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41 results on '"Bcl 2 bcl xl"'

1. Flavonoids kaempferol (KAE) and quercetine (QUE) inhibited proliferation of human leukemia THP-1 cells by up regulation of pro-apoptotic protein Bax and caspase 3/8 expression and down regulation of anti-apoptotic proteins Bcl-2, Bcl-xl and Mcl-1 expression

Author

Abbas Zakeri Bazmandeh, Sheibani Sedigheh, and Hamid Reza Ghaderi Jafarbeigloo

Subjects
Cancer Research, Human leukemia, business.industry, Caspase 3, Anti-Apoptotic Proteins, Bcl 2 bcl xl, chemistry.chemical_compound, Oncology, Downregulation and upregulation, chemistry, Apoptosis, Cancer research, Medicine, Pharmacology (medical), THP1 cell line, Kaempferol, business
Published
2021
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2. Multikilogram Synthesis of a Potent Dual Bcl-2/Bcl-xL Antagonist. 1. Manufacture of the Acid Moiety and Development of Some Key Reactions

Author

Chloé Copin, François Barière, Anthony Craquelin, Solenn Janvier, Sylvain Lemaitre, Sébastien Samson, Sandrine Baillard, Olivier Russo, Christophe Hardouin, and Stéphane Le Roux

Subjects
Bcl 2 bcl xl, 010405 organic chemistry, Process development, Drug candidate, Chemistry, Organic Chemistry, Antagonist, Moiety, Physical and Theoretical Chemistry, 010402 general chemistry, 01 natural sciences, Combinatorial chemistry, 0104 chemical sciences
Abstract

Our efforts toward the process development of drug candidate 1 are described in a series of two papers. This manuscript focuses on the synthesis of kilogram quantities of acid precursor 2 to provid...

Published
2019
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3. Multikilogram Synthesis of a Potent Dual Bcl-2/Bcl-xL Antagonist. 2. Manufacture of the 1,3-Diamine Moiety and Improvement of the Final Coupling Reaction

Author

Stéphane Le Roux, Sandrine Baillard, Olivier Russo, Christophe Hardouin, François Barière, Anthony Craquelin, Mathieu Grandjean, Christine Penloup, and Solenn Janvier

Subjects
chemistry.chemical_classification, Bcl 2 bcl xl, chemistry.chemical_compound, chemistry, Stereochemistry, Drug candidate, Diamine, Organic Chemistry, Antagonist, Moiety, Physical and Theoretical Chemistry, Coupling reaction, Sulfonamide
Abstract

This paper describes the synthesis of kilogram quantities of the sulfonamide moiety 3 involved in a coupling reaction with acid moiety 2 to provide batches of drug candidate 1 for preclinical studi...

Published
2019
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4. Dual BCL-2/BCL-XL Inhibitor Pelcitoclax (APG-1252) Overcomes Intrinsic and Acquired Resistance to Venetoclax in Multiple Myeloma Cells

Author

Kenneth C. Anderson, Jing Deng, Annamaria Gulla, Eugenio Morelli, Leona Yamamoto, Teru Hideshima, Mariateresa Fulciniti, Yifan Zhai, Nikhil C. Munshi, Sanika Derebail, Chandraditya Chakraborty, Zuzana Chyra, Mehmet Kemal Samur, Doriana Gramegna, Anil Aktas-Samur, and Yao Yao

Subjects
Bcl 2 bcl xl, chemistry.chemical_compound, Acquired resistance, Chemistry, Venetoclax, Immunology, medicine, Cancer research, Cell Biology, Hematology, medicine.disease, Biochemistry, Multiple myeloma
Abstract

Multiple myeloma (MM) is marked by several genetic abnormalities, including chromosome translocation t(11;14). Overexpression of anti-apoptotic BCL-2 in t(11;14) MM promotes disease progression, prompting clinical use of the BH3 mimetic and BCL-2 inhibitor venetoclax in combination with proteasome inhibitor therapy. Despite high initial response rates and prolonged progression-free survival, patients commonly relapse. To delineate mechanisms contributing to acquired drug resistance we modeled responses to venetoclax in two highly sensitive MM cell lines (KMS27 and KMS-12PE). Colonies generated from a surviving cell were cultured in high-dose venetoclax to generate monoclonal drug-tolerant expanded persister (DTEP) clones. To determine whether venetoclax resistance in DTEP clones is mediated by transcriptional adaptation via genomic or epigenomic regulation and transcriptional reprogramming, we conducted whole-genome sequencing (WGS) and RNA-seq of the clones. WGS analysis did not show significant differences between parental and resistant clones, but transcriptomic analysis showed shared and unique transcriptome signatures in DTEP clones. Gene set enrichment analysis of the common significantly modulated genes in resistant clones revealed that PKA-ERK-CREB and K-Ras pathway genes were significantly upregulated, whereas apoptotic genes were downregulated in resistant clones compared to parental cells. Importantly, ectopically expressed ERK in venetoclax-sensitive cells conferred a resistant phenotype that was rescued using two specific ERK inhibitors in DTEP clones. These data confirm a key role for ERK activation in acquired venetoclax resistance. Resistant clones were further characterized by reduced mitochondrial priming assessed by dynamic BH3 profiling, with altered expression of anti-apoptotic regulators including MCL-1, BCL-xL, and BCL-W and the replaced BCL-2: BIM complex by both MCL-1 and BCL-xL. Because these data suggested a functional substitution between anti-apoptotic BCL-2 family members in cells with acquired resistance to venetoclax, we next evaluated if MCL-1 or BCL-xL are codependent in MM cells that are insensitive or resistant to venetoclax. Simultaneous inhibition of MCL-1 (via S63845) or BCL-xL (via A155463) and BCL-2 (via venetoclax) increased BIM release and enhanced cell death in resistant clones (vs single agents), with combination index values < 0.3 in all doses. Upregulation of BCL-xL or MCL-1 in MM cells also mediated primary venetoclax resistance independent of genetic hallmarks (e.g. t [11;14]-translocated cells). Thus, simultaneous inhibition of MCL-1 or BCL-xL and BCL-2 triggered synergistic cytotoxicity in MM cell lines intrinsically resistant to venetoclax. These data suggest that combined inhibition of BCL-2 and BCL-xL may overcome venetoclax resistance. However, the dependence of BCL-xL in mature platelets had triggered thrombocytopenia for patients under therapy using BCL-xL inhibitor. To further explore the potential clinical application of targeting BCL-xL, we employed novel BCl-2/BCL-xL dual inhibitor, BH3 mimetic pelcitoclax (APG-1252). Using pro-drug strategy for design, pelcitoclax has limited cell permeability during circulation, and was converted to a more potent metabolite APG-1252-M1 in tumors/tissues. APG-1252-M1 was thus used for in vitro cell based assays. We discovered that APG-1252-M1 induced cytotoxicity in MM cell lines intrinsically resistant to venetoclax (regardless of genetic background or BCL-2:BCL-xL ratio) and also significantly reduced MM cell viability in clones with acquired venetoclax resistance, overcoming ERK activation and decreasing BIM sequestration by BCL-xL. In vivo study using pelcitoclax is ongoing and will be presented at the meeting. In conclusion, we report that venetoclax resistance in MM evolves from outgrowth of persister clones displaying activation of the ERK pathway and a shift in mitochondrial dependency towards BCL-xL, which can potentially be effectively targeted via the novel BCL-2/BCL-xL inhibitor pelcitoclax (APG-1252), which is currently in clinical investigation for solid tumors (NCT03080311). Disclosures Deng: Ascentage Pharma Group: Current Employment. Zhai: Ascentage Pharma Group Inc.: Current Employment, Current equity holder in publicly-traded company, Other: Leadership and other ownership interests, Patents & Royalties, Research Funding; Ascentage Pharma (Suzhou) Co., Ltd.: Current Employment, Current equity holder in publicly-traded company, Other: Leadership and other ownership interests, Patents & Royalties, Research Funding. Anderson: Sanofi-Aventis: Membership on an entity's Board of Directors or advisory committees; Janssen: Membership on an entity's Board of Directors or advisory committees; Millenium-Takeda: Membership on an entity's Board of Directors or advisory committees; Gilead: Membership on an entity's Board of Directors or advisory committees; Bristol Myers Squibb: Membership on an entity's Board of Directors or advisory committees; Celgene: Membership on an entity's Board of Directors or advisory committees; Pfizer: Membership on an entity's Board of Directors or advisory committees; Scientific Founder of Oncopep and C4 Therapeutics: Current equity holder in publicly-traded company, Current holder of individual stocks in a privately-held company; AstraZeneca: Membership on an entity's Board of Directors or advisory committees; Mana Therapeutics: Membership on an entity's Board of Directors or advisory committees. Munshi: Novartis: Consultancy; Janssen: Consultancy; Adaptive Biotechnology: Consultancy; Takeda: Consultancy; Celgene: Consultancy; Bristol-Myers Squibb: Consultancy; Karyopharm: Consultancy; Oncopep: Consultancy, Current equity holder in publicly-traded company, Other: scientific founder, Patents & Royalties; Amgen: Consultancy; Abbvie: Consultancy; Legend: Consultancy; Pfizer: Consultancy.

Published
2021
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5. Antitumor Activity of Dual BCL-2/BCL-Xl Inhibitor Pelcitoclax (APG-1252) in Natural Killer/T-Cell Lymphoma (NK/TCL)

Author

Eric Liang, Ping Ming, Fei Zhang, Lvcheng Wang, Guangfeng Wang, Yangfeng Ge, Jingjin Shang, Jing Lv, Li Rui, Yifan Zhai, Dajun Yang, and Chunyang Tang

Subjects
Bcl 2 bcl xl, Antitumor activity, Chemistry, Immunology, medicine, Cancer research, Cell Biology, Hematology, medicine.disease, Natural killer T cell, Biochemistry, Lymphoma
Abstract

Natural killer/T-cell lymphoma (NK/TCL) is one of the most common subtypes (10.4%) of peripheral T-cell lymphoma, which in turn accounts for 10% to 15% of all cases of non-Hodgkin lymphoma. NK/TCL occurs more frequently in Asia and Latin America than other regions, and although associated with Epstein-Barr virus (EBV) infection, NK/TCL has an unclear pathogenesis of genetic and molecular alterations. Asparaginase-based chemotherapy regimens are frequently used, typically with unsatisfactory outcomes. Novel targeted therapies, such as histone deacetylase (HDAC) inhibitors and programmed death-1 antibodies, are reported effective either as single agents or in combination with other agents. Studies have also shown that EBV-positive NK/TCL cell lines are B-cell lymphoma-extra large (BCL-xL) dependent. Other preclinical experiments have shown that BH3-mimetic drugs targeting BCL-xL-induced cell death in NK/TCL cell lines were effective in NK/TCL xenograft models. BCL-xL inhibitors have shown narrow therapeutic windows in clinical trials because of dose-limiting on-target thrombocytopenia. Pelcitoclax (APG-1252) is a novel dual BCL-2/BCL-xL inhibitor under clinical development for solid tumors. As a result of its unique prodrug design, APG-1252 can overcome the undesired platelet toxicity. This study evaluated the potential antitumor effect of APT-1252 in preclinical models of NK/TCL. Cell-based antiproliferation studies showed activity of APG-1252 and its more potent metabolite APG-1252-M1 toward NK/TCL cell lines that overexpressed BCL-xL. Half-maximal inhibitory concentrations (IC 50) for APG-1252 in SNK-1, SNK-6, and SNK-8 (EBV-positive NK/TCL) cell lines were 2.652 ± 2.606 µM, 1.568 ± 1.109 µM, and 0.557 ± 0.383 µM, respectively. Corresponding values for APG-1252-M1 were 0.133 ± 0.056 µM, 0.064 ± 0.014 µM, and 0.020 ± 0.008 µM, respectively. Mechanistic studies demonstrated that APG-1252 and APG-1252-M1 disrupted the complex of BCL-xL/BCL-2-associated X protein (Bax) and BCL-xL/BCL-2 homologous antagonist killer protein (Bak) in SNK-6 cells, thereby liberating these proapoptotic proteins and further activating downstream apoptosis pathways by cleaving poly-ADP ribose polymerase-1 (PARP-1) and caspase-3. In an SNK-6 xenograft model, administration of APG-1252 at 65 mg/kg and 100 mg/kg either twice or once weekly resulted in significant antitumor effects, with tumor growth rate (T/C%) values ranging from 13.7% to 30.7%. Furthermore, the combination of APG-1252 with HDAC inhibitor chidamide or DDGP (dexamethasone, cisplatin, gemcitabine, and pegaspargase) chemotherapy demonstrated synergistic effects. Pharmacokinetic assessment in mice showed that APG-1252 had a long half-life in plasma (127 hours) and tumor tissues (25.2 hours), justifying intermittent dosing schedules used in vivo. Importantly, the transformation of APG-1252 to APG-1252-M1 was 16 times higher in tumor tissues compared to plasma (22% vs. 1.3%) after administration of APG-1252, thereby suggesting that APG-1252 can reduce platelet toxicity caused by APG-1252-M1 in plasma. In conclusion, APG-1252 has promising antitumor effects in NK/TCL, either as a single agent or in combination with an HDAC inhibitor or chemotherapy. These findings provide evidence to further evaluate APG-1252 as a potential treatment for NK/TCL. Disclosures Wang: Ascentage Pharma Co., Ltd., Shanghai: Current Employment, Current equity holder in publicly-traded company. Liang: Ascentage Pharma Group Inc.: Current Employment, Current equity holder in publicly-traded company. Ming: Ascentage Pharma Co., Ltd., Shanghai: Current Employment, Current equity holder in publicly-traded company. Rui: Ascentage Pharma Co., Ltd., Taizhou: Current Employment, Current equity holder in publicly-traded company. Tang: Ascentage Pharma Co., Ltd., Taizhou: Current Employment, Current equity holder in publicly-traded company. LV: Ascentage Pharma Co., Ltd., Shanghai: Current Employment, Current equity holder in publicly-traded company. Ge: Ascentage Pharma Co., Ltd., Shanghai: Current Employment, Current equity holder in publicly-traded company. Zhang: Ascentage Pharma Co., Ltd., Taizhou: Current Employment, Current equity holder in publicly-traded company. Wang: Ascentage Pharma Co., Ltd., Taizhou: Current Employment, Current equity holder in publicly-traded company. Shang: Ascentage Pharma Co., Ltd., Shanghai: Current Employment, Current equity holder in publicly-traded company. Yang: Ascentage Pharma (Suzhou) Co., Ltd.: Current Employment, Current equity holder in publicly-traded company, Other: Leadership and other ownership interests, Patents & Royalties, Research Funding. Zhai: Ascentage Pharma Group Inc.: Current Employment, Current equity holder in publicly-traded company, Other: Leadership and other ownership interests, Patents & Royalties, Research Funding; Ascentage Pharma (Suzhou) Co., Ltd.: Current Employment, Current equity holder in publicly-traded company, Other: Leadership and other ownership interests, Patents & Royalties, Research Funding.

Published
2021
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6. New insights into binding of natural chalcones to Bcl-2, Bcl-xL and Mcl-1 anti-apoptotic proteins

Author

Veljko Krstonošić and Dejan Ćirin

Subjects
Antitumor activity, Tumor cell apoptosis, 0303 health sciences, Chemistry, Stereochemistry, Organic Chemistry, Binding energy, Anti-Apoptotic Proteins, Analytical Chemistry, Inorganic Chemistry, Bcl 2 bcl xl, 03 medical and health sciences, Molecular dynamics, 0302 clinical medicine, 030220 oncology & carcinogenesis, Side chain, Abstract knowledge, Spectroscopy, 030304 developmental biology
Abstract

Knowledge about mechanisms responsible for induction of tumor cell apoptosis is important for the development of anticancer drugs. Mounting evidence suggests that the inhibition of anti-apoptotic proteins of Bcl-2 family is important part of antitumor activity of natural chalcones. In order to gain insights into their binding affinity and binding mechanism, the MM-GBSA binding energies were determined for 63 natural chalcones to Bcl-2, Bcl-xL and Mcl-1, by employing multiple crystal structures of each anti-apoptotic protein. It was noticed that the chalcones have high affinity to the BH3-binding groove. The driving forces behind the binding and the anchor points on the proteins were determined for the top-ranked chalcones, whereas the 300-ns Molecular Dynamics (MD) simulations provided more insights into the binding in the most stable complexes. The importance of ring A, ring B and the side chains of the chalcones for the interactions with the hydrophobic cavities of anti-apoptotic proteins was noticed. Although the natural compounds showed mainly favorable pharmacokinetic properties, some limitations in binding to the proteins, compared to the synthetic ligands, were noticed. This pointed out towards possible future directions of chemical modifications of the most potent natural compounds. It is envisioned that the results of this study could be useful for the selection of lead antitumor natural compounds as well as for the design of new synthetic BH3-mimetics.

Published
2021
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7. Trial in Progress: Phase Ib/II Study of Bcl-2/Bcl-Xl Inhibitor Pelcitoclax (APG-1252) in Patients with Myelofibrosis (MF) That Progressed after Initial Therapy

Author

Tommy Fu, Ming Lu, Piyush Sheladia, Eric Liang, Srdan Verstovsek, Yifan Zhai, Cunlin Wang, Dajun Yang, Sasha McClain, Boyd Mudenda, Naveen Pemmaraju, and Jiao Ji

Subjects
medicine.medical_specialty, Ruxolitinib, Package insert, business.industry, Immunology, Cell Biology, Hematology, medicine.disease, Biochemistry, Bcl 2 bcl xl, European LeukemiaNet, Tolerability, Family medicine, medicine, In patient, Initial therapy, Myelofibrosis, business, medicine.drug
Abstract

Background: Pelcitoclax (APG-1252), a novel dual inhibitor of Bcl-2/Bcl-xL, is active as monotherapy in patients with advanced solid tumors and well tolerated up to 240 mg twice weekly (NCT03387332). Preclinical data suggest that cells with Janus-associated kinase-2 (JAK2) mutations, including those associated with bone marrow fibrosis, are dependent on Bcl-2/Bcl-xL for survival and that addition of BH3 mimetics targeting Bcl-2/Bcl-xL induces apoptosis. Furthermore, in JAK2‒mutated cell models, apoptotic synergy is demonstrated when a JAK2 inhibitor and Bcl-2/Bcl-xL inhibitor are combined, as inhibition of Bcl-xL overcomes resistance to JAK2 inhibitors. Taken together, APG-1252 could overcome resistance to JAK2 inhibitors, and the combination could augment clinical benefit in patients with suboptimal responses to JAK2 inhibitor‒based therapy. Study Objectives: The primary objective of this open-label trial is to evaluate the safety and efficacy of APG-1252, as monotherapy and when combined with ruxolitinib, in adults with histologically or cytologically confirmed MF who require therapy and are ineligible for JAK2 inhibitors (and can receive single-agent APG-1252) or have had inadequate responses to ruxolitinib-based therapy (and can receive this treatment plus APG-1252). Secondary objectives include APG-1252 pharmacokinetics, time to response, and duration of response. Exploratory objectives include changes in cytogenetics and molecular mutations, bone marrow fibrosis, and cytokines on treatment. Study Design: The study is divided into Part 1 (APG-1252 monotherapy) and Part 2 (APG-1252 plus ruxolitinib). For Part 1, the key inclusion criterion is ineligibility for JAK2 inhibitors and for Part 2, inadequate responses to prior ruxolitinib-based therapy. A standard 3+3 dose-escalation design is being implemented to determine the maximum tolerated dose (MTD) of APG-1252 monotherapy in Part 1 and APG-1252 combined with ruxolitinib in Part 2. APG-1252 will initially be administered at 160 mg intravenously by 30-minute injection once weekly in a 28-day cycle. The dose can be escalated to a maximum of 240 mg or reduced to a minimum of 80 mg, depending on tolerability. Part 2 will begin once the MTD and recommended phase 2 dose (RP2D) of APG-1252 monotherapy have been determined. In Part 2, ruxolitinib will be administered orally twice daily per the package insert. After the MTD for APG-1252 monotherapy has been determined, no additional patients will be enrolled in Part 1; however, up to 15 to 30 additional patients can be enrolled in Part 2, to further evaluate the safety and anticancer activity of the combination at MTD or RP2D. Patients will continue treatment until disease progression or unacceptable toxicity. Clinical responses are being assessed every 12 weeks according to criteria from the International Working Group‒Myeloproliferative Neoplasms Research and Treatment and European LeukemiaNet panels, while optimal clinical benefit will be evaluated at 24 weeks. Enrollment will be from September 2020 and preliminary results estimated in October 2022. For further information, contact: yzhai@ascentage.com. Registration: ClinicalTrials.gov Identifier NCT04354727. Disclosures Pemmaraju: Pacylex Pharmaceuticals: Consultancy; Roche Diagnostics: Honoraria; LFB Biotechnologies: Honoraria; Stemline Therapeutics: Honoraria, Research Funding; Celgene: Honoraria; AbbVie: Honoraria, Research Funding; MustangBio: Honoraria; Affymetrix: Other: Grant Support, Research Funding; Cellectis: Research Funding; Daiichi Sankyo: Research Funding; Plexxikon: Research Funding; Samus Therapeutics: Research Funding; DAVA Oncology: Honoraria; Blueprint Medicines: Honoraria; Novartis: Honoraria, Research Funding; Incyte Corporation: Honoraria; SagerStrong Foundation: Other: Grant Support. Mudenda:Ascentage Pharma Group Inc.: Current Employment, Current equity holder in publicly-traded company. Wang:Ascentage Pharma Group Inc.: Current Employment, Current equity holder in publicly-traded company. JI:Ascentage Pharma (Suzhou) Co., Ltd.: Current Employment, Current equity holder in publicly-traded company. Lu:Ascentage Pharma Group: Current Employment, Current equity holder in publicly-traded company. Fu:Ascentage Pharma Group Inc.: Current Employment, Current equity holder in publicly-traded company. Liang:Ascentage Pharma Group Inc.: Current Employment, Current equity holder in publicly-traded company. McClain:Ascentage Pharma Group Inc.: Current Employment, Current equity holder in publicly-traded company. Sheladia:Ascentage Pharma Group Inc.: Current Employment, Current equity holder in publicly-traded company. Verstovsek:Novartis: Consultancy, Research Funding; Sierra Oncology: Consultancy, Research Funding; Blueprint Medicines Corp: Research Funding; PharmaEssentia: Research Funding; ItalPharma: Research Funding; AstraZeneca: Research Funding; Protagonist Therapeutics: Research Funding; Promedior: Research Funding; Celgene: Consultancy, Research Funding; NS Pharma: Research Funding; Genentech: Research Funding; CTI Biopharma Corp: Research Funding; Incyte Corporation: Consultancy, Research Funding; Roche: Research Funding; Gilead: Research Funding. Yang:Ascentage Pharma (SuZhou) Co., Ltd: Current Employment, Current equity holder in publicly-traded company, Other: Leadership and other ownership interests. Zhai:Ascentage Pharma (SuZhou) Co., Ltd: Current Employment, Current equity holder in publicly-traded company, Other: Leadership and other ownership interests.

Published
2020
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9. Selective BH3-mimetics targeting BCL-2, BCL-X-L or MCL-1 induce severe mitochondrial perturbations

Author

Kristina Henz, Shankar Varadarajan, Aoula Al-Zebeeby, Meike Vogler, Simone Fulda, Gerald M. Cohen, and Marion Basoglu

Subjects
0301 basic medicine, Clinical Biochemistry, bcl-X Protein, Apoptosis, Mitochondrion, Biochemistry, Bcl 2 bcl xl, 03 medical and health sciences, 0302 clinical medicine, Caspase activation, Humans, Molecular Biology, Bh3 mimetics, Chemistry, Molecular Mimicry, Mitochondrial morphology, Cell biology, Mitochondria, Enzyme Activation, 030104 developmental biology, Proto-Oncogene Proteins c-bcl-2, Mitochondrial matrix, 030220 oncology & carcinogenesis, Caspases, Myeloid Cell Leukemia Sequence 1 Protein, Function (biology)
Abstract

Induction of apoptosis by selective BH3-mimetics is currently investigated as a novel strategy for cancer treatment. Here, we report that selective BH3-mimetics induce apoptosis in a variety of hematological malignancies. Apoptosis is accompanied by severe mitochondrial toxicities upstream of caspase activation. Specifically, the selective BH3-mimetics ABT-199, A-1331852 and S63845, which target BCL-2, BCL-XL and MCL-1, respectively, induce comparable ultrastructural changes including mitochondrial swelling, a decrease of mitochondrial matrix density and severe loss of cristae structure. These shared effects on mitochondrial morphology indicate a similar function of these anti-apoptotic BCL-2 proteins in maintaining mitochondrial integrity and function.

Published
2019

10. First-in-human study of palcitoclax (APG-1252), a novel dual Bcl-2/Bcl-xL inhibitor, demonstrated advantages in platelet safety while maintaining anticancer effect in U.S. patients with metastatic solid tumors

Author

Jason Chen, Nehal Lakhani, Qi Zeng, Zhiyan Liang, Drew W. Rasco, Lei Fu, Cunlin Wang, Dajun Yang, Ming Lu, Yifan Zhai, Yuefen Tang, and Hengbang Wang

Subjects
Cancer Research, business.industry, First in human, Anticancer drug, Bcl 2 bcl xl, 03 medical and health sciences, 0302 clinical medicine, Oncology, 030220 oncology & carcinogenesis, Cancer research, Medicine, Platelet, business, 030215 immunology
Abstract

3509 Background: Targeting Bcl-2/Bcl-xL proteins is considered as an important approach for anticancer drug development. Palcitoclax (APG-1252) was being developed to reduce on-target platelet toxicity without diminishing antitumor potency. Methods: The phase 1 study was to evaluate the safety/tolerability, pharmacokinetics (PK), and preliminary efficacy (assessed per RECIST 1.1) of palcitoclax in US patients with metastatic small-cell lung cancer (SCLC) or other solid tumors (NCT03080311). A standard “3+3” design was applied to the dose-escalation stage. Palcitoclax was administered IV infusion for 30 minutes, twice a week (BIW) or once a week (QW) for 3 weeks in a 28-day cycle. Once the maximum tolerated dose / recommended phase 2 dose (MTD/RP2D) was determined, additional patients were treated in a dose-expansion stage. Results: The dose-escalation phase has been completed with 42 patients (31 on BIW and 11 on QW) who received palcitoclax at 8 dose cohorts ranging 10 mg - 400 mg. Most adverse events (AEs) were grade 1 or 2 (G1 or G2), and 26.2% patients had ≥ G3 TRAEs. The most common TRAEs were platelet count decreased (14.3%), aspartate aminotransferase increased (9.5%), and alanine aminotransferase increased (7.1%). Rapid platelet drop was observed in patients treated at 320 mg and 400 mg, which was transient and resolved rapidly within 2-6 days. Palcitoclax at 240 mg once weekly was determined to be MTD/RP2D. Of 36 efficacy-evaluable patients, 3 patients with SCLC, neuroendocrine prostate cancer, and ovarian cancer respectively achieved partial response (PR) and 8 patients had stable disease (SD) as their best overall response. One patient with SCLC had a PR that lasted over 21 cycles. Preliminary PK analyses showed that Cmax and AUC were approximately dose proportional over the range of 10 mg to 320 mg following the IV infusion on Day 1, with a mean T1/2 of 3.0-13.0 hours. Conclusions: Palcitoclax is safe and well tolerated, with a favorable platelet toxicity profile. Its promising antitumor effect supports its further development in combination therapies for treatment of patients with SCLC and other solid tumors. Clinical trial information: NCT03080311 .

Published
2020
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12. OA12 A Phase I Study of Novel Bcl-2/Bcl-xL Inhibitor APG-1252 in Patients with Advanced SCLC or Other Solid Tumor

Author

Z. Xia, Y. Zhai, H. Wang, M. Boyer, D.W. Rasco, B. Lu, Y. Wu, Z. He, Y. Huang, Y. Li, D. Yang, Q. Dong, Q. Zhou, J. Ji, Nehal Lakhani, and L. Men

Subjects
0301 basic medicine, Pulmonary and Respiratory Medicine, 010405 organic chemistry, business.industry, 01 natural sciences, 0104 chemical sciences, Phase i study, Bcl 2 bcl xl, 03 medical and health sciences, 030104 developmental biology, Oncology, Cancer research, Medicine, In patient, business, Solid tumor
Published
2018
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13. Scalable asymmetric synthesis of a key fragment of Bcl-2/Bcl-xL inhibitors

Author

Aurélie Viger, Sylvain Laclef, Christine Penloup, Christophe Hardouin, Vincent Levacher, Catherine Taillier, Jean-François Brière, Chimie Organique et Bioorganique : Réactivité et Analyse (COBRA), Institut Normand de Chimie Moléculaire Médicinale et Macromoléculaire (INC3M), Institut de Chimie du CNRS (INC)-École Nationale Supérieure d'Ingénieurs de Caen (ENSICAEN), Normandie Université (NU)-Normandie Université (NU)-Institut national des sciences appliquées Rouen Normandie (INSA Rouen Normandie), Institut National des Sciences Appliquées (INSA)-Normandie Université (NU)-Institut National des Sciences Appliquées (INSA)-Université Le Havre Normandie (ULH), Normandie Université (NU)-Université de Rouen Normandie (UNIROUEN), Normandie Université (NU)-Centre National de la Recherche Scientifique (CNRS)-Université de Caen Normandie (UNICAEN), Normandie Université (NU)-Institut de Chimie du CNRS (INC)-École Nationale Supérieure d'Ingénieurs de Caen (ENSICAEN), Normandie Université (NU)-Centre National de la Recherche Scientifique (CNRS)-Institut de Chimie Organique Fine (IRCOF), Université de Rouen Normandie (UNIROUEN), and Institut National des Sciences Appliquées (INSA)-Normandie Université (NU)-Institut National des Sciences Appliquées (INSA)-Centre National de la Recherche Scientifique (CNRS)-Centre National de la Recherche Scientifique (CNRS)

Subjects
0303 health sciences, [CHIM.ORGA]Chemical Sciences/Organic chemistry, 010405 organic chemistry, Stereochemistry, Chemistry, General Chemical Engineering, Enantioselective synthesis, [CHIM.CATA]Chemical Sciences/Catalysis, [CHIM.THER]Chemical Sciences/Medicinal Chemistry, General Chemistry, 01 natural sciences, Combinatorial chemistry, 0104 chemical sciences, [CHIM.THEO]Chemical Sciences/Theoretical and/or physical chemistry, Bcl 2 bcl xl, 03 medical and health sciences, Fragment (logic), [CHIM.ANAL]Chemical Sciences/Analytical chemistry, ComputingMilieux_MISCELLANEOUS, [CHIM.CHEM]Chemical Sciences/Cheminformatics, Amination, 030304 developmental biology
Abstract

The asymmetric synthesis of a 1,3-diamine building block for the elaboration of Bcl-2 and Bcl-xL protein inhibitors is described through two key steps: (1) a highly diastereoselective aza-Reformatsky reaction, and (2) a chemoselective amination under Mitsunobu conditions. This synthetic sequence was also demonstrated to be successfully amenable to a large-scale synthesis.

Published
2014
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14. A Potent and Highly Efficacious Bcl-2/Bcl-xL Inhibitor

Author

Angelo Aguilar, Jennifer L. Meagher, Shaomeng Wang, Chao Yie Yang, Chen Jianfang, Liu Liu, Donna McEachern, Longchuan Bai, Haibin Zhou, and Jeanne A. Stuckey

Subjects
Chemistry, Blotting, Western, bcl-X Protein, Mice, SCID, Molecular biology, Article, Compound 32, Dose schedule, Bcl 2 bcl xl, Blot, Inhibitory Concentration 50, Mice, Proto-Oncogene Proteins c-bcl-2, Cell culture, In vivo, Cell Line, Tumor, Drug Discovery, Cancer cell, Cancer research, Animals, Humans, Molecular Medicine, Tumor growth
Abstract

Our previously reported Bcl-2/Bcl-xL inhibitor, 4, effectively inhibited tumor growth but failed to achieve complete regression in vivo. We have now performed extensive modifications on its pyrrole core structure, which has culminated in the discovery of 32 (BM-1074). Compound 32 binds to Bcl-2 and Bcl-xL proteins with Ki values of < 1 nM and inhibits cancer cell growth with IC50 values of 1-2 nM in four small-cell lung cancer cell lines sensitive to potent and specific Bcl-2/Bcl-xL inhibitors. Compound 32 is capable of achieving rapid, complete and durable tumor regression in vivo at a well-tolerated dose-schedule. Compound 32 is the most potent and efficacious Bcl-2/Bcl-xL inhibitor reported to date.

Published
2013
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15. EXTH-54. Bcl-2/Bcl-xL INHIBITION SYNERGISTICALLY ENHANCES THE ANTI-NEOPLASTIC ACTIVITY OF CUSP9 AGAINST GLIOBLASTOMA CELLS IN VITRO

Author

Markus D. Siegelin, Richard E. Kast, Georg Karpel-Massler, Marc-Eric Halatsch, Annika Dwucet, and Christian Rainer Wirtz

Subjects
Bcl 2 bcl xl, Abstracts, Cancer Research, Oncology, Chemistry, Cancer research, medicine, Neurology (clinical), medicine.disease, Anti neoplastic, In vitro, Glioblastoma
Abstract

OBJECTIVE: Repurposing represents a promising approach to safely accelerate the clinical application of therapeutics with anti-cancer activity. In this study, we examined whether inhibition of the anti-apoptotic Bcl-2 family proteins Bcl-2 and Bcl-xL enhances the biological effects of the repurposed CUSP9 regimen in an in vitro setting of glioblastoma. METHODS: We applied MTT assays to assess cellular proliferation. Annexin V/PI and TMRE staining were used to examine apoptosis. Western blotting, RT-PCR and specific knockdown experiments using siRNA were employed to examine molecular mechanisms of action. RESULTS: Bcl-2/Bcl-xL inhibition by the BH3 mimetic ABT263, yielded synergistic anti-proliferative effects across a wide panel of established and primary cultured glioblastoma cells when combined with CUSP9 which had been reduced to only one tenth of its original concentration (CUSP9 1/10). The combination treatment also led to enhanced apoptosis with loss of mitochondrial membrane potential and activation of caspases. On the molecular level, CUSP9 1/10 counteracted ABT263-mediated upregulation of Mcl-1. Silencing of Mcl-1 enhanced ABT263-mediated apoptosis, indicating that Mcl-1 is crucial for the induction of cell death conveyed by the combination treatment. Levels of Mcl-1 mRNA were not decreased following combination therapy, and co-treatment with cycloheximide showed reduced protein stability, pointing towards a post-translational mechanism of action. CONCLUSION: These data suggest that Bcl-2/Bcl-xL inhibition enhances the susceptibility of glioblastoma cells towards CUSP9, allowing dramatic dose reduction and potentially decreased toxicity when applied clinically. A clinical trial involving the original CUSP doses (CUSP9v3) is currently ongoing in our institution (NCT02770378). The Bcl-2/Bcl-xL inhibitor ABT263 is in clinical trials and might represent a valuable adjunct to the original CUSP.

Published
2018
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16. Abstract 2936: MTORC1/2 inhibition in combination with BCL-2/BCL-xL inhibition in APC and PIK3CA mutant colorectal cancer

Author

Cheri A. Pasch, Kristina A. Matkowskyj, Michael A. Newton, Linda Clipson, Demetra P. Korkos, Alex E. Yueh, Christopher L. Babiarz, Susan N. Payne, Dustin A. Deming, Stephanie L. Fricke, and Gioia Sha

Subjects
Bcl 2 bcl xl, Cancer Research, Oncology, Chemistry, Colorectal cancer, Mutant, Cancer research, medicine, mTORC1, medicine.disease
Abstract

Background: Intrinsic resistance to agents targeting the PI3K/AKT/mTOR pathway has been commonly encountered in clinical trials of patients with PIK3CA mutant colorectal cancer (CRC). Upregulation of antiapoptotic signaling has been proposed as a mechanism of resistance to these therapies, including upregulation of BCL-2 and BCL-xL. To investigate if inhibition of BCL-2 family members would sensitize Pik3ca mutant cancers to MTORC1/2 inhibition, treatment studies were performed with TAK-228 (MTORC1/2 inhibitor), BEZ235 (dual PI3K/mTOR inhibitor), navitoclax (ABT-263; BCL-2, BCL-xL and BCL-w inhibitor) and the combination of navitoclax with either TAK-228 or BEZ235. Methods: Therapeutic investigations with 200 nM TAK-228 or 200 nM BEZ235 and 250 nM navitoclax were performed in murine CRC spheroids with loss of APC and a constitutively active PI3K. Images were taken both pre- and post-treatment and changes in spheroid diameter were measured. Parallel treatment studies were performed on patient-derived organotypic CRC spheroids. Additionally, treatment studies were performed in vivo using a novel transgenic mouse model carrying Apc and Pik3ca mutations. The mice were treated with the combination of BEZ235 and navitoclax or with a single agent alone for 7 consecutive days. Results: Treatment of CRC spheroids with TAK-228 resulted in a reduction of sphere size by 16% while control treated spheres increased by 77% of their size at day 0. No response was seen with navitoclax treatment alone. A profound synergistic treatment response was observed with the combination of TAK-228 and navitoclax (reduction of 26%, p Conclusion: Synergistic activity was seen with the combination of TAK-228 or BEZ235 and navitoclax. This combination deserves further study in future clinical trials. Citation Format: Stephanie L. Fricke, Susan N. Payne, Cheri A. Pasch, Demetra P. Korkos, Gioia Sha, Alex E. Yueh, Christopher Babiarz, Linda Clipson, Kristina A. Matkowskyj, Michael A. Newton, Dustin A. Deming. MTORC1/2 inhibition in combination with BCL-2/BCL-xL inhibition in APC and PIK3CA mutant colorectal cancer [abstract]. In: Proceedings of the American Association for Cancer Research Annual Meeting 2018; 2018 Apr 14-18; Chicago, IL. Philadelphia (PA): AACR; Cancer Res 2018;78(13 Suppl):Abstract nr 2936.

Published
2018
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17. A phase I study of novel dual Bcl-2/Bcl-xL inhibitor APG-1252 in patients with advanced small cell lung cancer (SCLC) or other solid tumor

Author

Lichuang Men, Sreenivasa R Chandana, Yvette Cole, Yingjie Huang, Hengbang Wang, Nehal Lakhani, Kyriakos P. Papadopoulos, Timothy J. O'Rourke, Anthony W. Tolcher, Amita Patnaik, Qi Dong, Jiao Ji, Alex Amaya, Dajun Yang, Theresa Mays, Drew W. Rasco, Yifan Zhai, and Brianne Kaiser

Subjects
0301 basic medicine, Cancer Research, business.industry, Phase i study, Bcl 2 bcl xl, 03 medical and health sciences, 030104 developmental biology, 0302 clinical medicine, Oncology, In vivo, 030220 oncology & carcinogenesis, Toxicity, Cancer research, Medicine, Platelet, In patient, Non small cell, business, Solid tumor
Abstract

2594Background: We have developed a unique strategy to tactically reduce on-target platelet toxicity with APG-1252, a novel dual Bcl-2/Bcl-xL inhibitor, while maintaining strong in vivo antitumor a...

Published
2018
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19. Targeting Bcl-2/Bcl-XL Induces Antitumor Activity in Uveal Melanoma Patient-Derived Xenografts

Author

Lockhart Brian, Didier Decaudin, Xavier Sastre-Garau, Olivier Geneste, Stéphane Depil, Fariba Nemati, Ludmilla de Plater, Laurence Kraus-Berthier, Catherine de Montrion, Laurence Desjardins, Guillaume Carita, David Vallerand, Alain Pierre, Guillaume Lang, Sophie Piperno-Neumann, and Aurélie Berniard

Subjects
Uveal Neoplasms, Cancer Treatment, Apoptosis, Mice, SCID, Pharmacology, Biochemistry, Nitrosourea Compounds, Metastasis, Bcl 2 bcl xl, Prostate cancer, Mice, Drug Discovery, Molecular Cell Biology, Antineoplastic Combined Chemotherapy Protocols, Signaling in Cellular Processes, Molecular Targeted Therapy, Melanoma, Apoptotic Signaling Cascade, Apoptotic Signaling, Antitumor activity, Sulfonamides, Multidisciplinary, Chemistry, Antiapoptotic Signaling, Immunohistochemistry, Signaling Cascades, Oncology, Medicine, Heterocyclic Compounds, 3-Ring, Research Article, Biotechnology, Signal Transduction, Protein Binding, Drugs and Devices, Drug Research and Development, Science, bcl-X Protein, Antineoplastic Agents, Fluorescence Polarization, Organophosphorus Compounds, Complementary and Alternative Medicine, medicine, Animals, Humans, Biology, Survival analysis, Cell Proliferation, medicine.disease, Survival Analysis, Xenograft Model Antitumor Assays, Cancer research, Myeloid Cell Leukemia Sequence 1 Protein, Peptides
Abstract

PurposeUveal melanoma (UM) is associated with a high risk of metastases and lack of efficient therapies. Reduced capacity for apoptosis induction by chemotherapies is one obstacle to efficient treatments. Human UM is characterized by high expression of the anti-apoptotic protein Bcl-2. Consequently, regulators of apoptosis such as Bcl-2 family inhibitors may constitute an attractive approach to UM therapeutics. In this aim, we have investigated the efficacy of the Bcl-2/Bcl-XL inhibitor S44563 on 4 UM Patient-Derived Xenografts (PDXs) and derived-cell lines.Experimental designFour well characterized UM PDXs were used for in vivo experiments. S44563 was administered alone or combined with fotemustine either concomitantly or after the alkylating agent. Bcl-2, Bcl-XL, and Mcl-1 expressions after S44563 administration were evaluated by immunohistochemistry (IHC).ResultsS44563 administered alone by at 50 and 100 mg/kg i.p. induced a significant tumour growth inhibition in only one xenograft model with a clear dose effect. However, when S44563 was concomitantly administered with fotemustine, we observed a synergistic activity in 3 out of the 4 tested models. In addition, S44563 administered after fotemustine induced a tumour growth delay in 2 out of 3 tested xenografts. Finally, IHC analyses showed that Bcl-2, Bcl-XL, and Mcl-1 expression were not modified after S44563 administration.ConclusionThe novel anti-apoptotic experimental compound S44563, despite a relative low efficacy when administered alone, increased the efficacy of fotemustine in either concomitant or sequential combinations or indeed subsequent to fotemustine. These data support further exploration of potential therapeutic effect of Bcl-2/Bcl-xl inhibition in human UM.

Published
2014

22. Antitumor evaluation of the new Bcl-2/Bcl-xl inhibitor S44563 in primary human uveal melanoma xenografts

Author

A Besniard, Pascale Mariani, C. De Montrion, L. Kraus Berthier, Fariba Nemati, Bp Lockhart, Didier Decaudin, Xavier Sastre, Stéphane Depil, Sophie Piperno-Neumann, Laurence Desjardins, and L. De Plater

Subjects
Pathology, medicine.medical_specialty, Chemotherapy, business.industry, Melanoma, medicine.medical_treatment, General Medicine, medicine.disease, Bcl 2 bcl xl, Ophthalmology, Concomitant, medicine, Cancer research, Fotemustine, Immunohistochemistry, Tumor growth inhibition, Tumor growth, business, medicine.drug
Abstract

Purpose Nearly half of primary Uveal melanoma (UM) metastasizes in liver, but there are currently no effective therapies. Human UM are characterized by a high expression of Bcl-2, ranging between 50% and 100%. This observation has been confirmed in our panel of 16 human UM xenografts obtained from patient’s tumors (Nemati et al, CCR 2010). We have investigated the efficacy of the new Bcl-2/Bcl-XL inhibitor S44563 on 4 primary human UM xenografts. Methods Four well characterized primary human UM xenografts were used. S44563 (50 or 100 mg/kg, days 1-5/8-12/22-26/29-33) was administered IP alone or combined with fotemustine, concomitantly (15 or 30 mg/kg days 1 and 22), or after chemotherapy (100 mg/kg, days 43-47/50-54/64-68/71-75). Tumor Growth Inhibition (TGI) was calculated to measure the efficiency of drugs. Bcl-2, Bcl-XL, and Mcl-1 expressions were determined by immunohistochemistry (IHC). Results S44563 administered alone induced a moderate TGI of about 50% in 1 model (MP41). When combined S44563 to fotemustine, we observed a synergistic activity in 2 models (MP77 and MM66), without impact on the proportion of complete remission. Finally, when S44563 was concomitantly and/or administered after fotemustine, we found a delay of tumor growth in 2 among the 3 tested xenografts (MP77, and MM26). IHC analyses showed that Bcl-2, Bcl-XL, and Mcl-1 expressions were not modified after S44563 administration. Conclusion We have shown that S44563 increased the efficacy of chemotherapy in concomitant combination or after fotemustine. Such preliminary results underline the therapeutic potential of this new Bcl-2/Bcl-xl inhibitor in human UM.

Published
2012
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24. Identification of a phenylacylsulfonamide series of dual Bcl-2/Bcl-xL antagonists

Author

Grebinski James W, Arturo Galvani, Jonathan Lippy, Michele Modugno, Andrew J. Tebben, Robert M. Borzilleri, Jay Bertrand, Robert J. Schmidt, Donna D. Wei, Liping Zhang, Zhen Wei Cai, Louis J. Lombardo, Patrizia Banfi, Heidi L. Perez, Joseph G. Naglich, Kyoung S. Kim, and Paola Vianello

Subjects
Models, Molecular, Clinical Biochemistry, bcl-X Protein, Pharmaceutical Science, Bcl-xL, Antineoplastic Agents, Apoptosis, Crystallography, X-Ray, Biochemistry, Protein–protein interaction, Bcl 2 bcl xl, Cell Line, Tumor, Drug Discovery, Potency, Humans, Molecular Biology, Binding affinities, bcl-2-Associated X Protein, Isolated mitochondria, Sulfonamides, biology, Chemistry, Organic Chemistry, Cytochromes c, Molecular biology, Mitochondria, Cell culture, biology.protein, Molecular Medicine, Hydrophobic and Hydrophilic Interactions
Abstract

A series of phenylacylsulfonamides has been prepared as antagonists of Bcl-2/Bcl-xL. In addition to potent binding affinities for both Bcl-2 and Bcl-xL, these compounds were shown to induce classical markers of apoptosis in isolated mitochondria. Overall weak cellular potency was improved by the incorporation of polar functionality resulting in compounds with moderate antiproliferative activity.

Published
2012

27. Corrigendum to '3-Thiomorpholin-8-oxo-8H-acenaphtho [1,2-b] pyrrole-9-carbonitrile (S1) derivatives as pan-Bcl-2-inhibitors of Bcl-2, Bcl-xL and Mcl-1' [Bioorg. Med. Chem. 21 (2013) 11–20]

Author

Ting Song, Ying Yang, Guiye Wu, Pengchen Su, Shenghui Xie, Yingang Feng, Xiangqian Li, and Zhichao Zhang

Subjects
Bcl 2 bcl xl, chemistry.chemical_compound, chemistry, Stereochemistry, Organic Chemistry, Clinical Biochemistry, Drug Discovery, Pharmaceutical Science, Molecular Medicine, Molecular Biology, Biochemistry, Pyrrole
Published
2014
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28. HSpin1, a transmembrane protein interacting with Bcl-2/Bcl-xL, induces a caspase-independent autophagic cell death

Author

Y Nakano, Daisuke Yamamoto, Toshiyuki Miyashita, and H Yanagisawa

Subjects
Programmed cell death, Pyrrolidines, bcl-X Protein, Cell Cycle Proteins, Biology, Cathepsin D, Bcl 2 bcl xl, Thiocarbamates, Autophagy, Humans, Enzyme Inhibitors, Molecular Biology, Cell Death, Tumor Necrosis Factor-alpha, Caspase independent, Membrane Proteins, Membrane Transport Proteins, Cell Biology, Phosphoproteins, Molecular biology, Caspase Inhibitors, Transmembrane protein, Cell biology, Protein Structure, Tertiary, Proto-Oncogene Proteins c-bcl-2, Caspases, Vacuoles, Microtubule-Associated Proteins, HeLa Cells, Protein Binding
Abstract

The Drosophila spinster (spin) gene product is required for programmed cell death in the nervous and reproductive systems. We have identified a human homologue of the Drosophila spin gene product (HSpin1). HSpin1 bound to Bcl-2 and apoptosis regulator Bcl-X (Bcl-xL), but not to proapoptotic members such as Bcl-2-associated X protein and Bcl-2 homologous antagonist killer, in cells treated with TNF-alpha. Exogenous expression of HSpin1 resulted in the cell death without inducing a release of cytochrome c from mitochondria. Overexpression of Bcl-xL inhibited the HSpin1-induced cell death. Interestingly, a necrosis inhibitor, pyrrolidine dithiocarbomate, but not the pancaspase inhibitors, carbobenzoxy-VAD-fluoromethyl ketone and p35, blocked the HSpin1-induced cell death. HSpin1-induced cell death increases autophagic vacuole and mature form of cathepsin D, suggesting a novel caspase-independent cell death, which is link to autophagy.

Published
2003

31. Targeted therapies for epithelial cancers: In vivo efficacy of the BCL-2/BCL-XL inhibitor 2-MeAA

Author

David M. Hockenbery and Pamela S. Schwartz

Subjects
Pharmacology, Cancer Research, Chemotherapy, medicine.medical_treatment, Carcinoma, bcl-X Protein, Antimycin A, Biology, Bcl 2 bcl xl, Animal model, Proto-Oncogene Proteins c-bcl-2, Oncology, BH3 peptide, In vivo, Apoptosis, Cell Line, Tumor, medicine, Humans, Molecular Medicine
Abstract

Commentary to:Bcl2/bcl-xl Inhibitor Engenders Apoptosis and Increases Chemo-sensitivity In MesotheliomaXiaobo Cao, Charles Rodarts, Lidong Zhang, Clinton D. Morgan, James Littlejohn and W. Roy SmytheCancer Biology & Therapy Volume: 6 | Issue: 2 | Pages: 246 - 252

Published
2007
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33. AT-101 (-/- Gossypol) in Combination with Trastuzumab Triggers Apoptosis Through Inhibiting BCL-2, BCL-XL AND MCL-1 Protein Levels in Human HER2-Positive Breast Cancer Cells

Author

Burcu Çakar, Burcak Karaca, Asli Kisim, Ruchan Uslu, Gulcan Bulut, Selim Uzunoglu, Harika Atmaca, and Emir Bozkurt

Subjects
business.industry, Hematology, BCL-XL Protein, Bcl 2 bcl xl, MCL-1 Protein, chemistry.chemical_compound, Oncology, chemistry, Gossypol, Apoptosis, Trastuzumab, HER2 Positive Breast Cancer, Cancer research, Medicine, business, medicine.drug
Published
2013
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35. Abstract 4858: Celecoxib-induces a Bcl-2/Bcl-xL-regulated autophagy whose inhibition drives human colon cancer cells into apoptosis

Author

Frank A. Sinicrope and Shengbing Huang

Subjects
Bcl 2 bcl xl, Human colon cancer, Cancer Research, Programmed cell death, Oncology, Chemistry, Apoptosis, Autophagy, Celecoxib, medicine, Cancer research, medicine.drug
Abstract

BACKGROUND. Autophagy is a mechanism of cellular destruction whereby cytoplasmic proteins and organelles are sequestered in vacuoles and delivered to lysosomes for degradation and recycling. Autophagy is not always pro-death but can also be pro-survival under conditions of cellular stress. Autophagy and apoptosis can be regulated by Bcl-2 family proteins. We determined whether the anti-neoplastic agent celecoxib can induce autophagy and/or apoptosis, and if a small molecule Bcl-2/Bcl-xL antagonist, e.g., ABT-737, can enhance either/both processes. Furthermore, we determined whether autophagy inhibition can drive colon cancer cells into apoptosis. EXPERIMENTAL METHODS. Human colon cancer cell lines (HCT116, SW480 ± Bcl-2, HT-29 ± Bcl-xL lentiviral shRNA) were incubated with celecoxib (0-120 µM) alone and in combination with ABT-737 (0- 5 µM). Autophagy was studied by LC3I/II expression (Western blotting) and using a GFP-LC3B chimeric plasmid. Additionally, autophagy was imaged by monodansylcadaverine (MDC) staining of autophagic vacuoles and acridine orange staining of acidic vesicles by fluorescent confocal microscopy. Apoptosis was analyzed by caspase cleavage (Western blotting) by annexin V labeling and FACS. RESULTS. Celecoxib triggered conversion of the autophagosome-associated protein light chain 3 (LC3) from a cytosolic (LC3I) to a membrane-bound (LC3II) form as shown by Western blotting, and a change in the localization of the fluorescence pattern of an ectopic GFP-LC3B protein. Celecoxib-induced conversion of LC3 was due to autophagy induction, as shown using the lysosome inhibitor, Bafilomycin A1 that produced an accumulation of LC3II. Celecoxib-induced autophagy and apoptosis were attenuated by ectopic Bcl-2, but were augmented by Bcl-xL knockdown. ABT-737 was shown to enhance celecoxib-induced autophagy as shown by LC3 conversion, acridine orange staining of acidic vesicles, and MDC staining of autophagic vacuoles. Celecoxib also induced apoptosis, as shown by caspase cleavage and annexin V labeling, that was synergistically enhanced by ABT-737. Given that autophagy can be pro-survival under conditions of cellular stress, we determined whether inhibition of autophagy can drive cells into apoptosis. Use of the autophagy inhibitor 3-methyladenine (3-MA) was shown to block LC3 conversion and to enhance celecoxib-induced apoptosis that was further augmented by ABT-737. Similarly, Vps34 or Atg8/LC3 siRNA were shown to enhance caspase cleavage in cells treated with celecoxib plus ABT-737. CONCLUSION. Celecoxib induces autophagy and apoptosis that can both be potentiated by a Bcl-2/ Bcl-xL antagonist. Furthermore, inhibition of autophagy was shown to drive cells into apoptosis, suggesting a novel therapeutic strategy against colon cancer. Citation Format: {Authors}. {Abstract title} [abstract]. In: Proceedings of the 101st Annual Meeting of the American Association for Cancer Research; 2010 Apr 17-21; Washington, DC. Philadelphia (PA): AACR; Cancer Res 2010;70(8 Suppl):Abstract nr 4858.

Published
2010
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36. O528 Study of Curcumin combined with Cisplatin on the sensitization of chemotherapy in human cervical cancer cell line SiHa and its influences on the expression of anti-apoptotic proteins Bcl-2, Bcl-XL

Author

P. Xue and H. Lina

Subjects
Cisplatin, Oncology, Chemotherapy, medicine.medical_specialty, business.industry, medicine.medical_treatment, Obstetrics and Gynecology, General Medicine, Anti-Apoptotic Proteins, Bcl 2 bcl xl, chemistry.chemical_compound, medicine.anatomical_structure, chemistry, Internal medicine, Cervical carcinoma, medicine, Cancer research, Curcumin, business, Sensitization, medicine.drug
Published
2009
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39. POTENTIATION OF APOPTOSIS INDUCING ACTIVITY OF BL-193, A NONPEPTIDIC SMALL-MOLECULE INHIBITOR OF BCL-2/BCL-XL PROTEINS, BY GENISTEIN IN PANCREATIC CANCER CELLS

Author

R. Mohammad, Jianyong Chen, J. Min, Xihan Wu, F.H. Sarkar, and Shaomeng Wang

Subjects
Hepatology, Endocrinology, Diabetes and Metabolism, Genistein, Long-term potentiation, medicine.disease, Small molecule, Bcl 2 bcl xl, chemistry.chemical_compound, Endocrinology, chemistry, Apoptosis, Pancreatic cancer, Internal Medicine, Cancer research, medicine
Published
2004
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41. Paclitaxel in combination with AT-101 induces apoptosis via supressing Bcl-2, bcl-XL, mcl-1 proteins in human breast cancer cells

Author

Asli Kisim, Selim Uzunoglu, Bulent Karabulut, Ulus Ali Sanli, Burcak Karaca, Ruchan Uslu, Burcu Çakar, Canfeza Sezgin, Pınar Gürsoy, Emir Bozkurt, and Harika Atmaca

Subjects
Cancer Research, business.industry, medicine.disease, Bcl 2 bcl xl, chemistry.chemical_compound, Breast cancer, Oncology, chemistry, Paclitaxel, Microtubule, Gossypol, Apoptosis, Cancer cell, medicine, Cancer research, business, Human breast
Abstract

e13578 Background: Paclitaxel, a microtubule stabilizing agent, has been a standard of care for breast cancer. AT-101, is an -/- enantiomer of gossypol, inhibits the Bcl-2 family proteins which contain BH3 domain. We reported previously that Paclitaxel in combination with AT-101 showed strong synergistic cytotoxic and apoptotic effects in human breast cancer cells. In this study, to elucidate the molecular mechanisms involved in the apoptotic effect of AT-101/Paclitaxel combination treatment in breast cancer cells, we investigated the possible roles of anti-apoptotic Bcl-2, Bcl-XL and Mcl-1 proteins which contain BH3 domain. Involvement of caspase 3 and 7 activation was also investigated. Methods: Human breast cancer cells were treated with increasing concentrations of drugs alone or with the synergistic combination doses of AT-101 and Paclitaxel. Cell Death Detection Elisa Plus Kit (Roche) was used to detect apoptosis. Caspase 3/7 activity was evaluated by Caspase-Glo 3/7 (Promega, Madison, WI) kit. Changes in the mRNA levels of Bcl-2, Bcl-XL and Mcl-1 genes were evaluated by qRT-PCR. Expression levels of these proteins were also investigated by Western blot analysis. Results: Combined treatment was shown to have strong synergistic apoptotic effects in MCF-7 and MDA- MB-231 human breast cancer cells. mRNA levels of Bcl-2, Bcl-XL and Mcl-1 molecules were reduced by the combination treatment in both cell lines. In parallel with mRNA levels, Bcl-2, Bcl-XL and Mcl-1 protein levels were significantly reduced after this novel drug combination. Combined treatment also induced caspase 3/7 activation in breast cancer cells. Conclusions: These preliminary data suggest that anti-apoptotic proteins such as Bcl-2, Bcl-XL and Mcl-1 may play important role in the underlying mechanistic rationale of apoptotic effect of AT-101/paclitaxel combination, while pro-apoptotic Bcl-2 related genes (Caspase-3 and Caspase-7) also seem to regulate this synergistic interaction.

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