkowicz, Pawel, Mistry, Matthew, Siddaway, Robert, Ling, Cino, Pajovic, Sanja, Yu, Man, Rubin, Joshua, Hukin, Juliette, Steinbok, Paul, Bartels, Ute, Bouffet, Eric, Tabori, Uri, and Hawkins, Cynthia

Subjects

eye diseases

Abstract

Droplet digital PCR pre-PCR digestion versus no digestion comparison. (PPTX 102Â kb)

Published

2016

33. Spatial heterogeneity in medulloblastoma

Author

Morrissy, A Sorana, primary, Cavalli, Florence M G, additional, Remke, Marc, additional, Ramaswamy, Vijay, additional, Shih, David J H, additional, Holgado, Borja L, additional, Farooq, Hamza, additional, Donovan, Laura K, additional, Garzia, Livia, additional, Agnihotri, Sameer, additional, Kiehna, Erin N, additional, Mercier, Eloi, additional, Mayoh, Chelsea, additional, Papillon-Cavanagh, Simon, additional, Nikbakht, Hamid, additional, Gayden, Tenzin, additional, Torchia, Jonathon, additional, Picard, Daniel, additional, Merino, Diana M, additional, Vladoiu, Maria, additional, Luu, Betty, additional, Wu, Xiaochong, additional, Daniels, Craig, additional, Horswell, Stuart, additional, Thompson, Yuan Yao, additional, Hovestadt, Volker, additional, Northcott, Paul A, additional, Jones, David T W, additional, Peacock, John, additional, Wang, Xin, additional, Mack, Stephen C, additional, Reimand, Jüri, additional, Albrecht, Steffen, additional, Fontebasso, Adam M, additional, Thiessen, Nina, additional, Li, Yisu, additional, Schein, Jacqueline E, additional, Lee, Darlene, additional, Carlsen, Rebecca, additional, Mayo, Michael, additional, Tse, Kane, additional, Tam, Angela, additional, Dhalla, Noreen, additional, Ally, Adrian, additional, Chuah, Eric, additional, Cheng, Young, additional, Plettner, Patrick, additional, Li, Haiyan I, additional, Corbett, Richard D, additional, Wong, Tina, additional, Long, William, additional, Loukides, James, additional, Buczkowicz, Pawel, additional, Hawkins, Cynthia E, additional, Tabori, Uri, additional, Rood, Brian R, additional, Myseros, John S, additional, Packer, Roger J, additional, Korshunov, Andrey, additional, Lichter, Peter, additional, Kool, Marcel, additional, Pfister, Stefan M, additional, Schüller, Ulrich, additional, Dirks, Peter, additional, Huang, Annie, additional, Bouffet, Eric, additional, Rutka, James T, additional, Bader, Gary D, additional, Swanton, Charles, additional, Ma, Yusanne, additional, Moore, Richard A, additional, Mungall, Andrew J, additional, Majewski, Jacek, additional, Jones, Steven J M, additional, Das, Sunit, additional, Malkin, David, additional, Jabado, Nada, additional, Marra, Marco A, additional, and Taylor, Michael D, additional

Published

2017

34. Identification of complex genomic rearrangements in cancers using CouGaR

Author

Dzamba, Misko, primary, Ramani, Arun K., additional, Buczkowicz, Pawel, additional, Jiang, Yue, additional, Yu, Man, additional, Hawkins, Cynthia, additional, and Brudno, Michael, additional

Published

2016

35. Targeted detection of genetic alterations reveal the prognostic impact of H3K27M and MAPK pathway aberrations in paediatric thalamic glioma

Author

Ryall, Scott, primary, Krishnatry, Rahul, additional, Arnoldo, Anthony, additional, Buczkowicz, Pawel, additional, Mistry, Matthew, additional, Siddaway, Robert, additional, Ling, Cino, additional, Pajovic, Sanja, additional, Yu, Man, additional, Rubin, Joshua B., additional, Hukin, Juliette, additional, Steinbok, Paul, additional, Bartels, Ute, additional, Bouffet, Eric, additional, Tabori, Uri, additional, and Hawkins, Cynthia, additional

Published

2016

36. HG-71ULTRA-SENSITIVE DETECTION OF HOTSPOT MUTATIONS IN PEDIATRIC THALAMIC TUMOURS TO REVEAL NEGATIVE PROGNOSTIC MARKERS

Author

Ryall, Scott, primary, Arnoldo, Anthony, additional, Buczkowicz, Pawel, additional, Mistry, Matthew, additional, Krishnatry, Rahul, additional, Rubin, Josh, additional, Steinbok, Paul, additional, Tabori, Uri, additional, and Hawkins, Cynthia, additional

Published

2016

37. Erratum: Spatial genomic heterogeneity in diffuse intrinsic pontine and midline high-grade glioma: implications for diagnostic biopsy and targeted therapeutics

Author

Hoffman, Lindsey M., primary, DeWire, Mariko, additional, Ryall, Scott, additional, Buczkowicz, Pawel, additional, Leach, James, additional, Miles, Lili, additional, Ramani, Arun K., additional, Brudno, Michael, additional, Kumar, Shiva Senthil, additional, Drissi, Rachid, additional, Dexheimer, Phillip, additional, Salloum, Ralph, additional, Chow, Lionel, additional, Hummel, Trent, additional, Stevenson, Charles, additional, Lu, Q. Richard, additional, Jones, Blaise, additional, Witte, David, additional, Aronow, Bruce, additional, Hawkins, Cynthia E., additional, and Fouladi, Maryam, additional

Published

2016

38. Abstract B12: H3-K27M is a negative prognostic marker in high- and low-grade pediatric thalamic glioma

Author

Ryall, Scott, primary, Buczkowicz, Pawel, additional, Arnoldo, Anthony, additional, Krishnatry, Rahul, additional, Mistry, Matthew, additional, Rubin, Joshua, additional, Steinbok, Paul, additional, Tabori, Uri, additional, and Hawkins, Cynthia, additional

Published

2016

39. Spatial genomic heterogeneity in diffuse intrinsic pontine and midline high-grade glioma: implications for diagnostic biopsy and targeted therapeutics

Author

Hoffman, Lindsey M., primary, DeWire, Mariko, additional, Ryall, Scott, additional, Buczkowicz, Pawel, additional, Leach, James, additional, Miles, Lili, additional, Ramani, Arun, additional, Brudno, Michael, additional, Kumar, Shiva Senthil, additional, Drissi, Rachid, additional, Dexheimer, Phillip, additional, Salloum, Ralph, additional, Chow, Lionel, additional, Hummel, Trent, additional, Stevenson, Charles, additional, Lu, Q. Richard, additional, Jones, Blaise, additional, Witte, David, additional, Aronow, Bruce, additional, Hawkins, Cynthia E., additional, and Fouladi, Maryam, additional

Published

2016

40. Poly-ADP-Ribose Polymerase as a Therapeutic Target in Pediatric Diffuse Intrinsic Pontine Glioma and Pediatric High-Grade Astrocytoma

Author

Chornenkyy, Yevgen, primary, Agnihotri, Sameer, additional, Yu, Man, additional, Buczkowicz, Pawel, additional, Rakopoulos, Patricia, additional, Golbourn, Brian, additional, Garzia, Livia, additional, Siddaway, Robert, additional, Leung, Stephie, additional, Rutka, James T., additional, Taylor, Michael D., additional, Dirks, Peter B., additional, and Hawkins, Cynthia, additional

Published

2015

41. Pathology, Molecular Genetics, and Epigenetics of Diffuse Intrinsic Pontine Glioma

Author

Buczkowicz, Pawel, primary and Hawkins, Cynthia, additional

Published

2015

42. BRAF Mutation and CDKN2A Deletion Define a Clinically Distinct Subgroup of Childhood Secondary High-Grade Glioma

Author

Mistry, Matthew, primary, Zhukova, Nataliya, additional, Merico, Daniele, additional, Rakopoulos, Patricia, additional, Krishnatry, Rahul, additional, Shago, Mary, additional, Stavropoulos, James, additional, Alon, Noa, additional, Pole, Jason D., additional, Ray, Peter N., additional, Navickiene, Vilma, additional, Mangerel, Joshua, additional, Remke, Marc, additional, Buczkowicz, Pawel, additional, Ramaswamy, Vijay, additional, Guerreiro Stucklin, Ana, additional, Li, Martin, additional, Young, Edwin J., additional, Zhang, Cindy, additional, Castelo-Branco, Pedro, additional, Bakry, Doua, additional, Laughlin, Suzanne, additional, Shlien, Adam, additional, Chan, Jennifer, additional, Ligon, Keith L., additional, Rutka, James T., additional, Dirks, Peter B., additional, Taylor, Michael D., additional, Greenberg, Mark, additional, Malkin, David, additional, Huang, Annie, additional, Bouffet, Eric, additional, Hawkins, Cynthia E., additional, and Tabori, Uri, additional

Published

2015

43. Abstract A18: Uncovering molecular subgroups and a novel cancer driver, ACVR1, in diffuse intrinsic pontine gliomas

Author

Buczkowicz, Pawel, primary, Hoeman, Christine, additional, Rakopoulos, Patricia, additional, Pajovic, Sanja, additional, Morrison, Andrew, additional, Bouffet, Eric, additional, Bartels, Ute, additional, Becher, Oren, additional, and Hawkins, Cynthia, additional

Published

2014

44. ATM Regulates 3-Methylpurine-DNA Glycosylase and Promotes Therapeutic Resistance to Alkylating Agents

Author

Agnihotri, Sameer, primary, Burrell, Kelly, additional, Buczkowicz, Pawel, additional, Remke, Marc, additional, Golbourn, Brian, additional, Chornenkyy, Yevgen, additional, Gajadhar, Aaron, additional, Fernandez, Nestor A., additional, Clarke, Ian D., additional, Barszczyk, Mark S., additional, Pajovic, Sanja, additional, Ternamian, Christian, additional, Head, Renee, additional, Sabha, Nesrin, additional, Sobol, Robert W., additional, Taylor, Michael D., additional, Rutka, James T., additional, Jones, Chris, additional, Dirks, Peter B., additional, Zadeh, Gelareh, additional, and Hawkins, Cynthia, additional

Published

2014

45. Genomic analysis of diffuse intrinsic pontine gliomas identifies three molecular subgroups and recurrent activating ACVR1 mutations

Author

Buczkowicz, Pawel, primary, Hoeman, Christine, additional, Rakopoulos, Patricia, additional, Pajovic, Sanja, additional, Letourneau, Louis, additional, Dzamba, Misko, additional, Morrison, Andrew, additional, Lewis, Peter, additional, Bouffet, Eric, additional, Bartels, Ute, additional, Zuccaro, Jennifer, additional, Agnihotri, Sameer, additional, Ryall, Scott, additional, Barszczyk, Mark, additional, Chornenkyy, Yevgen, additional, Bourgey, Mathieu, additional, Bourque, Guillaume, additional, Montpetit, Alexandre, additional, Cordero, Francisco, additional, Castelo-Branco, Pedro, additional, Mangerel, Joshua, additional, Tabori, Uri, additional, Ho, King Ching, additional, Huang, Annie, additional, Taylor, Kathryn R, additional, Mackay, Alan, additional, Bendel, Anne E, additional, Nazarian, Javad, additional, Fangusaro, Jason R, additional, Karajannis, Matthias A, additional, Zagzag, David, additional, Foreman, Nicholas K, additional, Donson, Andrew, additional, Hegert, Julia V, additional, Smith, Amy, additional, Chan, Jennifer, additional, Lafay-Cousin, Lucy, additional, Dunn, Sandra, additional, Hukin, Juliette, additional, Dunham, Chris, additional, Scheinemann, Katrin, additional, Michaud, Jean, additional, Zelcer, Shayna, additional, Ramsay, David, additional, Cain, Jason, additional, Brennan, Cameron, additional, Souweidane, Mark M, additional, Jones, Chris, additional, Allis, C David, additional, Brudno, Michael, additional, Becher, Oren, additional, and Hawkins, Cynthia, additional

Published

2014

46. Aurora Kinase B Is a Potential Therapeutic Target in Pediatric Diffuse Intrinsic Pontine Glioma

Author

Buczkowicz, Pawel, primary, Zarghooni, Maryam, additional, Bartels, Ute, additional, Morrison, Andrew, additional, Misuraca, Katherine L., additional, Chan, Tiffany, additional, Bouffet, Eric, additional, Huang, Annie, additional, Becher, Oren, additional, and Hawkins, Cynthia, additional

Published

2012

47. Abstract 3455: Comparison of expression profiles of pediatric high and low grade brainstem gliomas to pediatric supratentorial high grade astrocytomas

Author

Buczkowicz, Pawel, primary, Bartels, Ute, additional, Morrison, Andrew, additional, Bouffet, Eric, additional, Tabori, Uri, additional, and Hawkins, Cynthia, additional

Published

2011

48. Whole-Genome Profiling of Pediatric Diffuse Intrinsic Pontine Gliomas Highlights Platelet-Derived Growth Factor Receptor α and Poly (ADP-ribose) Polymerase As Potential Therapeutic Targets

Author

Zarghooni, Maryam, primary, Bartels, Ute, additional, Lee, Eric, additional, Buczkowicz, Pawel, additional, Morrison, Andrew, additional, Huang, Annie, additional, Bouffet, Eric, additional, and Hawkins, Cynthia, additional

Published

2010

49. Abstract 2129: Pediatric diffuse intrinsic pontine gliomas are genetically distinct from high and low grade astrocytomas

Author

Cynthia Hawkins, Maryam Zarghooni, Andrew Morrison, Eric Bouffet, Ute Bartels, and Buczkowicz Pawel

Subjects

Cancer Research, Pathology, medicine.medical_specialty, business.industry, Brain tumor, Disease, medicine.disease, Copy Number Analysis Tool, Pons, Prostate cancer, Oncology, medicine, Brainstem glioma, SNP, Brainstem, business

Abstract

Tumors of the central nervous system constitute the most common type of solid pediatric tumors and account for the majority of mortality and morbidity in pediatric oncology. Brainstem glioma (BSG) is a type of brain tumor that arises in the medulla, pons or midbrain and accounts for approximately 10-20% of pediatric brain tumors. Diffuse gliomas of the pontine region, diffuse intrinsic pontine glioma (DIPG) are the most common type of brainstem tumor, accounting for about 58-78% of BSG and the number one cause of brain tumor related death in children with a 1-2 year survival. Despite this very little is understood about the biology of these tumors. To try to address this lack of knowledge we have undertaken genomic analysis of a series of DIPGs and compared their copy number changes to those seen in pediatric supratentorial high grade astrocytomas as well as low grade astrocytomas. Post mortem tumor and matched normal brain samples (n= 9) and surgical samples (n= 4) were collected for a series of DIPG patients. We performed high-resolution genetic analysis using whole-genome single-nucleotide polymorphism (SNP) arrays (Affymetrix 500K and 6.0). Data analysis was conducted using Partek Genome Suite and Copy Number Analysis Tool (Affymetrix). Analysis of copy number alterations returned hits in several cancer related pathways including MAPK, Wnt, prostate cancer and gliomagenesis. DIPG copy number was also compared to that of pediatric high grade (n= 20) and low grade (n= 30) astrocytomas. Unsupervised Pearson's Dissimilarity clustering resulted in 3 distinct groups. One contained 6 DIPGs; the second contained mostly LGA with a few HGA, while the third group contained mostly HGA with the remaining DIPGs clustering with this group. Although there were some similarities, DIPG are genetically distinct from supratentorial high grade and low grade astrocytomas. A better understanding of DIPG biology is needed in order to develop agents targeted more specifically towards this disease particularly given the dismal prognosis and unresponsive nature of these tumors to conventional treatment. Citation Format: {Authors}. {Abstract title} [abstract]. In: Proceedings of the 101st Annual Meeting of the American Association for Cancer Research; 2010 Apr 17-21; Washington, DC. Philadelphia (PA): AACR; Cancer Res 2010;70(8 Suppl):Abstract nr 2129.

Published

2010

50. Identification of complex genomic rearrangements in cancers using CouGaR

Author

Dzamba, Misko, Ramani, Arun K., Buczkowicz, Pawel, Jiang, Yue, Yu, Man, Hawkins, Cynthia, and Brudno, Michael

Abstract

The genomic alterations associated with cancers are numerous and varied, involving both isolated and large-scale complex genomic rearrangements (CGRs). Although the underlying mechanisms are not well understood, CGRs have been implicated in tumorigenesis. Here, we introduce CouGaR, a novel method for characterizing the genomic structure of amplified CGRs, leveraging both depth of coverage (DOC) and discordant pair-end mapping techniques. We applied our method to whole-genome sequencing (WGS) samples from The Cancer Genome Atlas and identify amplified CGRs in at least 5.2% (10+ copies) to 17.8% (6+ copies) of the samples. Furthermore, ∼95% of these amplified CGRs contain genes previously implicated in tumorigenesis, indicating the importance and widespread occurrence of CGRs in cancers. Additionally, CouGaR identified the occurrence of ‘chromoplexy’ in nearly 63% of all prostate cancer samples and 30% of all bladder cancer samples. To further validate the accuracy of our method, we experimentally tested 17 predicted fusions in two pediatric glioma samples and validated 15 of these (88%) with precise resolution of the breakpoints via qPCR experiments and Sanger sequencing, with nearly perfect copy count concordance. Additionally, to further help display and understand the structure of CGRs, we have implemented CouGaR-viz, a generic stand-alone tool for visualization of the copy count of regions, breakpoints, and relevant genes.

Published

2017