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2. Recommendations and considerations related to preparticipation screening for cardiovascular abnormalities in competitive athletes: 2007 update: a scientific statement from the American Heart Association Council on Nutrition, Physical Activity, and Metabolism: endorsed by the American College of Cardiology Foundation.

Author

Maron BJ, Thompson PD, Ackerman MJ, Balady G, Berger S, Cohen D, Dimeff R, Douglas PS, Glover DW, Hutter AM Jr, Krauss MD, Maron MS, Mitten MJ, Roberts WO, Puffer JC, American Heart Association Council on Nutrition, Physical Activity, and Metabolism, Maron, Barry J, Thompson, Paul D, Ackerman, Michael J, and Balady, Gary

Published
2007

3. AHA scientific statement. Recommendations for physical activity and recreational sports participation for young patients with genetic cardiovascular diseases.

Author

Maron BJ, Chaitman BR, Ackerman MJ, de Luna AB, Corrado D, Crosson JE, Deal BJ, Driscoll DJ, Estes NAM III, Araújo CGS, Liang DH, Mitten MJ, Myerburg RJ, Pelliccia A, Thompson PD, Towbin JA, Van Camp SP, American Heart Association. Committee on Exercise, Cardiac Rehabilitation, and Prevention, and American Heart Association. Councils on Clinical and Cardiovascular Disease in the Young

Published
2004

4. BCL-X L -targeting antibody-drug conjugates are active in preclinical models and mitigate on-mechanism toxicity of small-molecule inhibitors.

Author

Judd AS, Bawa B, Buck WR, Tao ZF, Li Y, Mitten MJ, Bruncko M, Catron N, Doherty G, Durbin KR, Enright B, Frey R, Haasch D, Haman S, Haight AR, Henriques TA, Holms J, Izeradjene K, Judge RA, Jenkins GJ, Kunzer A, Leverson JD, Martin RL, Mitra D, Mittelstadt S, Nelson L, Nimmer P, Palma J, Peterson R, Phillips DC, Ralston SL, Rosenberg SH, Shen X, Song X, Vaidya KS, Wang X, Wang J, Xiao Y, Zhang H, Zhang X, Blomme EA, Boghaert ER, Kalvass JC, Phillips A, and Souers AJ

Subjects
Animals, Humans, Mice, Cell Line, Tumor, Antineoplastic Agents pharmacology, Antineoplastic Agents chemistry, Small Molecule Libraries pharmacology, bcl-X Protein antagonists & inhibitors, bcl-X Protein metabolism, Immunoconjugates pharmacology, Xenograft Model Antitumor Assays
Abstract

Overexpression of the antiapoptotic protein B-cell lymphoma-extra large (BCL-X L ) is associated with drug resistance and disease progression in numerous cancers. The compelling nature of this protein as a therapeutic target prompted efforts to develop selective small-molecule BCL-X L inhibitors. Although efficacious in preclinical models, we report herein that selective BCL-X L inhibitors cause severe mechanism-based cardiovascular toxicity in higher preclinical species. To overcome this liability, antibody-drug conjugates were constructed using altered BCL-X L -targeting warheads, unique linker technologies, and therapeutic antibodies. The epidermal growth factor receptor-targeting antibody-drug conjugate AM1-15 inhibited growth of tumor xenografts and did not cause cardiovascular toxicity nor dose-limiting thrombocytopenia in monkeys. While an unprecedented BCL-X L -mediated toxicity was uncovered in monkey kidneys upon repeat dosing of AM1-15, this toxicity was mitigated via further drug-linker modification to afford AM1-AAA (AM1-25). The AAA drug-linker has since been incorporated into mirzotamab clezutoclax, the first selective BCL-X L -targeting agent to enter human clinical trials.

Published
2024
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5. Targeting Multiple EGFR-expressing Tumors with a Highly Potent Tumor-selective Antibody-Drug Conjugate.

Author

Anderson MG, Falls HD, Mitten MJ, Oleksijew A, Vaidya KS, Boghaert ER, Gao W, Palma JP, Cao D, Chia PL, John T, Gan HK, Scott AM, and Reilly EB

Subjects
Animals, Cell Line, Tumor, Female, Humans, Immunoconjugates pharmacology, Mice, Mice, Nude, ErbB Receptors metabolism, Immunoconjugates therapeutic use
Abstract

ABBV-321 (serclutamab talirine), a next-generation EGFR-targeted antibody-drug conjugate (ADC) incorporates a potent pyrrolobenzodiazepine (PBD) dimer toxin conjugated to the EGFR-targeting ABT-806 affinity-matured AM1 antibody. ABBV-321 follows the development of related EGFR-targeted ADCs including depatuxizumab mafodotin (depatux-m, ABT-414), ABT-806 conjugated to monomethyl auristatin F (MMAF), and ABBV-221 (losatuxizumab vedotin), AM1 antibody conjugated to monomethyl auristatin E (MMAE). The distinct tumor selectivity of ABBV-321 differentiates it from many previous highly active antibody PBD conjugates that lack a therapeutic window. Potency of the PBD dimer, combined with increased binding of AM1 to EGFR-positive tumor cells, opens the possibility to target a wide array of tumors beyond those with high levels of EGFR overexpression or amplification, including those insensitive to auristatin-based ADCs. ABBV-321 exhibits potent antitumor activity in cellular and in vivo studies including xenograft cell line and patient-derived xenograft glioblastoma, colorectal, lung, head and neck, and malignant mesothelioma tumor models that are less sensitive to depatux-m or ABBV-221. Combination studies with ABBV-321 and depatux-m suggest a promising treatment option permitting suboptimal, and potentially better tolerated, doses of both ADCs while providing improved potency. Collectively, these data suggest that ABBV-321 may offer an extended breadth of efficacy relative to other EGFR ADCs while extending utility to multiple EGFR-expressing tumor indications. Despite its highly potent PBD dimer payload, the tumor selectivity of ABBV-321, coupled with its pharmacology, toxicology, and pharmacokinetic profiles, support continuation of ongoing phase I clinical trials in patients with advanced EGFR-expressing malignancies., (©2020 American Association for Cancer Research.)

Published
2020
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6. Discovery of A-1331852, a First-in-Class, Potent, and Orally-Bioavailable BCL-X L Inhibitor.

Author

Wang L, Doherty GA, Judd AS, Tao ZF, Hansen TM, Frey RR, Song X, Bruncko M, Kunzer AR, Wang X, Wendt MD, Flygare JA, Catron ND, Judge RA, Park CH, Shekhar S, Phillips DC, Nimmer P, Smith ML, Tahir SK, Xiao Y, Xue J, Zhang H, Le PN, Mitten MJ, Boghaert ER, Gao W, Kovar P, Choo EF, Diaz D, Fairbrother WJ, Elmore SW, Sampath D, Leverson JD, and Souers AJ

Abstract

Herein we describe the discovery of A-1331852, a first-in-class orally active BCL-X L inhibitor that selectively and potently induces apoptosis in BCL-X L -dependent tumor cells. This molecule was generated by re-engineering our previously reported BCL-X L inhibitor A-1155463 using structure-based drug design. Key design elements included rigidification of the A-1155463 pharmacophore and introduction of sp 3 -rich moieties capable of generating highly productive interactions within the key P4 pocket of BCL-X L . A-1331852 has since been used as a critical tool molecule for further exploring BCL-2 family protein biology, while also representing an attractive entry into a drug discovery program., Competing Interests: The authors declare the following competing financial interest(s): AbbVie and Genentech participated in interpretation of data and review and approval of publication. L.W., G.A.D., A.S.J., Z-F.T., T. M. H., R.R.F., X.S., M.B., A.R.K., X.W., M.D.W., N.D.C., S.S., D.C.P., R.A.J., P.N., M.L.S., S.K.T., Y.X., J.X., H.Z., P.N.L., M.J.M., E.R.B., W.G., P.K., S.W.E., J.D.L., and A.J.S. are employees of AbbVie, Inc. C.H.P. was an employee of AbbVie, Inc at the time of the study. E.C. and W.J.F. are employees of Genentech, Inc. J.A.F., D.D., and D.S. were employees of Genentech, Inc. at the time of the study.

Published
2020
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7. Characterization of ABBV-221, a Tumor-Selective EGFR-Targeting Antibody Drug Conjugate.

Author

Phillips AC, Boghaert ER, Vaidya KS, Falls HD, Mitten MJ, DeVries PJ, Benatuil L, Hsieh CM, Meulbroek JA, Panchal SC, Buchanan FG, Durbin KR, Voorbach MJ, Reuter DR, Mudd SR, Loberg LI, Ralston SL, Cao D, Gan HK, Scott AM, and Reilly EB

Subjects
Animals, Antibodies, Monoclonal, Humanized chemistry, Apoptosis, Cell Proliferation, ErbB Receptors antagonists & inhibitors, ErbB Receptors immunology, Female, Glioblastoma metabolism, Glioblastoma pathology, Humans, Immunoconjugates chemistry, Mice, Mice, Inbred BALB C, Mice, Nude, Tumor Cells, Cultured, Xenograft Model Antitumor Assays, Antibodies, Monoclonal, Humanized pharmacology, Glioblastoma drug therapy, Immunoconjugates pharmacology, Oligopeptides chemistry
Abstract

Depatuxizumab mafodotin (depatux-m, ABT-414) is a tumor-selective antibody drug conjugate (ADC) comprised of the anti-EGFR antibody ABT-806 and the monomethyl auristatin F (MMAF) warhead. Depatux-m has demonstrated promising clinical activity in glioblastoma multiforme (GBM) patients and is currently being evaluated in clinical trials in first-line and recurrent GBM disease settings. Depatux-m responses have been restricted to patients with amplified EGFR, highlighting the need for therapies with activity against tumors with nonamplified EGFR overexpression. In addition, depatux-m dosing has been limited by corneal side effects common to MMAF conjugates. We hypothesized that a monomethyl auristatin E (MMAE) ADC utilizing an EGFR-targeting antibody with increased affinity may have broader utility against tumors with more modest EGFR overexpression while mitigating the risk of corneal side effects. We describe here preclinical characterization of ABBV-221, an EGFR-targeting ADC comprised of an affinity-matured ABT-806 conjugated to MMAE. ABBV-221 binds to a similar EGFR epitope as depatux-m and retains tumor selectivity with increased binding to EGFR-positive tumor cells and greater in vitro potency. ABBV-221 displays increased tumor uptake and antitumor activity against wild-type EGFR-positive xenografts with a greatly reduced incidence of corneal side effects relative to depatux-m. ABBV-221 has similar activity as depatux-m against an EGFR-amplified GBM patient derived xenograft (PDX) model and is highly effective alone and in combination with standard-of-care temozolomide in an EGFRvIII-positive GBM xenograft model. Based on these results, ABBV-221 has advanced to a phase I clinical trial in patients with advanced solid tumors associated with elevated levels of EGFR. Mol Cancer Ther; 17(4); 795-805. ©2018 AACR., (©2018 American Association for Cancer Research.)

Published
2018
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8. The Volume of Three-Dimensional Cultures of Cancer Cells InVitro Influences Transcriptional Profile Differences and Similarities with Monolayer Cultures and Xenografted Tumors.

Author

Boghaert ER, Lu X, Hessler PE, McGonigal TP, Oleksijew A, Mitten MJ, Foster-Duke K, Hickson JA, Santo VE, Brito C, Uziel T, and Vaidya KS

Subjects
Animals, Cell Culture Techniques, Cell Line, Tumor, Cluster Analysis, Disease Models, Animal, Female, Gene Expression Profiling, Heterografts, Humans, Mice, Spheroids, Cellular, Gene Expression Regulation, Neoplastic, Transcriptome
Abstract

Improving the congruity of preclinical models with cancer as it is manifested in humans is a potential way to mitigate the high attrition rate of new cancer therapies in the clinic. In this regard, three-dimensional (3D) tumor cultures in vitro have recently regained interest as they have been acclaimed to have higher similarity to tumors in vivo than to cells grown in monolayers (2D). To identify cancer functions that are active in 3D rather than in 2D cultures, we compared the transcriptional profiles (TPs) of two non-small cell lung carcinoma cell lines, NCI-H1650 and EBC-1 grown in both conditions to the TP of xenografted tumors. Because confluence, diameter or volume can hypothetically alter TPs, we made intra- and inter-culture comparisons using samples with defined dimensions. As projected by Ingenuity Pathway Analysis (IPA), a limited number of signal transduction pathways operational in vivo were better represented by 3D than by 2D cultures in vitro. Growth of 2D and 3D cultures as well as xenografts induced major changes in the TPs of these 3 modes of culturing. Alterations of transcriptional network activation that were predicted to evolve similarly during progression of 3D cultures and xenografts involved the following functions: hypoxia, proliferation, cell cycle progression, angiogenesis, cell adhesion, and interleukin activation. Direct comparison of TPs of 3D cultures and xenografts to monolayer cultures yielded up-regulation of networks involved in hypoxia, TGF and Wnt signaling as well as regulation of epithelial mesenchymal transition. Differences in TP of 2D and 3D cancer cell cultures are subject to progression of the cultures. The emulation of the predicted cell functions in vivo is therefore not only determined by the type of culture in vitro but also by the confluence or diameter of the 2D or 3D cultures, respectively. Consequently, the successful implementation of 3D models will require phenotypic characterization to verify the relevance of applying these models for drug development., (Copyright © 2017 The Authors. Published by Elsevier Inc. All rights reserved.)

Published
2017
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9. ABT-414, an Antibody-Drug Conjugate Targeting a Tumor-Selective EGFR Epitope.

Author

Phillips AC, Boghaert ER, Vaidya KS, Mitten MJ, Norvell S, Falls HD, DeVries PJ, Cheng D, Meulbroek JA, Buchanan FG, McKay LM, Goodwin NC, and Reilly EB

Subjects
Animals, Antibody Affinity, Cell Line, Tumor, Cell Survival drug effects, Combined Modality Therapy, Disease Models, Animal, ErbB Receptors genetics, ErbB Receptors immunology, ErbB Receptors metabolism, Female, Glioblastoma drug therapy, Glioblastoma metabolism, Glioblastoma mortality, Glioblastoma pathology, Humans, Molecular Targeted Therapy, Mutation, Protein Binding, Xenograft Model Antitumor Assays, Antineoplastic Agents pharmacology, Epitopes immunology, ErbB Receptors antagonists & inhibitors, Immunoconjugates pharmacology, Protein Kinase Inhibitors pharmacology
Abstract

Targeting tumor-overexpressed EGFR with an antibody-drug conjugate (ADC) is an attractive therapeutic strategy; however, normal tissue expression represents a significant toxicity risk. The anti-EGFR antibody ABT-806 targets a unique tumor-specific epitope and exhibits minimal reactivity to EGFR in normal tissue, suggesting its suitability for the development of an ADC. We describe the binding properties and preclinical activity of ABT-414, an ABT-806 monomethyl auristatin F conjugate. In vitro, ABT-414 selectively kills tumor cells overexpressing wild-type or mutant forms of EGFR. ABT-414 inhibits the growth of xenograft tumors with high EGFR expression and causes complete regressions and cures in the most sensitive models. Tumor growth inhibition is also observed in tumor models with EGFR mutations, including activating mutations and those with the exon 2-7 deletion [EGFR variant III (EGFRvIII)], commonly found in glioblastoma multiforme. ABT-414 exhibits potent cytotoxicity against glioblastoma multiforme patient-derived xenograft models expressing either wild-type EGFR or EGFRvIII, with sustained regressions and cures observed at clinically relevant doses. ABT-414 also combines with standard-of-care treatment of radiation and temozolomide, providing significant therapeutic benefit in a glioblastoma multiforme xenograft model. On the basis of these results, ABT-414 has advanced to phase I/II clinical trials, and objective responses have been observed in patients with both amplified wild-type and EGFRvIII-expressing tumors. Mol Cancer Ther; 15(4); 661-9. ©2016 AACR., (©2016 American Association for Cancer Research.)

Published
2016
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10. Eligibility and Disqualification Recommendations for Competitive Athletes With Cardiovascular Abnormalities: Task Force 15: Legal Aspects of Medical Eligibility and Disqualification Recommendations: A Scientific Statement From the American Heart Association and American College of Cardiology.

Author

Mitten MJ, Zipes DP, Maron BJ, and Bryant WJ

Subjects
Advisory Committees standards, Cardiology standards, Cardiovascular Abnormalities epidemiology, Congresses as Topic legislation & jurisprudence, Congresses as Topic standards, Humans, United States epidemiology, Advisory Committees legislation & jurisprudence, American Heart Association, Athletes legislation & jurisprudence, Cardiology legislation & jurisprudence, Cardiovascular Abnormalities diagnosis, Practice Guidelines as Topic standards
Published
2015
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11. Assessment of the 12-lead ECG as a screening test for detection of cardiovascular disease in healthy general populations of young people (12-25 Years of Age): a scientific statement from the American Heart Association and the American College of Cardiology.

Author

Maron BJ, Friedman RA, Kligfield P, Levine BD, Viskin S, Chaitman BR, Okin PM, Saul JP, Salberg L, Van Hare GF, Soliman EZ, Chen J, Matherne GP, Bolling SF, Mitten MJ, Caplan A, Balady GJ, and Thompson PD

Subjects
Adolescent, Adult, Age Factors, Cardiovascular Diseases physiopathology, Child, Humans, Young Adult, Cardiovascular Diseases diagnosis, Electrocardiography methods, Mass Screening methods
Published
2014
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12. Discovery of a Potent and Selective BCL-XL Inhibitor with in Vivo Activity.

Author

Tao ZF, Hasvold L, Wang L, Wang X, Petros AM, Park CH, Boghaert ER, Catron ND, Chen J, Colman PM, Czabotar PE, Deshayes K, Fairbrother WJ, Flygare JA, Hymowitz SG, Jin S, Judge RA, Koehler MF, Kovar PJ, Lessene G, Mitten MJ, Ndubaku CO, Nimmer P, Purkey HE, Oleksijew A, Phillips DC, Sleebs BE, Smith BJ, Smith ML, Tahir SK, Watson KG, Xiao Y, Xue J, Zhang H, Zobel K, Rosenberg SH, Tse C, Leverson JD, Elmore SW, and Souers AJ

Abstract

A-1155463, a highly potent and selective BCL-XL inhibitor, was discovered through nuclear magnetic resonance (NMR) fragment screening and structure-based design. This compound is substantially more potent against BCL-XL-dependent cell lines relative to our recently reported inhibitor, WEHI-539, while possessing none of its inherent pharmaceutical liabilities. A-1155463 caused a mechanism-based and reversible thrombocytopenia in mice and inhibited H146 small cell lung cancer xenograft tumor growth in vivo following multiple doses. A-1155463 thus represents an excellent tool molecule for studying BCL-XL biology as well as a productive lead structure for further optimization.

Published
2014
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13. ABT-199, a potent and selective BCL-2 inhibitor, achieves antitumor activity while sparing platelets.

Author

Souers AJ, Leverson JD, Boghaert ER, Ackler SL, Catron ND, Chen J, Dayton BD, Ding H, Enschede SH, Fairbrother WJ, Huang DC, Hymowitz SG, Jin S, Khaw SL, Kovar PJ, Lam LT, Lee J, Maecker HL, Marsh KC, Mason KD, Mitten MJ, Nimmer PM, Oleksijew A, Park CH, Park CM, Phillips DC, Roberts AW, Sampath D, Seymour JF, Smith ML, Sullivan GM, Tahir SK, Tse C, Wendt MD, Xiao Y, Xue JC, Zhang H, Humerickhouse RA, Rosenberg SH, and Elmore SW

Subjects
Aniline Compounds pharmacology, Animals, Antineoplastic Agents therapeutic use, Apoptosis drug effects, Cell Survival drug effects, Dogs, Female, HeLa Cells, Humans, Mice, Mice, SCID, Proto-Oncogene Proteins c-bcl-2 chemistry, Tumor Burden, Xenograft Model Antitumor Assays, bcl-X Protein antagonists & inhibitors, Antineoplastic Agents pharmacology, Blood Platelets drug effects, Bridged Bicyclo Compounds, Heterocyclic pharmacology, Hematologic Neoplasms drug therapy, Proto-Oncogene Proteins c-bcl-2 antagonists & inhibitors, Sulfonamides pharmacology
Abstract

Proteins in the B cell CLL/lymphoma 2 (BCL-2) family are key regulators of the apoptotic process. This family comprises proapoptotic and prosurvival proteins, and shifting the balance toward the latter is an established mechanism whereby cancer cells evade apoptosis. The therapeutic potential of directly inhibiting prosurvival proteins was unveiled with the development of navitoclax, a selective inhibitor of both BCL-2 and BCL-2-like 1 (BCL-X(L)), which has shown clinical efficacy in some BCL-2-dependent hematological cancers. However, concomitant on-target thrombocytopenia caused by BCL-X(L) inhibition limits the efficacy achievable with this agent. Here we report the re-engineering of navitoclax to create a highly potent, orally bioavailable and BCL-2-selective inhibitor, ABT-199. This compound inhibits the growth of BCL-2-dependent tumors in vivo and spares human platelets. A single dose of ABT-199 in three patients with refractory chronic lymphocytic leukemia resulted in tumor lysis within 24 h. These data indicate that selective pharmacological inhibition of BCL-2 shows promise for the treatment of BCL-2-dependent hematological cancers.

Published
2013
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14. The Bcl-2/Bcl-X(L)/Bcl-w inhibitor, navitoclax, enhances the activity of chemotherapeutic agents in vitro and in vivo.

Author

Chen J, Jin S, Abraham V, Huang X, Liu B, Mitten MJ, Nimmer P, Lin X, Smith M, Shen Y, Shoemaker AR, Tahir SK, Zhang H, Ackler SL, Rosenberg SH, Maecker H, Sampath D, Leverson JD, Tse C, and Elmore SW

Subjects
Aniline Compounds administration & dosage, Animals, Apoptosis Regulatory Proteins antagonists & inhibitors, Drug Synergism, Female, HCT116 Cells, Hep G2 Cells, Humans, K562 Cells, Male, Mice, Neoplasms pathology, Proto-Oncogene Proteins c-bcl-2 antagonists & inhibitors, Sulfonamides administration & dosage, Tumor Cells, Cultured, Xenograft Model Antitumor Assays, bcl-X Protein antagonists & inhibitors, Aniline Compounds pharmacology, Antineoplastic Combined Chemotherapy Protocols therapeutic use, Neoplasms drug therapy, Sulfonamides pharmacology
Abstract

The ability of a cancer cell to avoid apoptosis is crucial to tumorigenesis and can also contribute to chemoresistance. The Bcl-2 family of prosurvival proteins (Bcl-2, Bcl-X(L), Bcl-w, Mcl-1, and A1) plays a key role in these processes. We previously reported the discovery of ABT-263 (navitoclax), a potent small-molecule inhibitor of Bcl-2, Bcl-X(L), and Bcl-w. While navitoclax exhibits single-agent activity in tumors dependent on Bcl-2 or Bcl-X(L) for survival, the expression of Mcl-1 has been shown to confer resistance to navitoclax, most notably in solid tumors. Thus, therapeutic agents that can downregulate or neutralize Mcl-1 are predicted to synergize potently with navitoclax. Here, we report the activity of navitoclax in combination with 19 clinically relevant agents across a panel of 46 human solid tumor cell lines. Navitoclax broadly enhanced the activity of multiple therapeutic agents in vitro and enhanced efficacy of both docetaxel and erlotinib in xenograft models. The ability of navitoclax to synergize with docetaxel or erlotinib corresponded to an altered sensitivity of the mitochondria toward navitoclax, which was associated with the downmodulation of Mcl-1 and/or upregulation of Bim. These data provide a rationale to interrogate these combinations clinically.

Published
2011
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16. ABT-263 and rapamycin act cooperatively to kill lymphoma cells in vitro and in vivo.

Author

Ackler S, Xiao Y, Mitten MJ, Foster K, Oleksijew A, Refici M, Schlessinger S, Wang B, Chemburkar SR, Bauch J, Tse C, Frost DJ, Fesik SW, Rosenberg SH, Elmore SW, and Shoemaker AR

Subjects
Animals, Cell Cycle drug effects, Cell Death drug effects, Cell Line, Tumor, Drug Synergism, Humans, Immunohistochemistry, Lymphoma, Large B-Cell, Diffuse therapy, Mice, Mice, SCID, Remission Induction, Xenograft Model Antitumor Assays, Aniline Compounds pharmacology, Antineoplastic Agents pharmacology, Lymphoma, Large B-Cell, Diffuse pathology, Sirolimus pharmacology, Sulfonamides pharmacology
Abstract

ABT-263 is a potent, orally bioavailable inhibitor of the antiapoptotic Bcl-2 family members Bcl-2, Bcl-x(L), and Bcl-w, which is currently in phase I clinical trials. Previous work has shown that this compound has low nanomolar cell-killing activity in a variety of lymphoma and leukemia cell lines, many of which overexpress Bcl-2 through a variety of mechanisms. Rapamycin is a macrolide antibiotic that inhibits the mammalian target of rapamycin complex, leading to cell cycle arrest and inhibition of protein translation. Rapamycin (and its analogues) has shown activity in a variety of tumor cell lines primarily through induction of cell cycle arrest. Activity has also been shown clinically in mantle cell lymphoma and advanced renal cell carcinoma. Here, we show that treatment of the follicular lymphoma lines DoHH-2 and SuDHL-4 with 100 nmol/L rapamycin induces substantial G(0)-G(1) arrest. Addition of as little as 39 nmol/L ABT-263 to the rapamycin regimen induced a 3-fold increase in sub-G(0) cells. Combination of these agents also led to a significant increase in Annexin V staining over ABT-263 alone. In xenograft models of these tumors, rapamycin induced a largely cytostatic response in the DoHH-2 and SuDHL-4 models. Coadministration with ABT-263 induced significant tumor regression, with DoHH-2 and SuDHL-4 tumors showing 100% overall response rates. Apoptosis in these tumors was significantly enhanced by combination therapy as measured by staining with an antibody specific for cleaved caspase-3. These data suggest that combination of ABT-263 and rapamycin or its analogues represents a promising therapeutic strategy for the treatment of lymphoma.

Published
2008
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17. Activity of the Bcl-2 family inhibitor ABT-263 in a panel of small cell lung cancer xenograft models.

Author

Shoemaker AR, Mitten MJ, Adickes J, Ackler S, Refici M, Ferguson D, Oleksijew A, O'Connor JM, Wang B, Frost DJ, Bauch J, Marsh K, Tahir SK, Yang X, Tse C, Fesik SW, Rosenberg SH, and Elmore SW

Subjects
Animals, Dose-Response Relationship, Drug, Humans, Mice, Mice, Nude, Proto-Oncogene Proteins c-bcl-2 antagonists & inhibitors, Proto-Oncogene Proteins c-bcl-2 drug effects, Xenograft Model Antitumor Assays, Aniline Compounds administration & dosage, Antineoplastic Agents administration & dosage, Carcinoma, Small Cell drug therapy, Lung Neoplasms drug therapy, Sulfonamides administration & dosage
Abstract

Purpose: The purpose of this study was to characterize the activity of the Bcl-2 protein family inhibitor ABT-263 in a panel of small cell lung cancer (SCLC) xenograft models., Experimental Design: A panel of 11 SCLC xenograft models was established to evaluate the efficacy of ABT-263. Single agent activity was examined on a continuous dosing schedule in each of these models. The H146 model was used to further evaluate dose and schedule, comparison to standard cytotoxic agents, and induction of apoptosis., Results: ABT-263 exhibited a range of antitumor activity, leading to complete tumor regression in several models. Significant regressions of tumors as large as 1 cc were also observed. The efficacy of ABT-263 was also quite durable; in several cases, minimal tumor regrowth was noted several weeks after the cessation of treatment. Antitumor effects were equal or superior to that of several clinically approved cytotoxic agents. Regression of large established tumors was observed through several cycles of therapy and efficacy was retained in a Pgp-1 overexpressing line. Significant efficacy was observed on several dose and therapeutic schedules and was associated with significant induction of apoptosis., Conclusions: ABT-263 is a potent, orally bioavailable inhibitor of Bcl-2 family proteins that has recently entered clinical trials. The efficacy data reported here suggest that SCLC is a promising area of clinical investigation with this agent.

Published
2008
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18. ABT-263: a potent and orally bioavailable Bcl-2 family inhibitor.

Author

Tse C, Shoemaker AR, Adickes J, Anderson MG, Chen J, Jin S, Johnson EF, Marsh KC, Mitten MJ, Nimmer P, Roberts L, Tahir SK, Xiao Y, Yang X, Zhang H, Fesik S, Rosenberg SH, and Elmore SW

Subjects
Administration, Oral, Aniline Compounds administration & dosage, Aniline Compounds adverse effects, Animals, Antibodies, Monoclonal administration & dosage, Antibodies, Monoclonal, Murine-Derived, Antineoplastic Agents administration & dosage, Antineoplastic Agents adverse effects, Antineoplastic Agents therapeutic use, Carcinoma, Small Cell drug therapy, Carcinoma, Small Cell pathology, Cells, Cultured, Drug Synergism, Humans, Lung Neoplasms drug therapy, Lung Neoplasms pathology, Lymphoma, Mantle-Cell drug therapy, Lymphoma, Mantle-Cell pathology, Mice, Mice, Knockout, Mice, SCID, Models, Biological, Neoplasms pathology, Precursor Cell Lymphoblastic Leukemia-Lymphoma complications, Precursor Cell Lymphoblastic Leukemia-Lymphoma drug therapy, Precursor Cell Lymphoblastic Leukemia-Lymphoma pathology, Rituximab, Sulfonamides administration & dosage, Sulfonamides adverse effects, Thrombocytopenia chemically induced, Treatment Outcome, Tumor Burden, Xenograft Model Antitumor Assays, Aniline Compounds therapeutic use, Neoplasms drug therapy, Proto-Oncogene Proteins c-bcl-2 antagonists & inhibitors, Sulfonamides therapeutic use
Abstract

Overexpression of the prosurvival Bcl-2 family members (Bcl-2, Bcl-xL, and Mcl-1) is commonly associated with tumor maintenance, progression, and chemoresistance. We previously reported the discovery of ABT-737, a potent, small-molecule Bcl-2 family protein inhibitor. A major limitation of ABT-737 is that it is not orally bioavailable, which would limit chronic single agent therapy and flexibility to dose in combination regimens. Here we report the biological properties of ABT-263, a potent, orally bioavailable Bad-like BH3 mimetic (K(i)'s of <1 nmol/L for Bcl-2, Bcl-xL, and Bcl-w). The oral bioavailability of ABT-263 in preclinical animal models is 20% to 50%, depending on formulation. ABT-263 disrupts Bcl-2/Bcl-xL interactions with pro-death proteins (e.g., Bim), leading to the initiation of apoptosis within 2 hours posttreatment. In human tumor cells, ABT-263 induces Bax translocation, cytochrome c release, and subsequent apoptosis. Oral administration of ABT-263 alone induces complete tumor regressions in xenograft models of small-cell lung cancer and acute lymphoblastic leukemia. In xenograft models of aggressive B-cell lymphoma and multiple myeloma where ABT-263 exhibits modest or no single agent activity, it significantly enhances the efficacy of clinically relevant therapeutic regimens. These data provide the rationale for clinical trials evaluating ABT-263 in small-cell lung cancer and B-cell malignancies. The oral efficacy of ABT-263 should provide dosing flexibility to maximize clinical utility both as a single agent and in combination regimens.

Published
2008
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19. An inhibitor of Bcl-2 family proteins induces regression of solid tumours.

Author

Oltersdorf T, Elmore SW, Shoemaker AR, Armstrong RC, Augeri DJ, Belli BA, Bruncko M, Deckwerth TL, Dinges J, Hajduk PJ, Joseph MK, Kitada S, Korsmeyer SJ, Kunzer AR, Letai A, Li C, Mitten MJ, Nettesheim DG, Ng S, Nimmer PM, O'Connor JM, Oleksijew A, Petros AM, Reed JC, Shen W, Tahir SK, Thompson CB, Tomaselli KJ, Wang B, Wendt MD, Zhang H, Fesik SW, and Rosenberg SH

Subjects
Animals, Antineoplastic Agents chemical synthesis, Antineoplastic Agents chemistry, Antineoplastic Agents pharmacology, Apoptosis drug effects, Biphenyl Compounds chemical synthesis, Biphenyl Compounds chemistry, Carcinoma, Small Cell drug therapy, Carcinoma, Small Cell pathology, Cell Line, Tumor, Cytochromes c metabolism, Disease Models, Animal, Drug Synergism, Humans, Lymphoma drug therapy, Lymphoma pathology, Magnetic Resonance Spectroscopy, Mice, Mitochondria drug effects, Mitochondria metabolism, Models, Molecular, Nitrophenols, Paclitaxel pharmacology, Piperazines, Proto-Oncogene Proteins c-bcl-2 metabolism, Structure-Activity Relationship, Sulfonamides, Survival Rate, Antineoplastic Agents therapeutic use, Biphenyl Compounds pharmacology, Biphenyl Compounds therapeutic use, Neoplasms drug therapy, Neoplasms pathology, Proto-Oncogene Proteins c-bcl-2 antagonists & inhibitors, Proto-Oncogene Proteins c-bcl-2 classification
Abstract

Proteins in the Bcl-2 family are central regulators of programmed cell death, and members that inhibit apoptosis, such as Bcl-X(L) and Bcl-2, are overexpressed in many cancers and contribute to tumour initiation, progression and resistance to therapy. Bcl-X(L) expression correlates with chemo-resistance of tumour cell lines, and reductions in Bcl-2 increase sensitivity to anticancer drugs and enhance in vivo survival. The development of inhibitors of these proteins as potential anti-cancer therapeutics has been previously explored, but obtaining potent small-molecule inhibitors has proved difficult owing to the necessity of targeting a protein-protein interaction. Here, using nuclear magnetic resonance (NMR)-based screening, parallel synthesis and structure-based design, we have discovered ABT-737, a small-molecule inhibitor of the anti-apoptotic proteins Bcl-2, Bcl-X(L) and Bcl-w, with an affinity two to three orders of magnitude more potent than previously reported compounds. Mechanistic studies reveal that ABT-737 does not directly initiate the apoptotic process, but enhances the effects of death signals, displaying synergistic cytotoxicity with chemotherapeutics and radiation. ABT-737 exhibits single-agent-mechanism-based killing of cells from lymphoma and small-cell lung carcinoma lines, as well as primary patient-derived cells, and in animal models, ABT-737 improves survival, causes regression of established tumours, and produces cures in a high percentage of the mice.

Published
2005
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20. Potent and selective inhibitors of Akt kinases slow the progress of tumors in vivo.

Author

Luo Y, Shoemaker AR, Liu X, Woods KW, Thomas SA, de Jong R, Han EK, Li T, Stoll VS, Powlas JA, Oleksijew A, Mitten MJ, Shi Y, Guan R, McGonigal TP, Klinghofer V, Johnson EF, Leverson JD, Bouska JJ, Mamo M, Smith RA, Gramling-Evans EE, Zinker BA, Mika AK, Nguyen PT, Oltersdorf T, Rosenberg SH, Li Q, and Giranda VL

Subjects
Animals, Antineoplastic Agents chemistry, Antineoplastic Agents pharmacology, Antineoplastic Agents therapeutic use, Cell Line, Tumor, Disease Progression, Humans, Indazoles chemistry, Indazoles therapeutic use, Indoles chemistry, Indoles therapeutic use, Mice, Mice, SCID, Models, Molecular, Neoplasms drug therapy, Phosphorylation drug effects, Protein Kinase Inhibitors chemistry, Protein Kinase Inhibitors therapeutic use, Protein Serine-Threonine Kinases chemistry, Protein Serine-Threonine Kinases metabolism, Protein Structure, Tertiary, Proto-Oncogene Proteins chemistry, Proto-Oncogene Proteins metabolism, Proto-Oncogene Proteins c-akt, Pyridines chemistry, Pyridines pharmacology, Sensitivity and Specificity, Substrate Specificity, Indazoles pharmacology, Indoles pharmacology, Neoplasms enzymology, Neoplasms pathology, Protein Kinase Inhibitors pharmacology, Protein Serine-Threonine Kinases antagonists & inhibitors, Proto-Oncogene Proteins antagonists & inhibitors
Abstract

The Akt kinases are central nodes in signal transduction pathways that are important for cellular transformation and tumor progression. We report the development of a series of potent and selective indazole-pyridine based Akt inhibitors. These compounds, exemplified by A-443654 (K(i) = 160 pmol/L versus Akt1), inhibit Akt-dependent signal transduction in cells and in vivo in a dose-responsive manner. In vivo, the Akt inhibitors slow the progression of tumors when used as monotherapy or in combination with paclitaxel or rapamycin. Tumor growth inhibition was observed during the dosing interval, and the tumors regrew when compound administration was ceased. The therapeutic window for these compounds is narrow. Efficacy is achieved at doses approximately 2-fold lower than the maximally tolerated doses. Consistent with data from knockout animals, the Akt inhibitors induce an increase in insulin secretion. They also induce a reactive increase in Akt phosphorylation. Other toxicities observed, including malaise and weight loss, are consistent with abnormalities in glucose metabolism. These data show that direct Akt inhibition may be useful in cancer therapy, but significant metabolic toxicities are likely dose limiting.

Published
2005
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22. Recommendations for physical activity and recreational sports participation for young patients with genetic cardiovascular diseases.

Author

Maron BJ, Chaitman BR, Ackerman MJ, Bayés de Luna A, Corrado D, Crosson JE, Deal BJ, Driscoll DJ, Estes NA 3rd, Araújo CG, Liang DH, Mitten MJ, Myerburg RJ, Pelliccia A, Thompson PD, Towbin JA, and Van Camp SP

Subjects
Adolescent, Adult, Cardiovascular Diseases genetics, Cardiovascular Diseases mortality, Death, Sudden, Cardiac etiology, Death, Sudden, Cardiac prevention & control, Humans, Life Style, Sports classification, Sports Medicine legislation & jurisprudence, Cardiovascular Diseases physiopathology, Exercise physiology, Sports physiology
Abstract

A group of relatively uncommon but important genetic cardiovascular diseases (GCVDs) are associated with increased risk for sudden cardiac death during exercise, including hypertrophic cardiomyopathy, long-QT syndrome, Marfan syndrome, and arrhythmogenic right ventricular cardiomyopathy. These conditions, characterized by diverse phenotypic expression and genetic substrates, account for a substantial proportion of unexpected and usually arrhythmia-based fatal events during adolescence and young adulthood. Guidelines are in place governing eligibility and disqualification criteria for competitive athletes with these GCVDs (eg, Bethesda Conference No. 26 and its update as Bethesda Conference No. 36 in 2005). However, similar systematic recommendations for the much larger population of patients with GCVD who are not trained athletes, but nevertheless wish to participate in any of a variety of recreational physical activities and sports, have not been available. The practicing clinician is frequently confronted with the dilemma of designing noncompetitive exercise programs for athletes with GCVD after disqualification from competition, as well as for those patients with such conditions who do not aspire to organized sports. Indeed, many asymptomatic (or mildly symptomatic) patients with GCVD desire a physically active lifestyle with participation in recreational and leisure-time activities to take advantage of the many documented benefits of exercise. However, to date, no reference document has been available for ascertaining which types of physical activity could be regarded as either prudent or inadvisable in these subgroups of patients. Therefore, given this clear and present need, this American Heart Association consensus document was constituted, based largely on the experience and insights of the expert panel, to offer recommendations governing recreational exercise for patients with known GCVDs.

Published
2004
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23. Sialylation of lipooligosaccharides promotes biofilm formation by nontypeable Haemophilus influenzae.

Author

Swords WE, Moore ML, Godzicki L, Bukofzer G, Mitten MJ, and VonCannon J

Subjects
Acute Disease, Animals, Disease Models, Animal, Ear, Middle microbiology, Gerbillinae, Haemophilus Infections microbiology, Haemophilus influenzae classification, Haemophilus influenzae genetics, Lung microbiology, Otitis Media microbiology, Rats, Rats, Sprague-Dawley, Respiratory Tract Infections microbiology, Silicon, Biofilms growth & development, Haemophilus influenzae growth & development, Lipopolysaccharides metabolism, Sialic Acids metabolism
Abstract

Nontypeable Haemophilus influenzae (NTHi) is a major cause of opportunistic respiratory tract infections, including otitis media and bronchitis. The persistence of NTHi in vivo is thought to involve bacterial persistence in a biofilm community. Therefore, there is a need for further definition of bacterial factors contributing to biofilm formation by NTHi. Like other bacteria inhabiting host mucosal surfaces, NTHi has on its surface a diverse array of lipooligosaccharides (LOS) that influence host-bacterial interactions. In this study, we show that LOS containing sialic (N-acetyl-neuraminic) acid promotes biofilm formation by NTHi in vitro and bacterial persistence within the middle ear or lung in vivo. LOS from NTHi in biofilms was sialylated, as determined by comparison of electrophoretic mobilities and immunochemical reactivities before and after neuraminidase treatment. Biofilm formation was significantly reduced in media lacking sialic acid, and a siaB (CMP-sialic acid synthetase) mutant was deficient in biofilm formation in three different in vitro model systems. The persistence of an asialylated siaB mutant was attenuated in a gerbil middle ear infection model system, as well as in a rat pulmonary challenge model system. These data show that sialylated LOS glycoforms promote biofilm formation by NTHi and persistence in vivo.

Published
2004
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24. Efficacies of ABT-773, a new ketolide, against experimental bacterial infections.

Author

Mitten MJ, Meulbroek J, Nukkala M, Paige L, Jarvis K, Oleksijew A, Tovcimak A, Hernandez L, Alder JD, Ewing P, Or YS, Ma Z, Nilius AM, Mollison K, and Flamm RK

Subjects
Animals, Bacterial Infections metabolism, Disease Models, Animal, Drug Resistance, Microbial, Erythromycin pharmacokinetics, Female, Haemophilus Infections drug therapy, Haemophilus Infections metabolism, Haemophilus influenzae drug effects, Listeriosis drug therapy, Listeriosis metabolism, Lung Diseases drug therapy, Lung Diseases metabolism, Lung Diseases microbiology, Male, Mice, Rats, Rats, Sprague-Dawley, Respiratory Tract Diseases drug therapy, Respiratory Tract Diseases metabolism, Staphylococcal Infections drug therapy, Staphylococcal Infections metabolism, Streptococcal Infections drug therapy, Streptococcal Infections metabolism, Streptococcus pneumoniae drug effects, Treatment Outcome, Bacterial Infections drug therapy, Erythromycin analogs & derivatives, Erythromycin therapeutic use, Ketolides
Abstract

ABT-773 is a novel ketolide effective against antibacterial-resistant respiratory tract pathogens. The pharmacokinetic profile of ABT-773 was studied in rats and consisted of a mean peak concentration in plasma of 1.07 microg/ml and an area under the concentration-time curve (AUC) of 12.03 microg. h/ml when the compound was delivered at a dose of 25 mg/kg of body weight. It concentrated in rat lung tissue, with a lung tissue-to-plasma ratio of 29 based on the AUC. In acute systemic infections in mice, ABT-773 showed efficacy against macrolide-susceptible strains of Staphylococcus aureus, Streptococcus pneumoniae, S. pyogenes, and Listeria monocytogenes. Additionally, ABT-773 improved the survival of mice infected with resistant S. pneumoniae containing either the ermB gene, the mefE gene, or altered penicillin binding protein genes. In a rat lung model of infection, ABT-773 demonstrated 50% effective doses lower than those of comparator macrolides when evaluated against the following strains of S. pneumoniae: a macrolide-lincosamide-streptogramin B-susceptible strain, an ermB strain, and an mefE strain. ABT-773 was also effective against Haemophilus influenzae lung infections in rats. Thus, ABT-773 may prove to be a useful new antibacterial agent for the treatment of respiratory tract infections.

Published
2001
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25. Cardiovascular preparticipation screening of competitive athletes: addendum: an addendum to a statement for health professionals from the Sudden Death Committee (Council on Clinical Cardiology) and the Congenital Cardiac Defects Committee (Council on Cardiovascular Disease in the Young), American Heart Association.

Author

Maron BJ, Thompson PD, Puffer JC, McGrew CA, Strong WB, Douglas PS, Clark LT, Mitten MJ, Crawford MD, Atkins DL, Driscoll DJ, and Epstein AE

Subjects
Death, Sudden prevention & control, Health Personnel, Heart Defects, Congenital diagnosis, Humans, American Heart Association, Cardiovascular Diseases diagnosis, Cardiovascular Diseases prevention & control, Medical Records, Physical Examination, Sports
Published
1998
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26. Cardiovascular preparticipation screening of competitive athletes. A statement for health professionals from the Sudden Death Committee (clinical cardiology) and Congenital Cardiac Defects Committee (cardiovascular disease in the young), American Heart Association.

Author

Maron BJ, Thompson PD, Puffer JC, McGrew CA, Strong WB, Douglas PS, Clark LT, Mitten MJ, Crawford MH, Atkins DL, Driscoll DJ, and Epstein AE

Subjects
Adult, Age Factors, Cardiomyopathy, Hypertrophic epidemiology, Death, Sudden etiology, Ethics, Professional, Female, Heart Defects, Congenital epidemiology, Humans, Male, Prevalence, Racial Groups, Sex Characteristics, United States epidemiology, Cardiomyopathy, Hypertrophic mortality, Death, Sudden epidemiology, Heart Defects, Congenital mortality, Mass Screening, Sports legislation & jurisprudence
Published
1996
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