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4. Ibrutinib combined with bendamustine and rituximab compared with placebo, bendamustine, and rituximab for previously treated chronic lymphocytic leukaemia or small lymphocytic lymphoma (HELIOS) : a randomised, double-blind, phase 3 study

Author

Chanan-Khan, Asher, Cramer, Paula, Demirkan, Fatih, Fraser, Graeme, Silva, Rodrigo Santucci, Grosicki, Sebastian, Pristupa, Aleksander, Janssens, Ann, Mayer, Jiri, Bartlett, Nancy L, Dilhuydy, Marie-Sarah, Pylypenko, Halyna, Loscertales, Javier, Avigdor, Abraham, Rule, Simon, Villa, Diego, Samoilova, Olga, Panagiotidis, Panagiots, Goy, Andre, Mato, Anthony, Pavlovsky, Miguel A, Karlsson, Claes, Mahler, Michelle, Salman, Mariya, Sun, Steven, Phelps, Charles, Balasubramanian, Sriram, Howes, Angela, Hallek, Michael, Assouline, S, Bence-Bruckler, I, Buckstein, R, Fraser, G, Larratt, L, Minuk, L, Villa, D, Angevine, A, Bartlett, N, Bixby, D, Caimi, P, Chanan-Khan, A, Craig, M, Forero-Torres, A, Ganguly, S, Goy, A, Heffner, L, Hermann, R, Lansigan, F, Leis, J, Letzer, J, Link, B, Liu, D, McCaul, K, McGuire, E, Skinner, W, Starodub, A, Stuart, R, Thirman, M, Tirumali, N, Yang, J, Janssens, A, Offner, F, Van den Neste, E, Van Hoof, A, Mayer, J, Novak, J, Trneny, M, Cartron, G, Dartigeas, C, Dilhuydy, M, Ghez, D, Haioun, C, Leblond, V, Salles, G, Balser, C, Cramer, P, Dreger, P, Durig, J, Eckart, M, Heinrich, B, Illmer, T, Jentsch-Ullrich, K, Pfreundschuh, M, Schetelig, J, Schlag, R, Soling, U, Stilgenbauer, S, Anagnostopoulos, A, Dimopoulos, A, Panagiotidis, P, Vrakidou, E, Bairey, O, Yehuda, D Ben, Braester, A, Fineman, R, Herishanu, Y, Nagler, A, Ruchlemer, R, Tadmor, T, Grosicki, S, Homenda, W, Jurczak, W, Pluta, A, Woszczyk, D, Espirito Santo, A, Luis, R, Raposo, J, Viveiros, C, Alexeeva, J, Dunaev, Y, Golubeva, M, Khuageva, N, Loginov, A, Lysenko, I, Osmanov, E, Pavlov, V, Pristupa, A, Proydakov, A, Rossiev, V, Samarina, I, Samoilova, O, Serduk, O, Shneider, T, Udovitsa, D, Voloshin, S, Gayoso, J, Gonzalez, M, Gonzalez Barca, E, Hernandez Rivas, J, Jargue, I, Loscertales, J, Karlsson, C, Sender, M, Aktan, M, Arslan, O, Demirkan, F, Ferhanoglu, B, Kaynar, L, Sayinalp, N, Vaural, F, Yagci, M, Dyagil, I, Kaplan, P, Masliak, Z, Oliynyk, H, Popovska, T, Pylypenko, H, Rekhtman, G, Dearden, C, Morley, N, Moss, P, Rule, S, Pavlovsky, M, Riveros, D, Santucci-Silva, R, Romeo, M, Scheliga, A, Salazar, L, Gomez, D, Ramirez, E, and Jung, C

Subjects
Male, Medizin, Gastroenterology, chemistry.chemical_compound, 0302 clinical medicine, Piperidines, immune system diseases, hemic and lymphatic diseases, Antineoplastic Combined Chemotherapy Protocols, Atrial Fibrillation, Bendamustine Hydrochloride, Aged, 80 and over, Anemia, Nausea, Middle Aged, 3. Good health, Fludarabine, Intention to Treat Analysis, Oncology, 030220 oncology & carcinogenesis, Ibrutinib, Retreatment, Disease Progression, Rituximab, Female, medicine.drug, Bendamustine, Adult, medicine.medical_specialty, Neutropenia, Hemorrhage, Disease-Free Survival, 03 medical and health sciences, Double-Blind Method, Internal medicine, medicine, Humans, Aged, Performance status, business.industry, Adenine, medicine.disease, Interim analysis, Leukemia, Lymphocytic, Chronic, B-Cell, Thrombocytopenia, Surgery, Regimen, Pyrimidines, chemistry, Pyrazoles, Mantle cell lymphoma, business, 030215 immunology
Abstract

Most patients with chronic lymphocytic leukaemia or small lymphocytic lymphoma relapse after initial therapy. Bendamustine plus rituximab is often used in the relapsed or refractory setting. We assessed the efficacy and safety of adding ibrutinib, an oral covalent inhibitor of Bruton's tyrosine kinase (BTK), to bendamustine plus rituximab in patients with previously treated chronic lymphocytic leukaemia or small lymphocytic lymphoma.The HELIOS trial was an international, double-blind, placebo-controlled, phase 3 study in adult patients (≥18 years of age) who had active chronic lymphocytic leukaemia or small lymphocytic lymphoma with measurable lymph node disease (1·5 cm) by CT scan, and had relapsed or refractory disease following one or more previous lines of systemic therapy consisting of at least two cycles of a chemotherapy-containing regimen, an Eastern Cooperative Oncology Group (ECOG) performance status of 0-1, and adequate bone marrow, liver, and kidney function. Patients with del(17p) were excluded because of known poor response to bendamustine plus rituximab. Patients who had received previous treatment with ibrutinib or other BTK inhibitors, refractory disease or relapse within 24 months with a previous bendamustine-containing regimen, or haemopoietic stem-cell transplant were also excluded. Patients were randomly assigned (1:1) by a web-based system to receive bendamustine plus rituximab given in cycles of 4 weeks' duration (bendamustine: 70 mg/m(2) intravenously on days 2-3 in cycle 1, and days 1-2 in cycles 2-6; rituximab: 375 mg/m(2) on day 1 of cycle 1, and 500 mg/m(2) on day 1 of cycles 2-6 for a maximum of six cycles) with either ibrutinib (420 mg daily orally) or placebo until disease progression or unacceptable toxicity. Patients were stratified according to whether they were refractory to purine analogues and by number of previous lines of therapy. The primary endpoint was independent review committee (IRC)-assessed progression-free survival. Crossover to ibrutinib was permitted for patients in the placebo group with IRC-confirmed disease progression. Analysis was by intention-to-treat and is continuing for further long-term follow-up. The trial is registered with ClinicalTrials.gov, number NCT01611090.Between Sept 19, 2012, and Jan 21, 2014, 578 eligible patients were randomly assigned to ibrutinib or placebo in combination with bendamustine plus rituximab (289 in each group). The primary endpoint was met at the preplanned interim analysis (March 10, 2015). At a median follow-up of 17 months (IQR 13·7-20·7), progression-free survival was significantly improved in the ibrutinib group compared with the placebo group (not reached in the ibrutinib group (95% CI not evaluable) vs 13·3 months (11·3-13·9) in the placebo group (hazard ratio [HR] 0·203, 95% CI 0·150-0·276; p0·0001). IRC-assessed progression-free survival at 18 months was 79% (95% CI 73-83) in the ibrutinib group and 24% (18-31) in the placebo group (HR 0·203, 95% CI 0·150-0·276; p0·0001). The most frequent all-grade adverse events were neutropenia and nausea. 222 (77%) of 287 patients in the ibrutinib group and 212 (74%) of 287 patients in the placebo group reported grade 3-4 events; the most common grade 3-4 adverse events in both groups were neutropenia (154 [54%] in the ibrutinib group vs 145 [51%] in the placebo group) and thrombocytopenia (43 [15%] in each group). A safety profile similar to that previously reported with ibrutinib and bendamustine plus rituximab individually was noted.In patients eligible for bendamustine plus rituximab, the addition of ibrutinib to this regimen results in significant improvements in outcome with no new safety signals identified from the combination and a manageable safety profile.Janssen ResearchDevelopment.

Published
2016

6. Results from the phase 2 RESONATE (TM)-17 Trial: Efficacy and safety of ibrutinib in patients with relapsed or refractory chronic lymphocytic leukaemia or small lymphocytic leukaemia with 17p deletion

Author

Munir, T., O'Brien, S., Jones, J. A., Coutre, S. E., Mato, A. R., Hillmen, P., Tam, C., Osterborg, A., Siddiqi, T., Thirman, M. J., Furman, R. R., Ilhan, O., Keating, M., Call, T. G., Brown, J. R., Stevens-Brogan, M., Li, Y., Clow, F., James, D., Chu, A., Hallek, M., Stilgenbauer, S., Munir, T., O'Brien, S., Jones, J. A., Coutre, S. E., Mato, A. R., Hillmen, P., Tam, C., Osterborg, A., Siddiqi, T., Thirman, M. J., Furman, R. R., Ilhan, O., Keating, M., Call, T. G., Brown, J. R., Stevens-Brogan, M., Li, Y., Clow, F., James, D., Chu, A., Hallek, M., and Stilgenbauer, S.

Published
2015

7. Results from the phase 2 RESONATE (TM)-17 trial: Efficacy and safety of Ibrutinib in patients with relapsed or refractory chronic lymphocytic leukemia or small lymphocytic lymphoma with Del17p

Author

Stilgenbauer, S., Jones, J. A., Coutre, S. E., Mato, A. R., Hillmen, P., Tam, C., Osterborg, A., Siddiqi, T., Thirman, M. J., Furman, R. R., Ilhan, O., Keating, M., Call, T. G., Brown, J. R., Stevens-Brogan, M., Li, Y., Clow, F., James, D. F., Chu, A. D., Hallek, M., O'Brien, S., Stilgenbauer, S., Jones, J. A., Coutre, S. E., Mato, A. R., Hillmen, P., Tam, C., Osterborg, A., Siddiqi, T., Thirman, M. J., Furman, R. R., Ilhan, O., Keating, M., Call, T. G., Brown, J. R., Stevens-Brogan, M., Li, Y., Clow, F., James, D. F., Chu, A. D., Hallek, M., and O'Brien, S.

Published
2015

8. Regulation of MEIS1 by distal enhancer elements in acute leukemia

Author

Wang, Q-f, primary, Li, Y-j, additional, Dong, J-f, additional, Li, B, additional, Kaberlein, J J, additional, Zhang, L, additional, Arimura, F E, additional, Luo, R T, additional, Ni, J, additional, He, F, additional, Wu, J, additional, Mattison, R, additional, Zhou, J, additional, Wang, C-z, additional, Prabhakar, S, additional, Nobrega, M A, additional, and Thirman, M J, additional

Published
2013
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10. Poster session 6. Phase 1 studies

Author

Pollyea, D., primary, Gore, L., additional, Gutman, J., additional, Eckhardt, S. G., additional, Hagelstrom, N., additional, Coutre, S., additional, Thirman, M., additional, Byrd, J., additional, Massimini, G., additional, Laffranchi, B., additional, Rejeb, N., additional, Asatiani, E., additional, Milner, A., additional, von Richter, O., additional, Locatelli, G., additional, Ogden, J. A., additional, Osterwalder, B., additional, Meng, R., additional, Molife, L. R., additional, de Mattos-Arruda, L., additional, Hollebecque, A., additional, Isakoff, S. J., additional, Roda, D., additional, Yan, Y., additional, Cervantes, A., additional, Soria, J. C., additional, Mateo, J., additional, Argiles, G., additional, Bendell, J. C., additional, El-Khoueiry, A., additional, Jonker, D. J., additional, Sawyer, M. B., additional, Wong, L., additional, Becerra, C. R., additional, Chemidlin, J. M., additional, Kollia, G., additional, Nuyten, D. S. A., additional, Twelves, C. J., additional, Wilkins, D. K., additional, Anthoney, A., additional, Chappell, J., additional, Ng, W. T., additional, Turner, P. T., additional, Kristeleit, R., additional, Schoenborn-Kellenberger, O., additional, and Suder, A., additional

Published
2013
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18. Azacitidine and Venetoclax in Previously Untreated Acute Myeloid Leukemia.

Author

DiNardo, C. D., Jonas, B. A., Pullarkat, V., Thirman, M. J., Garcia, J. S., Wei, A. H., Konopieva, M., Döhner, H., Letai, A., Fenaux, P., Koller, E., Havelange, V., Leber, B., Esteve, J., Wang, J., Pejsa, V., Hájek, R., Porkka, K., Illés, Á., and Lavie, D.

Subjects
*ACUTE myeloid leukemia, *AZACITIDINE, *FEBRILE neutropenia, *OLDER patients, *PLACEBOS
Abstract

BACKGROUND: Older patients with acute myeloid leukemia (AML) have a dismal prognosis, even after treatment with a hypomethylating agent. Azacitidine added to venetoclax had promising efficacy in a previous phase lb study. METHODS: We randomly assigned previously untreated patients with confirmed AML who were ineligible for standard induction therapy because of coexisting conditions, because they were 75 years of age or older, or both to azacitidine plus either venetoclax or placebo. All patients received a standard dose of azacitidine (75 mg per square meter of body-surface area subcutaneously or intravenously on days 1 through 7 every 28-day cycle); venetoclax (target dose, 400 mg) or matching placebo was administered orally, once daily, in 28-day cycles. The primary end point was overall survival. RESULTS: The intention-to-treat population included 431 patients (286 in the azacitidinevenetoclax group and 145 in the azacitidine-placebo [control] group). The median age was 76 years in both groups (range, 49 to 91). At a median follow-up of 20.5 months, the median overall survival was 14.7 months in the azacitidine-venetoclax group and 9.6 months in the control group (hazard ratio for death, 0.66; 95% confidence interval, 0.52 to 0.85; P<0.001). The incidence of complete remission was higher with azacitidine-venetoclax than with the control regimen (36.7% vs. 17.9%; P<0.001), as was the composite complete remission (complete remission or complete remission with incomplete hematologic recovery) (66.4% vs. 28.3%; PcO.OOl). Key adverse events included nausea of any grade (in 44% of the patients in the azacitidine-venetoclax group and 35% of those in the control group) and grade 3 or higher thrombocytopenia (in 45% and 38%, respectively), neutropenia (in 42% and 29%), and febrile neutropenia (in 42% and 19%). Infections of any grade occurred in 85% of the patients in the azacitidine-venetoclax group and 67% of those in the control group, and serious adverse events occurred in 83% and 73%, respectively. CONCLUSIONS: In previously untreated patients who were ineligible for intensive chemotherapy, overall survival was longer and the incidence of remission was higher among patients who received azacitidine plus venetoclax than among those who received azacitidine alone. The incidence of febrile neutropenia was higher in the venetoclax- azacitidine group than in the control group. (Funded by AbbVie and Genentech; VIALE-A ClinicalTrials.gov number, NCT02993523.). [ABSTRACT FROM AUTHOR]

Published
2020
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19. Socioeconomic determinants of the biology and outcomes of acute lymphoblastic leukemia in adults.

Author

Johnston H, Youshanlouei HR, Osei C, Patel AA, DuVall A, Wang P, Wanjari P, Segal J, Venkataraman G, Cheng JX, Gurbuxani S, Lager A, Fitzpatrick C, Thirman M, Nawas M, Liu H, Drazer M, Odenike O, Larson R, Stock W, and Saygin C

Subjects
Adolescent, Humans, Young Adult, Black or African American, Hispanic or Latino, Retrospective Studies, Social Determinants of Health, United States epidemiology, White, Adult, Precursor Cell Lymphoblastic Leukemia-Lymphoma epidemiology, Precursor Cell Lymphoblastic Leukemia-Lymphoma therapy, Socioeconomic Factors
Abstract

Abstract: Various socioeconomic and biologic factors affect cancer health disparities and differences in health outcomes. To better characterize the socioeconomic vs biologic determinants of acute lymphoblastic leukemia (ALL) outcomes, we conducted a single-institution, retrospective analysis of adult patients with ALL treated at the University of Chicago (UChicago) from 2010 to 2022 and compared our outcomes with the US national data (the Surveillance, Epidemiology, and End Results [SEER] database). Among 221 adult patients with ALL treated at UChicago, BCR::ABL1 was more frequent in patients with higher body mass index (BMI; odds ratio [OR], 7.64; 95% confidence interval [CI], 1.17-49.9) and non-Hispanic Black (NHB) ancestry (59% vs 24% in non-Hispanic White (NHW) and 20% in Hispanic patients; P = .001). In a multivariable analysis, age (hazard ratio [HR], 6.93; 95% CI, 2.27-21.1) and higher BMI at diagnosis (HR, 10.3; 95% CI, 2.56-41.5) were independent predictors of poor overall survival (OS). In contrast, race or income were not predictors of OS in the UChicago cohort. Analysis of the national SEER database (2010-2020) demonstrated worse survival outcomes in Hispanic and NHB patients than in NHW patients among adolescent and young adults (AYAs) but not in older adults (aged >40 years). Both AYA and older adult patients with higher median household income had better OS than those with lower income. Therefore, multidisciplinary medical care coupled with essential supportive care services offered at centers experienced in ALL care may alleviate the socioeconomic disparities in ALL outcomes in the United States., (© 2024 by The American Society of Hematology. Licensed under Creative Commons Attribution-NonCommercial-NoDerivatives 4.0 International (CC BY-NC-ND 4.0), permitting only noncommercial, nonderivative use with attribution. All other rights reserved.)

Published
2024
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20. Efficacy and tolerability of a modified pediatric-inspired intensive regimen for acute lymphoblastic leukemia in older adults.

Author

Patel AA, Heng J, Dworkin E, Monick S, Derman BA, DuVall AS, Gurbuxani S, Kosuri S, Liu H, Thirman M, Godley LA, Odenike O, Larson RA, and Stock W

Abstract

Although acute lymphoblastic leukemia (ALL) is most common in pediatric and adolescent and young adult (AYA) patients, 20% of cases are diagnosed in patients ≥ 55 years old. Use of intensive pediatric regimens in AYA populations has demonstrated excellent tolerability and significant improvements in event-free survival (EFS) and overall survival (OS). The backbone of pediatric regimens includes asparaginase and corticosteroids, both of which are associated with more toxicity in older patients and those with body mass index (BMI) ≥ 30 kg/m which leads to poor tolerance of these regimens. We tested the safety and efficacy of a dose-modified The Cancer and Leukemia Group B 10403 regimen using reduced doses of pegylated (PEG)-asparaginase (ASP) and corticosteroids (RD-10403) in 30 patients with Philadelphia-chromosome negative ALL who were ≥50-year-old and younger adults with significant metabolic or hepatic co-morbidities. The complete remission rate on day 28 was 77%, 3-year EFS was 54%, and estimated 3-year OS was 55%. Grade 3+ toxicity was noted in 40% of patients during induction, and induction-related mortality was 3%. Additional prospective evaluation of RD-10403 is merited to determine efficacy and safety of this regimen and to serve as a framework for chemoimmunotherapy combination therapy., Competing Interests: Anand Ashwin Patel, Sarah Monick, Adam S. DuVall, Sandeep Gurbuxani, and Satyajit Kosuri have no conflict of interest. Joseph Heng is honoraria from OncLive, while Emily Dworkin is honoraria from Abbvie. Benjamin A. Derman is in advisory board from Sanofi. Hongtao Liu did research funding from BMS and Karyopharm; is honoraria from Agios. Michael Thirman did research funding from Gilead Sciences, Pharmacyclics, Janssen, AbbVie, Merck, Syndax, TG Therapeutics, Tolero; is in advisory board from AstraZeneca, Celgene, Roche/Genentech, Pharmacyclics, Janssen, Abbvie. Lucy A. Godley is advisory board from Invitae, Inc; royalties from UpToDate. Olatoyosi Odenike did research funding from AstraZeneca, ABBVIE, astex, agios, incyte, janssen, NS‐Pharma, Oncotherapy Sciences, BMS; is honoraria/has ad board membership‐ ABBVIE, BMS, Celgene, Novartis, Taiho, PRA. Richard A. Larson has acted as a consultant or advisor to Amgen, Ariad/Takeda, Celgene/Bristol Myers Squibb, CVS/Caremark, Epizyme, MorphoSys, and Novartis, and has received clinical research support to his institution from Astellas, Celgene, Cellectis, Daiichi Sankyo, Forty Seven/Gilead, Novartis, Rafael Pharmaceuticals, and royalties from UpToDate. Wendy Stock is Honoraria from Abbvie, Jazz, Kite, Morphosys, Pfizer, Servier., (© 2021 The Authors. eJHaem published by British Society for Haematology and John Wiley & Sons Ltd.)

Published
2021
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21. Clinical outcomes of IDH2-mutated advanced-phase Ph-negative myeloproliferative neoplasms treated with enasidenib.

Author

Patel AA, Cahill K, Charnot-Katsikas A, Liu H, Gurbuxani S, Thirman M, Kosuri S, Artz AS, Larson RA, Stock W, Segal J, and Odenike O

Subjects
Aged, Aged, 80 and over, Female, Humans, Male, Middle Aged, Mutation, Myeloproliferative Disorders enzymology, Myeloproliferative Disorders genetics, Treatment Outcome, Aminopyridines therapeutic use, Isocitrate Dehydrogenase genetics, Myeloproliferative Disorders drug therapy, Triazines therapeutic use
Published
2020
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22. Safety and preliminary efficacy of venetoclax with decitabine or azacitidine in elderly patients with previously untreated acute myeloid leukaemia: a non-randomised, open-label, phase 1b study.

Author

DiNardo CD, Pratz KW, Letai A, Jonas BA, Wei AH, Thirman M, Arellano M, Frattini MG, Kantarjian H, Popovic R, Chyla B, Xu T, Dunbar M, Agarwal SK, Humerickhouse R, Mabry M, Potluri J, Konopleva M, and Pollyea DA

Subjects
Administration, Oral, Aged, Aged, 80 and over, Antineoplastic Combined Chemotherapy Protocols adverse effects, Azacitidine adverse effects, Azacitidine therapeutic use, Bridged Bicyclo Compounds, Heterocyclic adverse effects, Confidence Intervals, Decitabine adverse effects, Decitabine therapeutic use, Disease-Free Survival, Dose-Response Relationship, Drug, Drug Administration Schedule, Female, Geriatric Assessment methods, Humans, Infusions, Intravenous, Kaplan-Meier Estimate, Leukemia, Myeloid, Acute diagnosis, Male, Maximum Tolerated Dose, Prognosis, Remission Induction, Sulfonamides adverse effects, Survival Analysis, Treatment Outcome, Antineoplastic Combined Chemotherapy Protocols therapeutic use, Bridged Bicyclo Compounds, Heterocyclic therapeutic use, Leukemia, Myeloid, Acute drug therapy, Leukemia, Myeloid, Acute mortality, Patient Safety, Sulfonamides therapeutic use
Abstract

Background: Elderly patients (aged ≥65 years) with acute myeloid leukaemia have poor outcomes and no effective standard-of-care therapy exists. Treatment with hypomethylating agents such as azacitidine and decitabine is common, but responses are modest and typically short-lived. The oral anti-apoptotic B-cell lymphoma 2 protein inhibitor, venetoclax, has shown promising single-agent activity in patients with relapsed or refractory acute myeloid leukaemia and preclinical data suggested synergy between hypomethylating agents and venetoclax, which led to this combination phase 1b study., Methods: Previously untreated patients aged 65 years and over with acute myeloid leukaemia who were ineligible for standard induction therapy were enrolled into this non-randomised, open-label, phase 1b study. Patients were required to have an Eastern Cooperative Oncology Group performance status of 0-2 and either intermediate-risk or poor-risk cytogenetics. Patients were enrolled into one of three groups for the dose-escalation phase of this study: group A (venetoclax and intravenous decitabine 20 mg/m 2 [days 1-5 of each 28-day cycle]), group B (venetoclax and subcutaneous or intravenous azacitidine 75 mg/m 2 [days 1-7 of each 28-day cycle]), and group C (a venetoclax and decitabine substudy with the oral CYP3A inhibitor posaconazole, 300 mg twice on cycle 1, day 21, and 300 mg once daily from cycle 1, days 22-28, to assess its effect on venetoclax pharmacokinetics). Dose escalation followed a standard 3 + 3 design with at least three evaluable patients enrolled per cohort; daily target doses of venetoclax for groups A and B were 400 mg (cohort 1), 800 mg (cohorts 2 and 3), and 1200 mg (cohort 4), and 400 mg for group C. The primary endpoints were the safety and pharmacokinetics of venetoclax plus decitabine or azacitidine, and to determine the maximum tolerated dose and recommended phase 2 dose. Secondary endpoints included the preliminary anti-leukaemic activity of venetoclax with decitabine or azacitidine through the analysis of overall response, duration of response, and overall survival. We analysed safety, pharmacokinetics, and anti-leukaemic activity in all patients who received one or more venetoclax doses. The expansion phase of the study is ongoing but is closed to accrual. This trial is registered with ClinicalTrials.gov, number NCT02203773., Findings: 57 patients were enrolled in the study. 23 patients in group A and 22 patients in group B were enrolled between Nov 19, 2014, and Dec 15, 2015, and 12 patients in group C were enrolled between June 14, 2015, and Jan 16, 2016. As of data cutoff on June 15, 2016, the most common grade 3-4 treatment-emergent adverse events were thrombocytopenia (27 [47%] of 57 patients; nine in group A, 13 in group B, and five in group C), febrile neutropenia (24 [42%] of 57; 11 in group A, ten in group B, and three in group C), and neutropenia (23 [40%] of 57; 12 in group A, eight in group B, and three in group C). The most common serious treatment-emergent adverse event in groups A and B was febrile neutropenia (seven [30%] of 23 patients vs seven [32%] of 22), whereas in group C it was lung infection (four [33%] of 12 patients). 49 (86%) of 57 patients had treatment-related adverse events; the most common in groups A and B included nausea (12 [52%] patients vs seven [32%] patients), fatigue (six [26%] patients vs seven [32%]), and decreased neutrophil count (six [26%] patients vs six [27%]), whereas in group C the most common were nausea (seven [58%] of 12 patients), leucopenia (six [50%]), vomiting (five [42%]), and decreased platelet count (five [42%]). The maximum tolerated dose was not reached. The recommended phase 2 dose was 400 mg once a day or 800 mg with an interrupted dosing schedule (safety expansion). In total, four (7%) of 57 patients had died within 30 days of the first venetoclax dose caused by sepsis (group B), bacteraemia (group A), lung infection (group C), and respiratory failure (group A). Tumour lysis syndrome was not observed. Decitabine and azacitidine did not substantially affect venetoclax exposures. Overall, 35 (61%; 95% CI 47·6-74·0) of 57 patients achieved complete remission or complete remission with incomplete marrow recovery. In groups A and B, 27 (60%; 95% CI 44·3-74·3) of 45 patients had complete remission or complete remission with incomplete marrow recovery., Interpretation: Venetoclax plus hypomethylating agent therapy seems to be a novel, well-tolerated regimen with promising activity in this underserved patient population. Evaluation of expansion cohorts is ongoing at 400 mg and 800 mg doses using both hypomethylating agent combinations., Funding: AbbVie and Genentech., (Copyright © 2018 Elsevier Ltd. All rights reserved.)

Published
2018
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23. Clonal evolution underlying leukemia progression and Richter transformation in patients with ibrutinib-relapsed CLL.

Author

Kadri S, Lee J, Fitzpatrick C, Galanina N, Sukhanova M, Venkataraman G, Sharma S, Long B, Petras K, Theissen M, Ming M, Kobzev Y, Kang W, Guo A, Wang W, Niu N, Weiner H, Thirman M, Stock W, Smith SM, Nabhan C, Segal JP, Lu P, and Wang YL

Abstract

Ibrutinib has generated remarkable responses in patients with chronic lymphocytic leukemia (CLL), including those with an unfavorable cytogenetic profile. However, patients develop resistance, with poor outcomes and no established treatment options. Mutations in BTK and PLCG2 have emerged as main mechanisms of drug resistance, but not all patients carry these mutations. Further understanding of mechanisms of resistance is urgently needed and will support rational development of new therapeutic strategies. To that end, we characterized the genomic profiles of serial samples from 9 patients with ibrutinib-relapsed disease, including 6 who had Richter transformation. Mutations, indels, copy-number aberrations, and loss of heterozygosity were assessed using next-generation sequencing and single-nucleotide polymorphism array. We found that 18p deletion (del(18p)), together with del(17p)/ TP53 mutations, was present in 5 of 9 patients before ibrutinib therapy. In addition to BTK C481 , we identified BTK T316A , a structurally novel mutation located in the SH2 domain of BTK. Minor BTK clones with low allele frequencies were captured in addition to major BTK clones. Although TP53 loss predisposes patients for relapse, clone size of TP53 loss may diminish during disease progression while mutant BTK clone expands. In patients who had Richter transformation, we found that the transformed cells were clonal descendants of circulating leukemia cells but continued to undergo evolution and drifts. Surprisingly, transformed lymphoma cells in tissue may acquire a different BTK mutation from that in the CLL leukemia cells. Collectively, these results provide insights into clonal evolution underlying ibrutinib relapse and prompt further investigation on genomic abnormalities that have clinical application potential., Competing Interests: Conflict-of-interest disclosure: The authors declare no competing financial interests.

Published
2017
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24. High dose cytarabine and mitoxantrone: an effective induction regimen for high-risk acute myeloid leukemia (AML).

Author

Larson SM, Campbell NP, Huo D, Artz A, Zhang Y, Gajria D, Green M, Weiner H, Daugherty C, Odenike O, Godley LA, Hyjek E, Gurbuxani S, Thirman M, Sipkins D, Van Besien K, Larson RA, and Stock W

Subjects
Acute Disease, Adult, Aged, Aged, 80 and over, Antineoplastic Combined Chemotherapy Protocols administration & dosage, Antineoplastic Combined Chemotherapy Protocols adverse effects, Chromosome Aberrations, Combined Modality Therapy, Cytarabine administration & dosage, Cytarabine adverse effects, Diarrhea chemically induced, Dose-Response Relationship, Drug, Female, Hematologic Diseases chemically induced, Humans, Infections etiology, Kaplan-Meier Estimate, Leukemia, Myeloid genetics, Leukemia, Myeloid surgery, Male, Middle Aged, Mitoxantrone administration & dosage, Mitoxantrone adverse effects, Neoplasm Proteins genetics, Neoplasms, Second Primary drug therapy, Neoplasms, Second Primary genetics, Neoplasms, Second Primary surgery, Prognosis, Recurrence, Remission Induction, Retrospective Studies, Risk, Stem Cell Transplantation, Transplantation, Homologous, Young Adult, fms-Like Tyrosine Kinase 3 genetics, Antineoplastic Combined Chemotherapy Protocols therapeutic use, Leukemia, Myeloid drug therapy
Abstract

Patients with high-risk AML, defined as those with advanced age, relapsed/refractory disease, unfavorable molecular and cytogenetic abnormalities, therapy-related myeloid neoplasm (t-MN) and multiple medical co-morbidities tend to respond poorly to standard cytarabine and daunorubicin induction therapy and have a poor prognosis. We performed a retrospective analysis of an alternative induction regimen using high dose cytarabine (HiDAC) and mitoxantrone (MITO) administered to 78 high-risk patients with AML at The University of Chicago from 2001 to 2008. The primary endpoints of the study were complete remission (CR) rate and death within 30 days of initiation of treatment. The median age was 63 years (range:23-85); 27% of these patients had a Charlson co-morbidity index (CCI) > 2. Forty-three (56%) patients had unfavorable cytogenetics, 28 (37%) had intermediate-risk cytogenetics and 5 (7%) had favorable cytogenetics. The CR rate was 45% and the CRi rate 10%; 7 patients (9%) died during induction. Notably, t-MN and relapsed/refractory patients had CR and induction death rates equivalent to de novo AML patients within this series. In this high risk AML population, HiDAC/MITO induction demonstrated an overall response rate of 55% with a low induction death rate of 9% and allowed 32 (41%) patients to proceed to allogeneic stem cell transplant.

Published
2012
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25. Performance status and comorbidity predict transplant-related mortality after allogeneic hematopoietic cell transplantation.

Author

Artz AS, Pollyea DA, Kocherginsky M, Stock W, Rich E, Odenike O, Zimmerman T, Smith S, Godley L, Thirman M, Daugherty C, Extermann M, Larson R, and van Besien K

Subjects
Adult, Aged, Comorbidity, Female, Humans, Male, Middle Aged, Prognosis, Proportional Hazards Models, Prospective Studies, Risk Factors, Survival Rate, Transplantation, Homologous, Treatment Outcome, Hematopoietic Stem Cell Transplantation mortality, Karnofsky Performance Status, Transplantation Conditioning mortality
Abstract

Comorbidity measurements have recently been used to improve estimation of tolerance to allogeneic hematopoietic cell transplantation (HCT). We sought to determine the independent effect of comorbidity and performance status on HCT outcome and to devise a simple risk classification system for transplant-related mortality. We analyzed 105 consecutively enrolled patients who underwent HCT and received reduced intensity conditioning with fludarabine, melphalan, and alemtuzumab. Comorbid conditions were tabulated using 2 scales, the Charlson Comorbidity Index (CCI) and the Kaplan-Feinstein Scale (KFS). Comorbid conditions were found in 47% of patients by the KFS and in 27% by the CCI (P < .001). Using the Eastern Cooperative Oncology Group Performance Status (PS) scale, 34% had a PS score >0 (range, 0-2). A simple scale combining the KFS and PS enabled separation of high- from low-risk patients, with 6-month cumulative incidences 50% and 15%, respectively for transplant-related mortality (P = .001) and enhanced prognostic power over the CCI alone (P = .018). Prospective studies evaluating more comprehensive functional and comorbidity measurements are warranted.

Published
2006
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26. Distinct and separable roles of the complement system in factor H-deficient bone marrow chimeric mice with immune complex disease.

Author

Alexander JJ, Aneziokoro OG, Chang A, Hack BK, Markaryan A, Jacob A, Luo R, Thirman M, Haas M, and Quigg RJ

Subjects
Animals, Cells, Cultured, Mice, Mice, Inbred C57BL, Mice, Knockout, Blood Platelets immunology, Bone Marrow Cells immunology, Complement Factor H deficiency, Complement Factor H immunology, Complement System Proteins immunology, Immune Complex Diseases immunology, Kidney immunology
Abstract

Plasma complement factor H (Cfh) is a potent complement regulator, whereas Cfh on the surface of rodent platelets is responsible for immune complex processing. For dissection between the two, bone marrow chimeras between Cfh-deficient (Cfh(-/-)) and wild-type C57BL/6 mice were created. Platelet Cfh protein was tracked with the Cfh status of the bone marrow donor, indicating that platelet Cfh is of intrinsic origin. In an active model of immune complex disease, Cfh(-/-) mice that were reconstituted with wild-type bone marrow had levels of platelet-associated immune complexes comparable to those of wild-type mice and were protected against the excessive glomerular deposition of immune complexes seen in Cfh(-/-) mice, yet these mice still developed glomerular inflammation. In contrast, wild-type mice with Cfh(-/-) bone marrow had reduced platelet-associated immune complexes and extensive glomerular deposition of complement-activating immune complexes, but they did not develop glomerular pathology. The large quantities of glomerular C3 in wild-type mice with Cfh(-/-) bone marrow were in the form of iC3b and C3dg, whereas active C3b remained in Cfh(-/-) recipients of wild-type bone marrow. These data show that plasma Cfh limits complement activation in the circulation and other accessible sites such as the glomerulus, whereas platelet Cfh is responsible for immune complex processing.

Published
2006
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27. Irreversible myelosuppression after fludarabine-melphalan conditioning: observations in patients with graft rejection.

Author

Van Besien K, Smith S, Anastasi J, Larson R, Thirman M, Odenike T, and Stock W

Subjects
Graft Rejection pathology, Granulocyte Precursor Cells drug effects, Hematologic Diseases therapy, Humans, Stem Cell Transplantation, Transplantation Conditioning adverse effects, Antineoplastic Agents, Alkylating adverse effects, Graft Rejection drug therapy, Immunosuppressive Agents adverse effects, Melphalan adverse effects, Vidarabine adverse effects, Vidarabine analogs & derivatives
Published
2004
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28. The elongation domain of ELL is dispensable but its ELL-associated factor 1 interaction domain is essential for MLL-ELL-induced leukemogenesis.

Author

Luo RT, Lavau C, Du C, Simone F, Polak PE, Kawamata S, and Thirman MJ

Subjects
Amino Acid Sequence, Animals, Cell Transformation, Neoplastic genetics, Cells, Cultured, Gene Expression Regulation, Neoplastic, Histone-Lysine N-Methyltransferase, Leukemia etiology, Mice, Molecular Sequence Data, Myeloid-Lymphoid Leukemia Protein, Oncogene Proteins, Fusion, Sequence Alignment, Transcriptional Elongation Factors, DNA-Binding Proteins genetics, Leukemia genetics, Neoplasm Proteins, Peptide Elongation Factors, Proto-Oncogenes, Transcription Factors genetics
Abstract

The MLL-ELL chimeric gene is the product of the (11;19)(q23p13.1) translocation associated with de novo and therapy-related acute myeloid leukemias (AML). ELL is an RNA polymerase II elongation factor that interacts with the recently identified EAF1 (ELL associated factor 1) protein. EAF1 contains a limited region of homology with the transcriptional activation domains of three other genes fused to MLL in leukemias, AF4, LAF4, and AF5q31. Using an in vitro transformation assay of retrovirally transduced myeloid progenitors, we conducted a structure-function analysis of MLL-ELL. Whereas the elongation domain of ELL was dispensable, the EAF1 interaction domain of ELL was critical to the immortalizing properties of MLL-ELL in vitro. To confirm these results in vivo, we transplanted mice with bone marrow transduced with MLL fused to the minimal EAF1 interaction domain of ELL. These mice all developed AML, with a longer latency than mice transplanted with the wild-type MLL-ELL fusion. Based on these results, we generated a heterologous MLL-EAF1 fusion gene and analyzed its transforming potential. Strikingly, we found that MLL-EAF1 immortalized myeloid progenitors in the same manner as that of MLL-ELL. Furthermore, transplantation of bone marrow transduced with MLL-EAF1 induced AML with a shorter latency than mice transplanted with the MLL-ELL fusion. Taken together, these results indicate that the leukemic activity of MLL-ELL requires the EAF1 interaction domain of ELL, suggesting that the recruitment by MLL of a transactivation domain similar to that in EAF1 or the AF4/LAF4/AF5q31 family may be a critical common feature of multiple 11q23 translocations. In addition, these studies support a critical role for MLL partner genes and their protein-protein interactions in 11q23 leukemogenesis.

Published
2001
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29. EAF1, a novel ELL-associated factor that is delocalized by expression of the MLL-ELL fusion protein.

Author

Simone F, Polak PE, Kaberlein JJ, Luo RT, Levitan DA, and Thirman MJ

Subjects
Amino Acid Sequence, Animals, Histone-Lysine N-Methyltransferase, Humans, Mice, Molecular Sequence Data, Myeloid-Lymphoid Leukemia Protein, Neoplasm Proteins, Precipitin Tests, Protein Binding, Sequence Alignment, Transcription Factors isolation & purification, Transcriptional Activation, Transcriptional Elongation Factors, Transfection, Tumor Cells, Cultured, DNA-Binding Proteins drug effects, DNA-Binding Proteins metabolism, Oncogene Proteins, Fusion pharmacology, Peptide Elongation Factors, Proto-Oncogenes, Transcription Factors metabolism
Abstract

The (11;19)(q23;p13.1) translocation in acute leukemia leads to the generation of a chimeric protein that fuses MLL to the transcriptional elongation factor ELL. A novel protein was isolated from a yeast 2-hybrid screen with ELL that was named EAF1 for ELL-associated factor 1. Using specific antibodies, the endogenous EAF1 and ELL proteins were coimmunoprecipitated from multiple cell lines. In addition, endogenous EAF1 also exhibited the capacity to interact with ELL2. Database comparisons with EAF1 identified a region with a high content of serine, aspartic acid, and glutamic acid residues that exhibited homology with the transcriptional activation domains of several translocation partner proteins of MLL, including AF4, LAF4, and AF5q31. A similar transcriptional activation domain has been identified in this region of EAF1. By confocal microscopy, endogenous EAF1 and ELL colocalized in a distinct nuclear speckled pattern. Transfection of the MLL-ELL fusion gene delocalized EAF1 from its nuclear speckled distribution to a diffuse nucleoplasmic pattern. In leukemic cell lines derived from mice transplanted with MLL-ELL-transduced bone marrow, EAF1 speckles were not detected. Taken together, these data suggest that expression of the MLL-ELL fusion protein may have a dominant effect on the normal protein-protein interactions of ELL.

Published
2001
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30. Retrovirus-mediated gene transfer of MLL-ELL transforms primary myeloid progenitors and causes acute myeloid leukemias in mice.

Author

Lavau C, Luo RT, Du C, and Thirman MJ

Subjects
Acute Disease, Animals, Gene Transfer Techniques, Genetic Vectors, Histone-Lysine N-Methyltransferase, Leukemia, Myeloid etiology, Mice, Myeloid-Lymphoid Leukemia Protein, Retroviridae, Transcriptional Elongation Factors, Cell Transformation, Neoplastic genetics, DNA-Binding Proteins genetics, Hematopoietic Stem Cells pathology, Hematopoietic Stem Cells physiology, Leukemia, Myeloid genetics, Leukemia, Myeloid pathology, Neoplasm Proteins, Oncogene Proteins, Fusion genetics, Peptide Elongation Factors, Proto-Oncogenes, Transcription Factors genetics
Abstract

The MLL-ELL fusion gene results from the translocation t(11;19)(q23;p13.1) that is associated with de novo and therapy-related acute myeloid leukemia. To study its transforming properties, we retrovirally transduced primary murine hematopoietic progenitors and assessed their growth properties both in vitro and in vivo. MLL-ELL increased the proliferation of myeloid colony-forming cells in methylcellulose cultures upon serial replating, whereas overexpression of ELL alone had no effect. We reconstituted lethally irradiated congenic mice with bone marrow progenitors transduced with MLL-ELL or the control MIE vector encoding the enhanced green fluorescent protein. When the peripheral blood of the mice was analyzed 11-13 weeks postreconstitution, we found that the engraftment of the MLL-ELL-transduced cells was superior to that of the MIE controls. At this time point, the contribution of the donor cells was normally distributed among the myeloid and nonmyeloid compartments. Although all of the MIE animals (n = 10) remained healthy for more than a year, all of the MLL-ELL mice (n = 20) succumbed to monoclonal or pauciclonal acute myeloid leukemias within 100-200 days. The leukemic cells were readily transplantable to secondary recipients and could be established as immortalized cell lines in liquid cultures. These studies demonstrate the enhancing effect of MLL-ELL on the proliferative potential of myeloid progenitors as well as its causal role in the genesis of acute myeloid leukemias.

Published
2000
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31. Chromatin-related properties of CBP fused to MLL generate a myelodysplastic-like syndrome that evolves into myeloid leukemia.

Author

Lavau C, Du C, Thirman M, and Zeleznik-Le N

Subjects
Animals, Base Sequence, CREB-Binding Protein, DNA Primers, DNA-Binding Proteins genetics, Histone-Lysine N-Methyltransferase, Mice, Myelodysplastic Syndromes pathology, Myeloid-Lymphoid Leukemia Protein, Nuclear Proteins genetics, Recombinant Fusion Proteins genetics, Trans-Activators genetics, DNA-Binding Proteins metabolism, Leukemia, Myeloid pathology, Myelodysplastic Syndromes metabolism, Nuclear Proteins metabolism, Proto-Oncogenes, Recombinant Fusion Proteins metabolism, Trans-Activators metabolism, Transcription Factors
Abstract

As a result of the recurring translocation t(11;16) (q23;p13.3), MLL (mixed-lineage leukemia) is fused in frame to CBP (CREB binding protein). This translocation has been documented almost exclusively in cases of acute leukemia or myelodysplasia secondary to therapy with drugs that target DNA topo isomerase II. The minimal chimeric protein that is produced fuses MLL to the bromodomain, histone acetyltransferase (HAT) domain, EIA-binding domain and steroid-receptor coactivator binding domains of CBP. We show that transplantation of bone marrow retrovirally transduced with MLL-CBP induces myeloid leukemias in mice that are preceded by a long preleukemic phase similar to the myelodysplastic syndrome (MDS) seen in many t(11;16) patients but unusual for other MLL translocations. Structure-function analysis demonstrated that fusion of both the bromodomain and HAT domain of CBP to the amino portion of MLL is required for full in vitro transformation and is sufficient to induce the leukemic phenotype in vivo. This suggests that the leukemic effect of MLL-CBP results from the fusion of the chromatin association and modifying activities of CBP with the DNA binding activities of MLL.

Published
2000
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32. Developmental analysis and subcellular localization of the murine homologue of ELL.

Author

Thirman MJ, Diskin EB, Bin SS, Ip HS, Miller JM, and Simon MC

Subjects
Acute Disease, Amino Acid Sequence, Animals, Cloning, Molecular, Conserved Sequence, DNA-Binding Proteins genetics, DNA-Binding Proteins metabolism, Embryo, Mammalian chemistry, Embryonic and Fetal Development, Fluorescent Antibody Technique, Indirect, In Situ Hybridization, Leukemia, Myeloid etiology, Liver chemistry, Mice, Molecular Sequence Data, Neoplasm Proteins genetics, RNA Polymerase II metabolism, RNA, Messenger analysis, Sequence Analysis, DNA, Sequence Homology, Amino Acid, Species Specificity, Transcription Factors genetics, Transcription Factors metabolism, Transcriptional Elongation Factors, Cell Compartmentation, DNA-Binding Proteins isolation & purification, Neoplasm Proteins isolation & purification, Peptide Elongation Factors, Transcription Factors isolation & purification
Abstract

The ELL gene was first identified by its involvement with MLL in the translocation (11;19)(q23;p13.1) in acute myeloid leukemia. To date, nine other MLL partner genes have been cloned, but their precise functions have yet to be determined. To characterize the functions of ELL further, we have cloned the murine homologue of ELL and have found that the gene is highly conserved at the nucleotide and amino acid level. The open reading frame of the murine homologue contains 602 aa, slightly smaller than the 621 aa in the human gene. With Northern blot analysis, a 3.4-kb transcript is detected in all tissues examined with greatest levels of expression in the liver. Unlike human ELL, only a single transcript can be detected with either murine coding sequence or 3' untranslated region probes. To examine the spatial and temporal pattern of expression in murine development, in situ hybridization studies were performed with sense and antisense riboprobes from the 3' untranslated region of murine Ell. Ell is expressed diffusely by embryonic day 7.5 (E7.5). In addition, high levels of expression can be detected in maternally derived decidual tissue. At E14.5, Ell is expressed diffusely throughout the embryo. However by E16.5, specific expression in the liver and gastrointestinal tract becomes prominent and remains so in both neonates and adults. To determine the subcellular localization of ELL, we developed a polyclonal antiserum to ELL that was used for immunofluorescence studies in COS-7, HeLa, NIH 3T3, and A7r5 cells. The ELL protein was localized to the nucleus but excluded from nucleoli in all cell lines examined. Recently, the gene product of ELL was found to function as an RNA polymerase II elongation factor, an activity that is consistent with our immunofluorescence data. Thus, these studies extend our understanding of the normal functions of ELL and provide additional insight into its aberrant function when fused to MLL in acute myeloid leukemia.

Published
1997
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33. Therapy-related myeloid leukemia.

Author

Thirman MJ and Larson RA

Subjects
Acute Disease, Antineoplastic Agents adverse effects, Bone Marrow Transplantation adverse effects, Humans, Leukemia, Myeloid genetics, Myelodysplastic Syndromes genetics, Neoplasms, Second Primary genetics, Precursor Cell Lymphoblastic Leukemia-Lymphoma etiology, Precursor Cell Lymphoblastic Leukemia-Lymphoma genetics, Radiotherapy adverse effects, Leukemia, Myeloid etiology, Myelodysplastic Syndromes etiology, Neoplasms, Second Primary etiology
Abstract

One of the most serious possible consequences of cancer therapy is the development of a second cancer, especially leukemia. Several distinct subsets of therapy-related leukemia can be distinguished currently. These include classic therapy-related myeloid leukemia, leukemia that follows treatment with agents that inhibit topoisomerase II, acute lymphoblastic leukemia, and leukemias with 21q22 rearrangements or inv(16) or t(15;17). These types of leukemia are discussed in detail in this article.

Published
1996
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34. Analysis of the t(6;11)(q27;q23) in leukemia shows a consistent breakpoint in AF6 in three patients and in the ML-2 cell line.

Author

Tanabe S, Zeleznik-Le NJ, Kobayashi H, Vignon C, Espinosa R 3rd, LeBeau MM, Thirman MJ, and Rowley JD

Subjects
Adolescent, Adult, Amino Acid Sequence, Base Sequence, Cell Line, Chromosome Mapping, Cloning, Molecular, DNA, Complementary, DNA-Binding Proteins genetics, Histone-Lysine N-Methyltransferase, Humans, In Situ Hybridization, Fluorescence, Male, Middle Aged, Molecular Sequence Data, Myeloid-Lymphoid Leukemia Protein, Chromosomes, Human, Pair 11, Chromosomes, Human, Pair 6, Leukemia, Myeloid, Acute genetics, Leukemia-Lymphoma, Adult T-Cell genetics, Proto-Oncogenes, Transcription Factors, Translocation, Genetic
Abstract

The t(6;11)(q27;23) is one of the most common translocations observed in patients with acute myeloid leukemia (AML). The translocation breakpoint involves the MLL gene, which is the human homolog of the Drosophila trithorax gene, at 11q23 and the AF6 gene at 6q27. Reverse transcriptase-polymerase chain reaction (RT-PCR) using an MLL sense primer and an AF6 antisense primer detected the MLL/AF6 fusion cDNA from three leukemia patients with the t(6;11) [two AML and one T-acute lymphoblastic leukemia (ALL)] and one cell line. The fusion point in the AF6 cDNA from these cases is identical, regardless of the leukemia phenotype. The ML-2 cell line, which was established from a patient with AML that developed after complete remission of T-cell lymphoma, has retained an 11q23-24 deletion from the lymphoma stage and has acquired the t(6;11) with development of AML. The ML-2 cells have no normal MLL gene on Southern blot analysis, which indicates that an intact MLL gene is not necessary for survival of leukemic cells.

Published
1996
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35. Distribution of 11q23 breakpoints within the MLL breakpoint cluster region in de novo acute leukemia and in treatment-related acute myeloid leukemia: correlation with scaffold attachment regions and topoisomerase II consensus binding sites.

Author

Broeker PL, Super HG, Thirman MJ, Pomykala H, Yonebayashi Y, Tanabe S, Zeleznik-Le N, and Rowley JD

Subjects
Acute Disease, Adolescent, Adult, Antineoplastic Agents, Phytogenic adverse effects, Antineoplastic Agents, Phytogenic therapeutic use, Base Sequence, Binding Sites, Centromere ultrastructure, Child, Child, Preschool, Consensus Sequence, DNA, Neoplasm genetics, Etoposide adverse effects, Etoposide therapeutic use, Female, Histone-Lysine N-Methyltransferase, Humans, Infant, Leukemia chemically induced, Male, Middle Aged, Molecular Sequence Data, Myeloid-Lymphoid Leukemia Protein, Neoplasms, Second Primary chemically induced, Telomere ultrastructure, Teniposide adverse effects, Teniposide therapeutic use, Topoisomerase II Inhibitors, Tumor Cells, Cultured, Chromatin ultrastructure, Chromosomes, Human, Pair 11 ultrastructure, DNA Topoisomerases, Type II metabolism, DNA-Binding Proteins genetics, Leukemia genetics, Neoplasms, Second Primary genetics, Proto-Oncogenes, Transcription Factors, Translocation, Genetic
Abstract

A major unresolved question for 11q23 translocations involving MLL is the chromosomal mechanism(s) leading to these translocations. We have mapped breakpoints within the 8.3-kb BamHI breakpoint cluster region in 31 patients with acute lymphoblastic leukemia and acute myeloid leukemia (AML) de novo and in 8 t-AML patients. In 23 of 31 leukemia de novo patients, MLL breakpoints mapped to the centromeric half (4.57 kb) of the breakpoint cluster region, whereas those in eight de novo patients mapped to the telomeric half (3.87 kb). In contrast, only two t-AML breakpoints mapped in the centromeric half, whereas six mapped in the telomeric half. The difference in distribution of the leukemia de novo breakpoints is statistically significant (P = .02). A similar difference in distribution of breakpoints between de novo patients and t-AML patients has been reported by others. We identified a low- or weak-affinity scaffold attachment region (SAR) mapping just centromeric to the breakpoint cluster region, and a high-affinity SAR mapping within the telomeric half of the breakpoint cluster region. Using high stringency criteria to define in vitro vertebrate topoisomerase II (topo II) consensus sites, one topo II site mapped adjacent to the telomeric SAR, whereas six mapped within the SAR. Therefore, 74% of leukemia de novo and 25% of t-AML breakpoints map to the centromeric half of the breakpoint cluster region map between the two SARs; in contrast, 26% of the leukemia de novo and 75% of the t-AML patient breakpoints map to the telomeric half of the breakpoint cluster region that contains both the telomeric SAR and the topo II sites. Thus, the chromatin structure of the MLL breakpoint cluster region may be important in determining the distribution of the breakpoints. The data suggest that the mechanism(s) leading to translocations may differ in leukemia de novo and in t-AML.

Published
1996

36. Abnormalities of chromosome band 11q23 and the MLL gene in pediatric myelomonocytic and monoblastic leukemias. Identification of the t(9;11) as an indicator of long survival.

Author

Martinez-Climent JA, Espinosa R 3rd, Thirman MJ, Le Beau MM, and Rowley JD

Subjects
Adolescent, Adult, Child, Child, Preschool, Chromosome Banding, DNA, Neoplasm analysis, Female, Gene Rearrangement genetics, Histone-Lysine N-Methyltransferase, Humans, In Situ Hybridization, Fluorescence, Infant, Leukemia, Monocytic, Acute mortality, Leukemia, Monocytic, Acute pathology, Leukemia, Myelomonocytic, Acute mortality, Leukemia, Myelomonocytic, Acute pathology, Male, Myeloid-Lymphoid Leukemia Protein, Survival Analysis, Chromosomes, Human, Pair 11, Chromosomes, Human, Pair 9, DNA-Binding Proteins genetics, Leukemia, Monocytic, Acute genetics, Leukemia, Myelomonocytic, Acute genetics, Proto-Oncogenes, Transcription Factors, Translocation, Genetic
Abstract

Purpose and Methods: We reviewed the cytogenetic pattern of the malignant cells in 36 patients who were < 20 years of age and who had M4 and M5 leukemias, excluding M4Eo cases with inv(16). We performed fluorescence in situ hybridization (FISH) and molecular studies to determine the actual incidence of 11q23/MLL abnormalities in these patients., Results: Eighteen patients had 11q23 translocations or insertions detected by cytogenetic analysis (15 cases) or by FISH (3 cases); 10 patients had t(9;11), all of whom had M5a. Eight patients had other 11q23 translocations or insertions not involving chromosome 9[t(11q23)] (four each had M4 or M5 leukemias). Eighteen cases with M4/M5 did not have 11q23 abnormalities. MLL rearrangements were found in all patients with translocations or insertions of 11q23 who were studied. Clinically, children with t(9;11) were indistinguishable from other patients with M4-M5 leukemias. In contrast, the t(11q23) group was characterized by extreme hyperleukocytosis, CNS disease, and skin involvement. Patients with the t(9;11) had a better outcome when compared with patients in the t(11q23) group (EFS +/- SE at 3 years, 56 +/- 17% versus 10 +/- 10%, p = 0.04), and to all the remaining children with M4-M5 leukemias (p = 0.04)., Conclusions: The combination of cytogenetic, FISH, and molecular analysis provides a highly sensitive strategy for detection of 11q23/MLL gene rearrangements in childhood M4-M5 leukemias. Our more precise classification of these patients allows a more accurate correlation with outcome. The favorable prognostic significance of the t(9;11) should be confirmed in prospective studies including a larger number of children as well as adults.

Published
1995
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37. Detection of 11q23/MLL rearrangements in infant leukemias with fluorescence in situ hybridization and molecular analysis.

Author

Martinez-Climent JA, Thirman MJ, Espinosa R 3rd, Le Beau MM, and Rowley JD

Subjects
Chromosome Banding, Chromosome Disorders, Chromosomes, Human, Pair 11, Chromosomes, Human, Pair 19, Female, Histone-Lysine N-Methyltransferase, Humans, In Situ Hybridization, Fluorescence, Infant, Infant, Newborn, Male, Myeloid-Lymphoid Leukemia Protein, Translocation, Genetic, Zinc Fingers, Chromosome Aberrations pathology, DNA-Binding Proteins genetics, Leukemia pathology, Proto-Oncogenes, Transcription Factors
Abstract

Cytogenetic abnormalities of band 11q23 have been found in more than 50% of infant leukemias regardless of the phenotype. Using probes for the MLL gene at 11q23, MLL rearrangements have been identified in 70-80% of all infant leukemias including virtually all of the cases with 11q23 translocations, as well as cases with apparently normal karyotypes. We reviewed the chromosomal pattern of 26 cases of infant leukemias (12 ALL, 12 AML, two AUL). Eleven had 11q23 translocations, five had other abnormalities, and 10 had a normal karyotype. To determine whether 11q23/MLL rearrangements were present in the leukemia cells of patients with a normal karyotype, we performed FISH and molecular studies of eight of these patients who had adequate material. Three were found to have 11q23/MLL abnormalities, two of them detected by FISH; one ALL case had a t(11;19) (q23;p13.3), and one AML case had a t(11;19) (q23;p13.1). Retrospective review confirmed the presence of the t(11;19) in a small percentage of poor quality metaphase cells in both cases. A rearrangement of the MLL gene was detected by Southern blot analysis of leukemic cells from a third patient with ALL; one cell with a deletion of 11q23 was found on karyotypic review. Therefore, in our series the actual incidence of 11q23 abnormalities in infant leukemias was 54% (14/26): 67% in ALL (8/12) and 50% in AML (6/12). Our findings suggest that most infant leukemias with apparently normal karyotypes that have a molecular rearrangement of the MLL gene are undetected subtle translocations.(ABSTRACT TRUNCATED AT 250 WORDS)

Published
1995

38. U937 cell line has a t(10;11)(p13-14;q14-21) rather than a deletion of 11q.

Author

Kobayashi H, Thirman MJ, and Rowley JD

Subjects
Humans, In Situ Hybridization, Fluorescence, Tumor Cells, Cultured, Chromosomes, Human, Pair 10, Chromosomes, Human, Pair 11, Gene Deletion, Translocation, Genetic
Abstract

The U937 cell line was studied with the fluorescence in situ hybridization (FISH) technique using phage and cosmid probes which were mapped and ordered on 11q. Although this cell line was thought to have a del(11q), FISH demonstrated that 11q was translocated to 10p and that the breakpoint on 11q is centromeric to the MLL gene. This 10;11 translocation appears to be a t(10;11)(p13-14;q14-21), which was recently reported to be a recurring translocation in malignant hematologic disease. This cell line will be a good tool for the study of this chromosomal rearrangement.

Published
1995
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39. The human MLL gene: nucleotide sequence, homology to the Drosophila trx zinc-finger domain, and alternative splicing.

Author

Mbangkollo D, Burnett R, McCabe N, Thirman M, Gill H, Yu H, Rowley JD, and Diaz MO

Subjects
Alternative Splicing, Amino Acid Sequence, Animals, Base Sequence, DNA, Complementary genetics, DNA-Binding Proteins biosynthesis, Drosophila genetics, Histone-Lysine N-Methyltransferase, Humans, Molecular Sequence Data, Myeloid-Lymphoid Leukemia Protein, RNA, Messenger genetics, DNA-Binding Proteins genetics, Proto-Oncogenes, Transcription Factors, Zinc Fingers genetics
Abstract

We have previously reported the cloning of several cDNAs corresponding to the MLL gene. The predicted primary amino acid sequence of two of these clones, 14p-18B and 14-7, reveals nearly complete identity with parts of the sequences of HRX, ALL-1, and Htrx-1, including a Zinc-finger region with homology to the Drosophila trithorax gene. However, we found that there is a stretch of 39 amino acids that is absent from 14p-18B when compared to ALL-1 and HRX. Another sequence of three amino acids is present in ALL-1, but is absent from 14p-18B and HRX. Nucleotide sequence examination reveals that these differences arise from alternative splicing, suggesting that MLL, HRX, and ALL-1 each represents a different alternative splicing product from the same gene. At least two cDNA clones, 14-7 and 14p-18C, correspond to incompletely processed transcripts including intron sequences. Northern blots using a subclone of 14p-18B revealed mRNA species of 14-16 kb in size in various human tissues. RNase protection assays show that the splice variant containing exon 8 and lacking a 9-bp extension 3' of exon 12 is predominantly expressed in hematopoietic cell lines.

Published
1995
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40. Detection of MLL gene rearrangements in adult acute lymphoblastic leukemia. A Cancer and Leukemia Group B study.

Author

Stock W, Thirman MJ, Dodge RK, Rowley JD, Diaz MO, Wurster-Hill D, Sobol RE, Davey FR, Larson RA, and Westbrook CA

Subjects
Adolescent, Adult, Aged, Chromosome Disorders, Chromosomes, Human, Pair 11, Chromosomes, Human, Pair 4, DNA, Neoplasm genetics, Female, Gene Rearrangement, Histone-Lysine N-Methyltransferase, Humans, Male, Middle Aged, Myeloid-Lymphoid Leukemia Protein, Translocation, Genetic, Zinc Fingers, Chromosome Aberrations genetics, DNA-Binding Proteins genetics, Precursor Cell Lymphoblastic Leukemia-Lymphoma genetics, Proto-Oncogenes, Transcription Factors
Abstract

Specific structural rearrangements involving chromosome band 11q23 occur in a variety of hematologic malignancies, including an estimated 2-7% of patients with acute lymphoblastic leukemia (ALL). Translocations involving chromosome band 11q23 have been associated with a poor prognosis in patients with ALL. Recently, a gene known as MLL has been identified which is involved in acute lymphoid and myeloid leukemias with rearrangements at 11q23. A 0.74-kilobase (kb) cDNA probe from the MLL gene can detect both common and uncommon rearrangements involving MLL on conventional Southern blots. We studied 86 newly diagnosed adults entered on an ALL clinical trial to investigate the incidence of MLL gene rearrangements and to determine clinical, morphologic, immunologic and cytogenetic characteristics of such patients. Two of 86 patients had MLL gene rearrangements detected by Southern blot analysis. One of these 86 patients had an 11q23 translocation by cytogenetic analysis whereas the second patient was unevaluable by standard cytogenetic analysis. Southern blot identification of rearrangements involving MLL, especially in patients with limited material for cytogenetic analysis, can provide critical diagnostic and prognostic information which may be useful in the clinical management of patients with these abnormalities.

Published
1994

41. Molecular analysis of the T-cell acute lymphoblastic leukemia-associated t(1;7)(p34;q34) that fuses LCK and TCRB.

Author

Burnett RC, Thirman MJ, Rowley JD, and Diaz MO

Subjects
Base Sequence, Chromosome Mapping, Cloning, Molecular, Codon, DNA Primers, Humans, Introns, Lymphocyte Specific Protein Tyrosine Kinase p56(lck), Molecular Sequence Data, Polymerase Chain Reaction, Promoter Regions, Genetic, RNA Splicing, Repetitive Sequences, Nucleic Acid, Transcription, Genetic, Chromosomes, Human, Pair 1, Chromosomes, Human, Pair 7, Leukemia-Lymphoma, Adult T-Cell genetics, Protein-Tyrosine Kinases genetics, Receptors, Antigen, T-Cell, alpha-beta genetics, Translocation, Genetic
Abstract

Previously we had characterized the t(1;7)(p34;q34) translocation from HSB-2. This translocation fused the beta T-cell receptor gene (TCRB) constant region and transcriptional enhancer with the type I transcription unit of the LCK gene on the derivative 1 [der(1)] chromosome. The type II promoter was translocated to the der(7) chromosome. Regarding the mechanism of the t(1;7) in HSB-2, we identified an alternating purine-pyrimidine tract (G-T)17 at the 1p34/LCK breakpoint. Additionally, sequence analysis of both breakpoint junctions provided data that implicate the V(D)J recombinase in formation of the t(1;7). A heptamer-nonamer recognition sequence with a 12-bp spacer was found in the immediate vicinity of the 1p34/LCK breakpoint and, thus, chromosomal breakage at 1p34 may be explained as resulting from recombinase activity. Because phosphorylation of Tyr-505 in vivo regulates the tyrosine kinase activity of p56lck we amplified a region from LCK exon 12 that contains the codon for Tyr-505 and showed no mutation of this codon in HSB-2 DNA and, therefore, p56lck in HSB-2 is not activated by mutation of Tyr-505. We have analyzed LCK gene expression in HSB-2 and SUP-T12 cell lines. RNase protection analysis identified almost exclusively type I transcripts in HSB-2. An independent t(1;7) in SUP-T12 also resulted in the juxtaposition of LCK to TCRB. The breakpoint in SUP-T12 occurred 2 kb 5' of the type II promoter, leaving an intact LCK gene on the der(1) chromosome. RNase protection analysis identified both type I and type II LCK transcripts in a 3:1 ratio in SUP-T12. Factors other than proximity to the TCRB enhancer must affect promoter utilization in this cell line.

Published
1994

42. DNA rearrangements and altered transcripts of the MLL gene in a human T-ALL cell line Karpas 45 with a t(X;11) (q13;q23) translocation.

Author

McCabe NR, Kipiniak M, Kobayashi H, Thirman M, Gill H, Rowley JD, and Diaz MO

Subjects
DNA, Neoplasm analysis, DNA-Binding Proteins biosynthesis, Histone-Lysine N-Methyltransferase, Humans, Myeloid-Lymphoid Leukemia Protein, RNA, Messenger biosynthesis, RNA, Neoplasm biosynthesis, Tumor Cells, Cultured, Chromosomes, Human, Pair 11 ultrastructure, DNA-Binding Proteins genetics, Gene Expression Regulation, Leukemic, Genes, Leukemia-Lymphoma, Adult T-Cell genetics, Proto-Oncogenes, Transcription Factors, Transcription, Genetic, Translocation, Genetic, X Chromosome ultrastructure
Abstract

Translocations involving chromosome band 11q23 are found in both lymphoid and myeloid leukemias as well as in lymphomas, in these translocations. The chromosomes most frequently involved in reciprocal translocations include chromosomes 4, 6, 9, and 19, and we and others have reported that chromosomes 1, 2, 10, 15, 17, 18, 22, and X are also involved. In the cell line Karpas 45, which has a t(X;11) (q13;q23) translocation, we report here that the MLL gene is rearranged and that there are two altered transcripts of MLL that come from the der(11) chromosome.

Published
1994
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43. Rearrangements of the MLL gene in therapy-related acute myeloid leukemia in patients previously treated with agents targeting DNA-topoisomerase II.

Author

Super HJ, McCabe NR, Thirman MJ, Larson RA, Le Beau MM, Pedersen-Bjergaard J, Philip P, Diaz MO, and Rowley JD

Subjects
Adult, Aged, Chromosome Mapping, DNA, Neoplasm isolation & purification, Female, Humans, Lymphoma genetics, Male, Middle Aged, Myelodysplastic Syndromes genetics, Precursor Cell Lymphoblastic Leukemia-Lymphoma genetics, Restriction Mapping, Antineoplastic Agents adverse effects, Antineoplastic Combined Chemotherapy Protocols adverse effects, Chromosomes, Human, Pair 11, Gene Rearrangement, Genetic Markers, Leukemia, Myeloid chemically induced, Leukemia, Myeloid genetics, Neoplasms drug therapy, Topoisomerase II Inhibitors
Abstract

Chromosome band 11q23 is frequently involved in acute myeloid leukemia (AML) and acute lymphoblastic leukemia (ALL) de novo, as well as in myelodysplastic syndromes (MDS) and lymphoma. Five percent to 15% of patients treated with chemotherapy for a primary neoplasm develop therapy-related AML (t-AML) that may show rearrangements, usually translocations involving band 11q23 or, less often, 21q22. These leukemias develop after a relatively short latent period and often follow the use of drugs that inhibit the activity of DNA-topoisomerase II (topo II). We previously identified a gene, MLL (myeloid-lymphoid leukemia or mixed-lineage leukemia), at 11q23 that is involved in the de novo leukemias. We have studied 17 patients with t-MDS/t-AML, 12 of whom had cytogenetically detectable 11q23 rearrangements. Ten of the 12 t-AML patients had received topo II inhibitors and 9 of these, all with balanced translocations of 11q23, had MLL rearrangements on Southern blot analysis. None of the patients who had not received topo II inhibitors showed an MLL rearrangement. Of the 5 patients lacking 11q23 rearrangements, some of whom had monoblastic features, none had an MLL rearrangement, although 4 had received topo II inhibitors. Our study indicates that the MLL gene rearrangements are similar both in AML that develops de novo and in t-AML. The association of exposure to topo II-reactive chemotherapy with 11q23 rearrangements involving the MLL gene in t-AML suggests that topo II may play a role in the aberrant recombination events that occur in this region both in AML de novo and in t-AML.

Published
1993

44. Rearrangement of the MLL gene in acute lymphoblastic and acute myeloid leukemias with 11q23 chromosomal translocations.

Author

Thirman MJ, Gill HJ, Burnett RC, Mbangkollo D, McCabe NR, Kobayashi H, Ziemin-van der Poel S, Kaneko Y, Morgan R, and Sandberg AA

Subjects
Acute Disease, Adolescent, Child, Child, Preschool, DNA, Neoplasm genetics, Female, Humans, Lymphoma genetics, Lymphoma, Non-Hodgkin genetics, Male, Tumor Cells, Cultured, Chromosomes, Human, Pair 11, Gene Rearrangement, Leukemia, Myeloid genetics, Precursor Cell Lymphoblastic Leukemia-Lymphoma genetics, Translocation, Genetic
Abstract

Background: Translocations involving chromosome band 11q23 are very frequent in both acute lymphoblastic and acute myeloid leukemias and are the most common genetic alteration in infants with leukemia. In all age groups and all phenotypes of leukemia, an 11q23 translocation carries a poor prognosis. A major question has been whether one or several genes on band 11q23 are implicated in these leukemias. Previously, we identified the chromosomal breakpoint region in leukemias with the common 11q23 translocations and subsequently cloned a gene named MLL that spans the 11q23 breakpoint., Methods: We isolated a 0.74-kb BamHI fragment from a complementary DAN (cDNA) clone of the MLL gene. To determine the incidence of MLL rearrangements in patients with 11q23 abnormalities, we analyzed DNA from 61 patients with acute leukemia, 3 cell lines derived from such patients, and 20 patients with non-Hodgkin's lymphoma and 11q23 aberrations., Results: The 0.74-kb cDNA probe detected DNA rearrangements in the MLL gene in 58 of the patients with leukemia, in the 3 cell lines, and in 3 of the patients with lymphoma. All the breaks occurred in an 8.3-kb breakpoint cluster region within the MLL gene. The probe identified DNA rearrangements in all 48 patients with the five common 11q23 translocations involving chromosomes 4, 6, 9, and 19, as well as in 16 patients with uncommon 11q23 aberrations. Twenty-one different chromosomal breakpoints involving the MLL gene were detected., Conclusions: MLL gene rearrangements were detected with a single probe and a single restriction-enzyme digest in all DNA samples from patients with the common 11q23 translocations as well as in 16 patients or cell lines with other 11q23 anomalies. The ability to detect an MLL gene rearrangement rapidly and reliably, especially in patients with limited material for cytogenetic analysis, should make it possible to identify patients who have a poor prognosis and therefore require aggressive chemotherapy or marrow transplantation.

Published
1993
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45. Do terminal deletions of 11q23 exist? Identification of undetected translocations with fluorescence in situ hybridization.

Author

Kobayashi H, Espinosa R 3rd, Thirman MJ, Fernald AA, Shannon K, Diaz MO, Le Beau MM, and Rowley JD

Subjects
Acute Disease, Adolescent, Adult, Aged, Child, Female, Humans, In Situ Hybridization, Fluorescence, Karyotyping, Leukemia genetics, Male, Myelodysplastic Syndromes genetics, Chromosome Deletion, Chromosomes, Human, Pair 11, Chromosomes, Human, Pair 6, Translocation, Genetic
Abstract

Fluorescence in situ hybridization (FISH) was performed on bone marrow or peripheral blood cells thought to contain a del(11)(q23q25) from four patients who had acute leukemia or myelodysplasia. Cells from all patients were shown to contain translocations that involved chromosome 6 in three of them. Our data suggest that a large proportion of presumptive del(11)(q23) or del(11)(q23q25) chromosomes may represent previously unidentified translocations that can be detected by FISH.

Published
1993
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46. Heterogeneity of breakpoints of 11q23 rearrangements in hematologic malignancies identified with fluorescence in situ hybridization.

Author

Kobayashi H, Espinosa R 3rd, Thirman MJ, Gill HJ, Fernald AA, Diaz MO, Le Beau MM, and Rowley JD

Subjects
Adolescent, Adult, Anemia, Refractory, with Excess of Blasts genetics, CD3 Complex genetics, Child, Child, Preschool, Chromosome Mapping, DNA Probes, Female, Humans, Infant, Leukemia, Lymphoid genetics, Leukemia, Myeloid genetics, Male, Middle Aged, Translocation, Genetic, Chromosome Aberrations, Chromosomes, Human, Pair 11, In Situ Hybridization, Fluorescence, Leukemia genetics
Abstract

Twenty-four patients whose cells contained a variety of 11q23 rearrangements, including translocations, insertions, and an inversion, were studied using fluorescence in situ hybridization with cosmid, phage, and plasmid probes mapped to 11q22-24. In 17 patients, the breakpoints of the common 11q23 translocations involving chromosomes 4, 6, 9, and 19 as well as some uncommon translocations involving 3q23, 17q25, 10p11, and an insertion 10;11 were all located in the breakpoint cluster region of the MLL gene, regardless of age, phenotype of disease, or involvement of a third chromosome. The breakpoints in 11q23 in the other 7 patients with a t(7;11)(p15;q23), inv(11)(p11q23), t(4;11)(q23;q23), der(5)t(5;11)(q13;q23), ins(10;11)(p11;q23q24), t(11;14)(q23;q11), or t(11;18;11) (p15;q21;q23) were located either centromeric to CD3D or telomeric to THY1. Thus, although most 11q23 rearrangements, involve the same breakpoint cluster region of MLL, there is heterogeneity in the breakpoint in some of the rare rearrangements.

Published
1993

47. Variability of 11q23 rearrangements in hematopoietic cell lines identified with fluorescence in situ hybridization.

Author

Kobayashi H, Espinosa R 3rd, Thirman MJ, Davis EM, Diaz MO, Le Beau MM, and Rowley JD

Subjects
Cell Line, Chromosome Mapping, DNA Probes, Gene Rearrangement, Humans, In Situ Hybridization, Translocation, Genetic, Chromosomes, Human, Pair 11, Hematopoietic Stem Cells ultrastructure
Abstract

We mapped and ordered 17 cosmid, phage, and plasmid clones to chromosome 11, bands q22-q24, using fluorescence in situ hybridization (FISH). We then analyzed four hematopoietic cell lines with 11q23 rearrangements, Karpas 45, SUP-T13, RC-K8, and Karpas 422, using these probes. The studies showed that the translocation breakpoints of the Karpas 45 and SUP-T13 cell lines, which were derived from T-cell malignancies, were located in the same breakpoint cluster region of the MLL gene as the RS4; 11 cell line and patients with the t(9;11), t(11;19), and t(6;11) described previously. We confirmed that the translocation breakpoint of the RC-K8 cell line was located telomeric to the MLL gene, and found that the derivative 11 chromosome of the Karpas 422 cell line, which had been thought to contain a t(4;11) (q21;q23), was in fact formed through a deletion and an inverted tandem repeat of part of 11q.

Published
1993

48. A t(11;12) 11q23 leukemic breakpoint that disrupts the MLL gene.

Author

Jani Sait SN, Raimondi SC, Look AT, Gill H, Thirman M, Diaz MO, and Shows TB

Subjects
Blotting, Southern, Bone Marrow pathology, Child, Preschool, Chromosome Banding, Chromosome Mapping, Humans, Hybrid Cells, Karyotyping, Male, Polymerase Chain Reaction, Precursor Cell Lymphoblastic Leukemia-Lymphoma pathology, Restriction Mapping, Chromosomes, Human, Pair 11, Chromosomes, Human, Pair 12, Genes, Precursor Cell Lymphoblastic Leukemia-Lymphoma genetics, Translocation, Genetic
Abstract

Translocations involving 11q23 have been shown to be a consistent finding in human hematopoietic malignancies and in some constitutional abnormalities. The identification of a gene, MLL (myeloid/lymphoid or mixed-lineage leukemia), that spans the breakpoints in four different recurrent 11q23 translocations was recently reported. We describe a rare (11;12)(q23;p13) translocation, observed in leukemic cells from a patient with acute lymphoblastic leukemia, which also disrupts this gene.

Published
1993
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49. Bronchiolitis obliterans organizing pneumonia as a complication of allogeneic bone marrow transplantation.

Author

Thirman MJ, Devine SM, O'Toole K, Cizek G, Jessurun J, Hertz M, and Geller RB

Subjects
Adult, Bronchiolitis Obliterans drug therapy, Graft vs Host Disease etiology, Humans, Leukemia, Myelogenous, Chronic, BCR-ABL Positive surgery, Leukemia, Myeloid, Chronic-Phase surgery, Male, Pneumonia drug therapy, Prednisone therapeutic use, Syndrome, Transplantation, Homologous, Bone Marrow Transplantation adverse effects, Bronchiolitis Obliterans etiology, Pneumonia etiology
Abstract

We report a patient who underwent two allogeneic bone marrow transplants for chronic myelogenous leukemia, initially in 1984 and again after relapse in 1990, who developed an identical pulmonary syndrome at a similar interval following each transplant. The patient presented with a non-productive cough, bilateral inspiratory crackles, and multiple patchy infiltrates on chest X-ray. Pulmonary function testing revealed a restrictive abnormality but no obstructive defects. The appearance of this pulmonary disorder after each transplant coincided with the development of chronic graft-versus-host disease. In both instances, this pulmonary syndrome completely reversed with corticosteroid therapy. The patient's chest computed tomographic scan and lung biopsy specimens were consistent with the diagnosis of bronchiolitis obliterans with organizing pneumonia (BOOP). While bronchiolitis obliterans has been reported following allogeneic transplant, BOOP has not previously been reported in this setting.

Published
1992

50. Neurotoxicity of meperidine.

Author

Goetting MG and Thirman MJ

Subjects
Administration, Oral, Adult, Female, Hamartoma surgery, Humans, Kidney Neoplasms surgery, Meperidine metabolism, Myoclonus chemically induced, Emergencies, Meperidine adverse effects, Seizures chemically induced
Abstract

Meperidine neurotoxicity manifests as shakiness, tremors, myoclonus, and seizures. It is generally seen with repeated parenteral use. We report a case of meperidine neurotoxicity from oral use by an otherwise healthy woman. The pharmacology and clinical implications are discussed.

Published
1985
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