Valerie I. Brown scite author profile

Purpose Addition of imatinib to intensive chemotherapy improved survival for children and young adults with Philadelphia chromosome-positive acute lymphoblastic leukemia. Compared with imatinib, dasatinib has increased potency, CNS penetration, and activity against imatinib-resistant clones. Patients and Methods Children's Oncology Group (COG) trial AALL0622 (Bristol Myers Squibb trial CA180-204) tested safety and feasibility of adding dasatinib to intensive chemotherapy starting at induction day 15 in patients with newly diagnosed Philadelphia chromosome-positive acute lymphoblastic leukemia age 1 to 30 years. Allogeneic hematopoietic stem-cell transplantation (HSCT) was recommended for patients at high risk based on slow response and for those with a matched family donor regardless of response after at least 11 weeks of therapy. Patients at standard risk based on rapid response received chemotherapy plus dasatinib for an additional 120 weeks. Patients with overt CNS leukemia received cranial irradiation. Results Sixty eligible patients were enrolled. Five-year overall (OS) and event-free survival rates (± standard deviations [SD]) were 86% ± 5% and 60% ± 7% overall, 87% ± 5% and 61% ± 7% for standard-risk patients (n = 48; 19% underwent HSCT), and 89% ± 13% and 67% ± 19% for high-risk patients (n = 9; 89% underwent HSCT), respectively. Five-year cumulative incidence (± SD) of CNS relapse was 15% ± 6%. Outcomes (± SDs) were similar to those in COG AALL0031, which used the same chemotherapy with continuous imatinib: 5-year OS of 81% ± 6% versus 86% ± 5% ( P = .63) and 5-year disease-free survival of 68% ± 7% versus 60% ± 7% ( P = 0.31) for AALL0031 versus AALL0622, respectively. IKZF1 deletions, present in 56% of tested patients, were associated with significantly inferior OS and event-free survival overall and in standard-risk patients. Conclusion Dasatinib was well tolerated with chemotherapy and provided outcomes similar to those with imatinib in COG AALL0031, where all patients received cranial irradiation. Our results support limiting HSCT to slow responders and suggest a potential role for transplantation in rapid responders with IKZF1 deletions.

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The mTOR inhibitor CCI-779 induces apoptosis and inhibits growth in preclinical models of primary adult human ALL

Teachey

et al. 2006

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Acute lymphoblastic leukemia (ALL) in adult patients is often resistant to current therapy, making the development of novel therapeutic agents paramount. We investigated whether mTOR inhibitors (MTIs), a class of signal transduction inhibitors, would be effective in primary human ALL. Lymphoblasts from adult patients with precursor B ALL were cultured on bone marrow stroma and were treated with CCI-779, a second generation MTI. Treated cells showed a dramatic decrease in cell proliferation and an increase in apoptotic cells, compared to untreated cells. We also assessed the effect of CCI-779 in a NOD/SCID xenograft model. We treated a total of 68 mice generated from the same patient samples with CCI-779 after establishment of disease. Animals treated with CCI-779 showed a decrease in peripheralblood blasts and in splenomegaly. In dramatic contrast, untreated animals continued to show expansion of human ALL. We performed immunoblots to validate the inhibition of the mTOR signaling intermediate phospho-S6 in human ALL, finding down-regulation of this target in xenografted human ALL exposed to CCI-779. We conclude that MTIs can inhibit the growth of adult human ALL and deserve close examination as therapeutic agents against a disease that is often not curable with current therapy. IntroductionWhile children with precursor B-cell acute lymphoblastic leukemia (ALL) are often cured, children with relapsed ALL and adults with ALL usually succumb to their disease with current therapy. Even with aggressive therapy, these patient groups have 5-year diseasefree survival rates of only 28% to 39%. 1 Thus, the development of novel therapeutic agents is crucial.One potential class of novel therapeutics is mTOR inhibitors (MTIs). MTIs are a class of signal transduction inhibitors with anticancer activity that were initially developed as immunosuppressive agents. [2][3][4][5] Rapamycin, a macrocyclic lactone produced by Streptomyces hydroscopicus, 6 was the first MTI to be used in a clinical setting. Rapamycin is well tolerated in humans. 7 MTIs also have been shown to be active against a wide variety of tumor types. [8][9][10] We have previously shown that rapamycin induces apoptosis in precursor B ALL lines in vitro and has in vivo activity in transgenic mice with pre-B leukemia/lymphoma. 11 Second generation MTIs, CCI-779 and RAD-001, are currently in phase 1 to phase 3 clinical trials in patients with various cancers, 12-15 but preclinical studies have not previously been performed in primary human ALL.Preclinical testing of chemotherapeutic agents often involves using transformed tumor lines and transgenic mouse models. While these are valuable tools, they may not be representative of human disease. More clinically relevant data may be obtained from systems using primary human ALL cells. Two of these systems, bone marrow stroma-supported culture 16 and xenografting human ALL in nonobese diabetic/severe combined immunodeficient (NOD/ SCID) mice, have recently been developed. 17 Both of these systems allow for direct testing...

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Valerie I. Brown

Synergistic interaction of p185c-neu and the EGF receptor leads to transformation of rodent fibroblasts

Dasatinib Plus Intensive Chemotherapy in Children, Adolescents, and Young Adults With Philadelphia Chromosome–Positive Acute Lymphoblastic Leukemia: Results of Children’s Oncology Group Trial AALL0622

The mTOR inhibitor CCI-779 induces apoptosis and inhibits growth in preclinical models of primary adult human ALL

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