Anti-apoptotic Activity Of Bcl-2 Research Articles

Chondroprotective and antiarthritic effects of Daphnetin used in vitro and in vivo osteoarthritis models

AimsDaphnetin (DAP) is a traditional Chinese drug usually used to treat cardiovascular diseases. Studies have confirmed the anti-inflammatory, antioxidant, anti-bacterial and insecticidal, anti-tumor and neuro-protective effects of DAP. However, its anti-arthritic potential remains unexplored. The aim of this study is to investigate the in vitro and in vivo chondroprotective effects of DAP. Main methodsThe effect of DAP on primary rabbit chondrocytes was examined using recombinant human IL-1β for 24 h. For the in vivo studies, rabbits were randomly divided into groups: a normal control group and osteoarthritis (OA) groups. The OA groups received three different doses of DAP for 4 or 8 weeks. The anti-arthritic effect of DAP was assessed using histopathological examinations, qRT-PCR, western blotting and immunohistochemical analysis. Key findingsBoth in vitro and in vivo results indicate that DAP exerts a protective effect against IL-1β in chondrocytes. In vitro, DAP inhibits the expression of IL-6, IL-12, MMP-3, MMP-9 and MMP-13, induced by IL-1β in rabbit chondrocytes, and stimulates the production of IL-10. The inhibitory effect of DAP on the MMPs is partially regulated by the inhibition of the PI3K/AKT, MAPK and NF-κB signaling pathways. The effect of DAP on OA may be attributed to the suppression of inflammatory factor secretion, chondrocyte apoptosis observed by the decrease in pro-apoptotic Caspase-3 and BAX, and the activation of anti-apoptotic BCL-2. SignificanceDAP has a broad range of prospects in the treatment of OA, which provides a novel therapeutic strategy for OA.

Targeting Bcl2 in cancer.

The decision phase of apoptosis is mainly regulated by the Bcl-2 family, which renders these proteins potential targets for cancer therapy through apoptotic mechanisms. Bcl2 family members have homology clustered within four conserved Bcl2 homology (BH) domains (BH1, BH2, BH3 and BH4). Only the antiapoptotic proteins, such as Bcl2, Bcl-XL, Bcl-w and A1, bear the NH2-terminal BH4 domain [1]. Mcl-1 does not have a typical BH4 domain but has a helical BH4-like domain which is located between the PEST region and the BH3 domain. The BH1, BH2 and BH3 domains form the surface binding pocket of Bcl2 which mediates protein-protein interactions involving Bcl2 family members. Mutations in this hydrophobic surface binding pocket abolish the antiapoptotic function of Bcl2, demonstrating its requirement in the biological function of Bcl2. To interfere with Bcl2 function, it is necessary to impede binding to the hydrophobic cleft. Synthetic peptides that bind this surface pocket of Bcl-XL and Bcl2 have been shown to induce apoptosis in vitro. The hydrocarbon-stapled BH3 peptide not only induces apoptosis but also possesses potent antitumor activity in vivo. Recently, an approach called “structure-activity relationship by nuclear magnetic resonance (SAR by NMR)” has been used for the discovery of novel Bcl2/Bcl-XL inhibitors [2]. In this approach, the relatively large site to be targeted is divided into two smaller half-sites that are individually targeted by small molecules. The two lead molecules are then chemically linked to improve the binding affinity. Subsequent iterative chemical manipulations to improve affinity and decrease binding to human serum albumin, guided by NMR and three-dimensional structures of antiapoptotic proteins, yielded the small molecules ABT-737 and ABT-263, which bind to the hydrophobic pocket of Bcl2 or Bcl-XL with high-affinity and subsequently disrupt the antiapoptotic function of Bcl2 and Bcl-XL with potent anti-tumor effect [2]. Thus, such small molecules that directly target Bcl2 and/or the Bcl2-like proteins by mimicking the BH3 domain should be highly effective anticancer drugs. However, ABT-737 and ABT-263 can induce thrombocytopenia due to their inhibitory effects on both Bcl2 and Bcl-XL [3]. To generate a more selective Bcl2 inhibitor, a tethered indole was incorporated into ABT-263 to fill the P4 hot spot, which specifically interacts with aspartic acid (Asp 103) of Bcl2 but not Glu96 of Bcl-XL, leading to the generation of the Bcl2-selective inhibitor ABT-199 [4]. Since ABT-199 did not cause thrombocytopenia in vivo [4], this suggests that selective inhibition of Bcl2 may benefit the development of improved Bcl2 antagonists. In addition to the hydrophobic surface binding pocket, the NH2-terminal BH4 domain (aa-6-31) of Bcl2 is also required for its antiapoptotic function [5]. The BH4 domain of Bcl2 can interact with multiple molecules, including Bax, CED-4, Ras, PP2A, PP2B, IP3 receptor (IP3R), and others. Since only the prosurvival Bcl2 family members possess a conserved N-terminal region denoted BH4, this suggests a critical role of this amphipathic helix for their survival activity. Intriguingly, either caspase-mediated cleavage or mutagenic removal of the BH4 domain not only completely abolishes the antiapoptotic activity of Bcl2 but also results in a conversion of Bcl-2 to a Bax-like death effector [6]. The BH4 domain peptide has been reported to exert antiapoptotic activity in vivo, which provides direct evidence that the BH4 domain contributes to the survival function of the prosurvival Bcl2 family members. Since the BH4 domain is critical for the antiapoptotic function of Bcl2, this amphipathic helix should also be an ideal structural target for the screening of small molecules that may bind to this domain and interfere with Bcl2's survival activity. Solution structure of the BH4 domain exhibits multiple potential binding pockets for small molecule docking [7]. Recently, we chose the BH4 domain of Bcl2 as the docking site for screening of small molecules and identified BDA-366 as a Bcl2 BH4 antagonist that is distinct from previous BH3 mimetics. BDA-366 selectively targets the BH4 domain of Bcl2 and converts Bcl2 from a survival molecule to a cell death inducer through a conformational change (BH3 exposure) (Figure ​(Figure1).1). BDA-366 not only induces apoptosis but also autophagic cell death of cancer cells by disruption of Bcl2 activity. BDA-366 demonstrates potent antitumor activity in lung cancer xenografts derived from either a lung cancer cell line or a patient-derived small cell lung cancer tumor [8]. Figure 1 Proposed model of Bcl2 BH4 antagonist BDA-366 induction of apoptosis in cancer cells In summary, BH3 mimetics (ABT-263 and ABT-199) and the BH4 antagonist (BDA-366) are two different classes of Bcl2 inhibitors that target Bcl2 at the hydrophobic binding pocket or BH4 domain, respectively. Disruption of Bcl2's antiapoptotic function via BH3 mimetics or the BH4 antagonist may represent attractive strategies for cancer treatment.

Abstract 13: Biophysical evidence for the existence of a functional interaction between the small GTPase Rac-1 and the anti-apoptotic protein Bcl-2

Abstract We recently reported a novel mechanism of anti-apoptotic activity of Bcl-2 by demonstrating a link between an altered mitochondrial metabolism and apoptosis resistance in cells overexpressing Bcl-21. This increase in mitochondrial metabolism was linked to induction of complex IV activity (Cytochrome C oxidase) as well as oxygen consumption2. The pro-oxidant activity of Bcl-2 was a function of an interaction with the small GTPase Rac1. This interaction was validated in a small number of clinical tissues derived from patients with aggressive B cell lymphomas. Interestingly, interrupting the interaction between Bcl-2 and Rac1 restored apoptosis sensitivity of Bcl-2 overexpressing cell lines3. In the present study we set out to identify the domains within the two proteins responsible for the interaction. We show that the pro-oxidant activity of Bcl-2 and its interaction with Rac1 are dependent on the phosphorylation of Bcl-2 at serine 70 within the non-structured loop region adjacent to the BH3 domain. Also, the activation status of Rac1 appears important in this interaction as GDP loading almost completely inhibits, whereas GTP loading facilitates interaction. To further substantiate those findings, isothermal titration calorimetry (ITC) was carried out using Rac1-GTPγS and Bcl-2 BH3 peptides to gain insight into the energetics of binding of BH3 peptide to Rac1-GTPγS. Indeed, the thermodynamic parameters ΔH and ΔS in the ITC experiments of Rac1- GTPγS and BH3 peptide were -2.55 × 104 Joules/mol and +35.6 joules/mol/deg, respectively, and the ΔG values were negative, indicating that the binding of Rac1-GTPγS with BH3 peptide was spontaneous and exothermic and that hydrophobic interactions played a major role; however, hydrogen bonds could not be discounted due to the positive ΔS value and the presence of polar amino acids in the peptide. Similar results were obtained with the S70 phosphorylation mimetic peptide of Bcl-2 (S70E) but not with the S70A phosphorylation dead peptide. Furthermore, the fluorescence intensity of Rac1 decreased steadily with increasing Bcl-2 peptide concentration, indicating an interaction between Rac1 and Bcl-2 peptides. These data provide strong evidence for the existence of a functional interaction between Bcl-2 and Rac1 and for the translational relevance of this interaction in human cancers that are refractory to chemotherapy due to the overexpression of Bcl-2. 1. Chen, Z, X. and Pervaiz, S. Cell Death Diff. 14(9): 1617-27, 2007. 2. Chen ZX, and Pervaiz S. Cell Death Differ. 2010 Mar;17(3):408-20. 3. Velaithan R, et al. Blood. 2011 Jun 9;117(23):6214-26. Citation Format: Jia Kang, Shani Ajumal, Kunchithapadam Swaminathan, Shazib Pervaiz. Biophysical evidence for the existence of a functional interaction between the small GTPase Rac-1 and the anti-apoptotic protein Bcl-2. [abstract]. In: Proceedings of the 106th Annual Meeting of the American Association for Cancer Research; 2015 Apr 18-22; Philadelphia, PA. Philadelphia (PA): AACR; Cancer Res 2015;75(15 Suppl):Abstract nr 13. doi:10.1158/1538-7445.AM2015-13

Abstract P6-01-21: C-myc and bcl-2 overexpression in HER2-positive breast carcinomas

Abstract Background: Gene amplification plays a significant role in the transcriptional regulation of the genome; in breast cancer, amplification of the HER2 gene occurs in 20-30% of patients and confers a poor prognosis. Trastuzumab is now widely used in HER2-positive breast carcinomas and has significantly changed outcomes in this aggressive subtype of breast cancer. C-myc, another oncogene, is reported to be amplified in breast cancer; c-myc regulates cell proliferation. Bcl-2, the prototype anti-apoptotic gene, is overexpressed in human breast carcinomas. The anti-apoptotic action of bcl-2 is located downstream from HER2 and may serve as a potential drug target. This study evaluated the rate of c-myc and bcl-2 overexpression in a cohort of HER2-amplified breast carcinomas and correlated the dysregulation of these genes with patient demographics and histologic characteristics. Design: The study population consisted of 96 patients with HER2-positive invasive breast carcinoma treated with surgical excision or mastectomy at Northwestern Memorial Hospital (2009-12) (mean age 53, range 18-80). Electronic medical records were reviewed for patient demographics. Pathologic tumor characteristics (histologic type, size, grade, lymph node status) and tumor marker profile at the time of diagnosis (ER, PR, p53 and ki-67) were evaluated. Tissue microarrays were constructed (3 cores from each case to account for tumor heterogeneity) for immunohistochemical evaluation of c-myc (Epitomics, clone V69) and bcl-2 (DAKO, clone 124). Results: Overall, these HER2-amplified breast carcinomas were almost exclusively infiltrating ductal carcinomas (92/96, 96%) of high histologic grade: 68/96 (71%) were grade 3, while the other 28 were grade 2 tumors. C-myc was overexpressed in 49/96 (51%) of the cases and bcl-2 was expressed in 60/96 (62%). There was no association of c-myc or bcl-2 expression with age, patient race, tumor grade, tumor size, lymph node status, p53 expression or ki-67 proliferation index. Expression of both c-myc and bcl-2 was seen in 30/96 (31%) of the cases. Of interest, c-myc-positive/bcl-2-positive tumors more often had positive lymph nodes and higher ki-67 proliferation index compared to tumors with c-myc-negative/bcl-2-negative phenotype (46.7% v 29.4% and 75.8% v 56.2% respectively). Conclusions: (1) C-myc is expressed in over 50% and bcl-2 in over 60% of HER2-amplified carcinomas. (2) C-myc and bcl-2 expression do not appear to have differential expression between age groups or racial groups and do not correlate with histologic tumor characteristics. (3) HER2-amplified carcinomas expressing both c-myc and bcl-2 are highly proliferative tumors with a high rate of lymph node positivity. These findings suggest that coupled c-myc and bcl-2 overexpression may contribute to the biologic aggressiveness of HER2-amplified breast carcinomas. Additional studies into the molecular mechanisms that drive HER2-amplified tumors are currently underway in this aggressive subtype of breast cancer. Citation Format: Alexandra L Larson, Denise M Scholtens, Adriana A Rosca, Virginia Kaklamani, Kalliopi P Siziopikou. C-myc and bcl-2 overexpression in HER2-positive breast carcinomas [abstract]. In: Proceedings of the Thirty-Seventh Annual CTRC-AACR San Antonio Breast Cancer Symposium: 2014 Dec 9-13; San Antonio, TX. Philadelphia (PA): AACR; Cancer Res 2015;75(9 Suppl):Abstract nr P6-01-21.

Abstract 5278: Superoxide mediated selective tyrosine nitration of protein phosphatase 2A-B56δ stabilizes Bcl-2 phosphorylation and its anti-apoptotic activity

Abstract Our work over the years has provided strong evidence that an increase in intracellular superoxide anion provides cancer cells with a survival advantage and promotes tumor chemoresistance. The mechanisms underlying superoxide-mediated pro-survival signaling are poorly understood. Here we report that an increase in intracellular superoxide stabilizes the anti-apoptotic activity of Bcl-2 by mechanisms that involve sustained phosphorylation of Bcl-2 at serine 70. Of note, this effect on Bcl-2 S70 phosphorylation is a function of redox-dependent inactivation of Protein Phosphatase 2A (PP2A), which is targeted to Bcl-2 via its B56 subunit; superoxide induces the release of PP2A-AC catalytic core from Bcl-2-bound B56δ, resulting in sustained phosphorylation of Bcl-2 at S70. Dissociation of the PP2A heterotrimer results from the selective nitration (by peroxynitrite derived from the reaction of superoxide with NO) of a conserved tyrosine residue, which we identify as Y289 of B56δ (B56 δY289). Inhibition of B56δY289 nitration blocked the pro-survival effects of superoxide. Furthermore, we provide evidence for clinical relevance of these findings using primary tissue derived from human lymphoma biopsies. Taken together, these data provide evidence for a novel mechanism in which an increase in intracellular superoxide regulates PP2A function via specific B56 subunit tyrosine nitration, and that PP2A-B56 nitration may be a general mechanism for redox-regulated cellular signaling. Citation Format: Ivan C. C. Low, Thomas Loh, David Virshup, Shazib Pervaiz. Superoxide mediated selective tyrosine nitration of protein phosphatase 2A-B56δ stabilizes Bcl-2 phosphorylation and its anti-apoptotic activity. [abstract]. In: Proceedings of the 105th Annual Meeting of the American Association for Cancer Research; 2014 Apr 5-9; San Diego, CA. Philadelphia (PA): AACR; Cancer Res 2014;74(19 Suppl):Abstract nr 5278. doi:10.1158/1538-7445.AM2014-5278

Abstract 1723: The BH4 domain of Bcl-2 is sufficient to induce RNA expression profile changes in human prostate cancer cell lines.

Abstract Bcl-2 is the archetypal gene and first characterized member of the family bearing its name. Prostate cancer was the first solid tumor malignancy in which an elevation of cellular Bcl-2 levels was associated with advanced disease. It is thought that the anti-apoptotic activity of Bcl-2 contributes to the uniformly lethal nature of castration-resistant advanced prostate cancer. Bcl-2 is a validated target for cancer therapies. Current small molecule drug inhibitors mimic the BH3 domain of pro-apoptotic Bcl-2 family members, binding to a pocket composed mainly of Bcl-2 homology (BH) domains 1-3, and only partially BH4. Surprisingly, while these agents are effective inducers of apoptosis, they do not inhibit the oncogenic functions of the BH4 domain. The BH4 domain is essential for the antiapoptotic functions of Bcl-2, and appears to mediate interactions with proteins not part of the Bcl-2 family. This explains the small but significant body of evidence supporting an oncogenic signaling role for Bcl-2 driven by the BH4 domain. The full extent of the non-apoptotic roles of Bcl-2, including the contribution of the BH4 domain, has yet to be clarified. Our work aims to address this in prostate cancer cells, developing and utilizing a system that will implicate both the full length gene product and the BH4 domain. Eukaryotic expression constructs were designed to contain the full length Bcl-2 gene built to co-express with GFP, or a fusion gene composed of the Bcl-2 BH4 domain, GFP, and the Bcl-2 C-terminal transmembrane domain. These plasmids were then transfected into the 22Rv1, LNCaP, and LAPC4 human prostate cancer cell lines to generate stable expression clones. The clones were validated for protein expression by western blot prior to a determination of classical functionality by treatment with apoptosis-inducing agents. RNA was then isolated from the clones for expression array analysis. We successfully generated human prostate cancer cells stably overexpressing Bcl-2 and the Bcl-2 BH4 domain. These clones displayed enhanced resistance to apoptosis induction. Bcl-2 overexpression also induced expression profile changes in these clones. This was mimicked by expression of the BH4 domain alone. We have developed a useful system to help enhance our understanding of Bcl-2 by highlighting changes in RNA expression profiles induced by the gene's overexpression. We also show that the BH4 domain drives much of this function. The mechanisms responsible for these Bcl-2/BH4-induced changes warrant further investigation. Citation Format: Jennifer R. Cohen, PhD, Simon A. Williams, PhD. The BH4 domain of Bcl-2 is sufficient to induce RNA expression profile changes in human prostate cancer cell lines. [abstract]. In: Proceedings of the 104th Annual Meeting of the American Association for Cancer Research; 2013 Apr 6-10; Washington, DC. Philadelphia (PA): AACR; Cancer Res 2013;73(8 Suppl):Abstract nr 1723. doi:10.1158/1538-7445.AM2013-1723

Abstract 1722: The outer nuclear membrane population of Bcl-2 contributes to drug resistance in human prostate cancer cells.

Abstract Bcl-2 is the archetypal gene and first characterized member of the family bearing its name. Prostate cancer was the first solid tumor malignancy in which an elevation of cellular Bcl-2 levels was associated with advanced disease. It is thought that the anti-apoptotic activity of Bcl-2 contributes to the uniformly lethal nature of castration-resistant advanced prostate cancer. Bcl-2 is membrane-bound and located on the cytosolic face of the mitochondrial outer membrane (MOM), endoplasmic reticulum (ER), and outer nuclear membrane (ONM). The interest in functions of Bcl-2 have centered on its maintenance of MOM integrity. Recently, the Bcl-2 population on the ER has been shown to control calcium ion release into the cytosol through its interactions with the inositol 1,4,5-trisphosphate receptor (IP3R). In contrast to the well known and growing functions of MOM and ER Bcl-2 populations respectively, the role of Bcl-2 on the ONM has yet to be defined. While progress in our understanding of MOM and ER Bcl-2 has been made, in part, by the targeted overexpression of the protein to the MOM and ER, no such model systems have been utilized to answer questions of Bcl-2 on the ONM. We believe this has limited our understanding of the ONM Bcl-2 population. With this deficit in our understanding in mind, we sought to generate a Bcl-2 fusion gene construct that would, for the first time, enable the targeted expression of the protein to the ONM. The Bcl-2 cDNA was mutagenized so that the sequence representing its C-terminal transmembrane (TM) domain was replaced by a consensus sequence derived from a family of recently characterized genes known to specifically localize to the ONM. The ONM Bcl-2 mutant, housed in a eukaryotic expression construct, was stably expressed in LNCaP and CWR22Rv1 human prostate cancer cell lines. Clones verified to stably express ONM Bcl-2, in addition to other clones expressing the WT gene, a TM-deleted variant, and previously described MOM- and ER-specific variants, were challenged in vitro by a variety of apoptotic stimuli. We successfully showed the stable targeted expression of Bcl-2 to the ONM, in addition to the MOM and ER in human prostate cancer cell lines. Treatment of these clones with several agents resulted in enhanced resistance to death that was location dependant. We have developed a useful system to help enhance our understanding of Bcl-2. The ONM population appears to contribute to drug resistance in prostate cancer cells. The mechanism responsible for ONM Bcl-2-induced apoptotic resistance may differ from its role on other membranes, and warrants further investigation. Citation Format: Theodore E. Ewachiw, Jennifer R. Cohen, Simon A. Williams. The outer nuclear membrane population of Bcl-2 contributes to drug resistance in human prostate cancer cells. [abstract]. In: Proceedings of the 104th Annual Meeting of the American Association for Cancer Research; 2013 Apr 6-10; Washington, DC. Philadelphia (PA): AACR; Cancer Res 2013;73(8 Suppl):Abstract nr 1722. doi:10.1158/1538-7445.AM2013-1722

The Bcl-2—IP3 Receptor Interaction As a Novel Target for Therapeutics in Myeloma

Abstract 4011The anti-apoptotic Bcl-2 (B-cell lymphoma 2) protein was first identified in follicular lymphoma, where the Bcl-2 gene was dysregulated as a result of chromosomal translocation. The anti-apoptotic activity of Bcl-2 can be attributed to two mechanisms conferred by structurally distinct domains. First, the BH domains 1–3 of Bcl-2 dimerize with pro-apoptotic members of the Bcl-2 family, such as Bax and Bak, and maintain mitochondrial integrity. Small molecules targeting these domains on Bcl-2 (e.g. ABT-737 and ABT-263/Navitoclax®) are under clinical evaluation. A less explored activity of Bcl-2 is that its BH4 domain functionally interacts with the IP3 receptor located on the endoplasmic reticulum (ER) membrane, the major organelle involved in regulating calcium homeostasis. Through this interaction, Bcl-2 inhibits IP3 receptor channel opening and prevents excessive calcium release from ER that can be harmful to cells. Our strategy is to disrupt the Bcl-2—IP3 receptor interaction to induce cell death in lymphoid malignant cells.Previously, our group has shown that an IP3 receptor derived peptide, or IDP, blocks the Bcl-2—IP3 receptor interaction and thereby induces elevation of cytosolic calcium in lymphoma cell lines. A modified version of the peptide—IDP-DD/AA, with an asparaginase cleavage site removed, is more potent in inducing calcium elevation as well as apoptosis in primary chronic lymphocytic leukemia (CLL) cells. Concentrations of the IDP-DD/AA peptide that killed CLL cells did not affect the viability of normal lymphocytes, suggesting a therapeutic window. We further exploited the cytotoxic activities in a panel of leukemia/lymphoma/myeloma cell lines and found that over 60% of myeloma cell lines tested were sensitive to the IDP-DD/AA peptide but not to the control peptide. Furthermore, in the sensitive myeloma cell lines treated with the IDP-DD/AA peptide, high amplitude cytosolic calcium elevation preceded caspase-3 activation and apoptotic morphology, suggesting the involvement of a calcium-mediated intrinsic apoptotic pathway.The in vivo anti-tumor activity of the IDP peptide was assessed in a myeloma xenograft model. Subcutaneous tumors were established in nude mice using the human myeloma cell line, NCI-H929. Randomly grouped mice treated by in-tumor injection of the IDP-DD/AA peptide showed prominent inhibition of tumor growth compared to saline-injected control. One of three mice treated with the IDP-DD/AA peptide showed no visible sign of tumor at the end of treatment. The data proffer promise of therapeutic use of the IDP peptide in myeloma disease.The effect of combinatory treatment of the IDP-DD/AA peptide and current anti-myeloma drugs (Bortezomib/Valcade®, doxorubicin/Adriamycin®, melphalan) were evaluated. Co-treatment of the myeloma cell line NCI-H929 cells with the IDP-DD/AA peptide and each one of the three anti-myeloma drugs induced synergistic cytotoxicity with combinatory indices (CI) less than 1. The data suggest that the IDP-DD/AA peptide augments cell killing activity of current chemotherapy drugs.In conclusion, the IDP-DD/AA peptide represents a novel anti-cancer agent that targets the anti-apoptotic Bcl-2 protein. The peptide exhibits both in vitro and in vivo anti-myeloma activity. Moreover, the IDP-DD/AA peptide can function as a single agent (in myeloma or CLL) as well as in combination with current anti-myeloma chemotherapy drugs. Disclosures:No relevant conflicts of interest to declare.

Up-regulation of small intestinal interleukin-17 immunity in untreated coeliac disease but not in potential coeliac disease or in type 1 diabetes

Up-regulation of interleukin (IL)-17 in small intestinal mucosa has been reported in coeliac disease (CD) and in peripheral blood in type 1 diabetes (T1D). We explored mucosal IL-17 immunity in different stages of CD, including transglutaminase antibody (TGA)-positive children with potential CD, children with untreated and gluten-free diet-treated CD and in children with T1D. Immunohistochemistry was used for identification of IL-17 and forkhead box protein 3 (FoxP3)-positive cells and quantitative polymerase chain reaction (qPCR) for IL-17, FoxP3, retinoic acid-related orphan receptor (ROR)c and interferon (IFN)-γ transcripts. IL-1β, IL-6 and IL-17 were studied in supernatants from biopsy cultures. Expression of the apoptotic markers BAX and bcl-2 was evaluated in IL-17-stimulated CaCo-2 cells. The mucosal expression of IL-17 and FoxP3 transcripts were elevated in individuals with untreated CD when compared with the TGA-negative reference children, children with potential CD or gluten-free diet-treated children with CD (P < 0·005 for all IL-17 comparisons and P < 0·01 for all FoxP3 comparisons). The numbers of IL-17-positive cells were higher in lamina propria in children with CD than in children with T1D (P < 0·05). In biopsy specimens from patients with untreated CD, enhanced spontaneous secretion of IL-1β, IL-6 and IL-17 was seen. Activation of anti-apoptotic bcl-2 in IL-17-treated CaCo-2 epithelial cells suggests that IL-17 might be involved in mucosal protection. Up-regulation of IL-17 could, however, serve as a biomarker for the development of villous atrophy and active CD.

P53 and bcl-2 immunoexpression in patients with oral lichen planus and oral squamous cell carcinoma

Objective: The aim of this study was to determine by immunohistochemistry the presence and significance of p53 and bcl-2 proteins in oral lichen planus (OLP) and oral squamous cell carcinoma (OSCC). Study Design: We used 21 cases diagnosed as OLP 16 diagnosed as OSCC and four normal gingival biopsies taken from healthy patients were used as controls. Slides were processed for immunohistochemistry using anti-p53 and anti-bcl-2 monoclonal antibodies. Results: We found p53 immunoexpression in 71.4% OLP cases and 68.7% OSCC cases, with no immunoexpression in control cases. Bcl-2 was negative for all OLP and OSCC cases, and mild positivity was observed in normal tissue. We found significant correlation among p53 expression and OSCC malignancy. Conclusions: Our results suggest that TP53 system mainly promotes a hyperproliferative state by cell cycle arrest of the OLP epithelial cells for repairing damaged DNA nor apoptosis and that anti-apoptotic action of bcl-2 is not important in this disease. Key words:Oral lichen planus, oral squamous cell carcinoma, p53, Bcl-2, carcinogenesis, malignant transformation.

Mitochondrial proteomic approach reveals galectin-7 as a novel BCL-2 binding protein in human cells

Although the anti-apoptotic activity of Bcl-2 has been extensively studied, its mode of action remains incompletely understood. Deciphering the network of Bcl-2 interacting factors is necessary to better understand the key function of Bcl-2 in apoptosis initiation. To identify novel Bcl-2 mitochondrial partners, we have combined a Bcl-2 immunocapture with a mass spectrometry analysis using highly pure mitochondrial fractions isolated from human cancer cells. We identified at high confidence 127 potential Bcl-2-interacting proteins. Gene ontology mining reveals enrichment for mitochondrial proteins, endoplasmic reticulum-associated proteins, and cytoskeleton-associated proteins. Importantly, we report the identification of galectin-7 (Gal7), a member of a family of β-galactoside-binding lectins that was already known to exhibit a pro-apoptotic function, as a new mitochondrial Bcl-2 interacting partner. Our data further show that endogenous Bcl-2 coimmunoprecipitates with Gal7 and that recombinant Gal7 directly interacts with recombinant Bcl-2. A fraction of Gal7 is constitutively localized at mitochondria in a Bcl-2-dependent manner and sensitizes the mitochondria to the apoptotic signal. In addition, we show that the Bcl-2/Gal7 interaction is abolished following genotoxic stress. Taken together, our findings suggest that the binding of Gal7 to Bcl-2 may constitute a new target for enhancing the intrinsic apoptosis pathway.

Deletion mutational analysis of BMRP, a pro-apoptotic protein that binds to Bcl-2

Bcl-2 is an anti-apoptotic member of the Bcl-2 family of proteins that protects cells from apoptosis induced by a large variety of stimuli. The protein BMRP (MRPL41) was identified as a Bcl-2 binding partner and shown to have pro-apoptotic activity. We have performed deletion mutational analyses to identify the domain(s) of Bcl-2 and BMRP that are involved in the Bcl-2/BMRP interaction, and the region(s) of BMRP that mediate its pro-apoptotic activity. The results of these studies indicate that both the BH4 domain of Bcl-2 and its central region encompassing its BH1, BH2, and BH3 domains are required for its interaction with BMRP. The loop region and the transmembrane domain of Bcl-2 were found to be dispensable for this interaction. The Bcl-2 deletion mutants that do not interact with BMRP were previously shown to be functionally inactive. Deletion analyses of the BMRP protein delimited the region of BMRP needed for its interaction with Bcl-2 to the amino-terminal two-thirds of the protein (amino acid residues 1-92). Further deletions at either end of the BMRP(1-92) truncated protein resulted in lack of binding to Bcl-2. Functional studies performed with BMRP deletion mutants suggest that the cell death-inducing domains of the protein reside mainly within its amino-terminal two-thirds. The region of BMRP required for the interaction with Bcl-2 is very relevant for the cell death-inducing activity of the protein, suggesting that one possible mechanism by which BMRP induces cell death is by binding to and blocking the anti-apoptotic activity of Bcl-2.

The Anti-apoptotic Protein BCL2L1/Bcl-xL Is Neutralized by Pro-apoptotic PMAIP1/Noxa in Neuroblastoma, Thereby Determining Bortezomib Sensitivity Independent of Prosurvival MCL1 Expression

Neuroblastoma is the most frequent extracranial solid tumor in children. Here, we report that the proteasome inhibitor bortezomib (PS-341, Velcade) activated the pro-apoptotic BH3-only proteins PMAIP1/Noxa and BBC3/Puma and induced accumulation of anti-apoptotic MCL1 as well as repression of anti-apoptotic BCL2L1/Bcl-xL. Retroviral expression of Bcl-xL, but not of MCL1, prevented apoptosis by bortezomib. Gene knockdown of Noxa by shRNA technology significantly reduced apoptosis, whereas Puma knockdown did not affect cell death kinetics. Immunoprecipitation revealed that endogenous Noxa associated with both, Bcl-xL and MCL1, suggesting that in neuronal cells Noxa can neutralize Bcl-xL, explaining the pronounced protective effect of Bcl-xL. Tetracycline-regulated Noxa expression did not trigger cell death per se but sensitized to bortezomib treatment in a dose-dependent manner. This implies that the induction of Noxa is necessary but not sufficient for bortezomib-induced apoptosis. We conclude that MCL1 steady-state expression levels do not affect sensitivity to proteasome-inhibitor treatment in neuronal tumor cells, and that both the repression of Bcl-xL and the activation of Noxa are necessary for bortezomib-induced cell death.

Simultaneous Targeting of Bcl-2/Bcl-Xl and MEK/ERK Results in Highly Synergistic Induction of Apoptosis in Human AML, Both in Vitro and In Vivo.

Abstract 2757Poster Board II-733Previous experience from our group suggests that simultaneous inhibition of MEK-to-ERK signaling and interference with the anti-apoptotic activity of Bcl-2/Bcl-xL, using a variety of different agents, may result in synergistic anti-leukemic activity (Milella M, Blood 2002; Ricciardi MR, ASH 2004; Konopleva M, Cancer Cell 2006; Milella M, ASH 2008). Here, we screened AML cell lines (OCI-AML3, HL-60, MOLM-13, and U937) for the growth inhibitory/pro-apoptotic effects of the combination of the BH3 mimetic ABT-737 and the selective MEK inhibitor PD0325901. With the notable exception of U937 cells all the cell lines tested displayed highly synergistic growth inhibition/induction of apoptosis in response to the combination (CIs ranging from 0.01 to 0.43); the 25:1 and 1:2 ABT-737/PD0325901 ratios appeared to have optimal synergistic effects in OCI-AML3 and MOLM-13 cells, respectively. Cell growth inhibition was primarily due to the highly synergistic induction of apoptosis in sensitive cell line models. From a mechanistic standpoint, ABT-737 induced ERK activation and Mcl-1 protein expression, two putative resistance mechanisms, both of which were efficiently abrogated by co-treatment with PD0325901. In addition to the modulation of Mcl-1, both single agent PD0325901 and combined ABT-737/PD0325901 treatment rapidly (1-6 hrs) induced BimEL dephosphorylation and Bak expression, thereby contributing to Mcl-1 inactivation. To further assess the role of pro-apoptotic Bcl-2 family members in the observed proapoptotic synergism betweeen ABT-737 and PD0325901, we analyzed the effects of the combination in Bim-, Bak-, and Bax-KO MEFs, as well as in double (Bak/Bax) KO; while these experiments demonstrated that all three proapoptotic proteins play a role in apoptosis induction by combined ABT-737/PD0325901, siRNA-mediated silencing of either Bim or Bak clearly indicated Bim as the most important player in the AML cell line OCI-AML3. In addition to cell line models of leukemia, striking apoptosis induction (20-75% net apoptosis induction) was also observed with the combination of Bcl-2 and MEK inhibitors in ex vivo-cultured primary AML samples (n=8); most interestingly, the ABT-737/PD0325901 combination appeared to selectively kill leukemic stem cells, with < 20% of CD34+/CD38- cells surviving after exposure to relatively low doses of the combination (50 nM for each agent). Finally, we tested the combination of ABT-737 and the MEK inhibitor CI-1040 in nude mice injected with GFP/luciferase bearing MOLM-13 human leukemia cells. Two weeks after leukemia transplantation, mice were randomized and treated with liposomal ABT-737 (i.v. 20 mg/kg, qod for three weeks), CI1040 (i.p. 50 mg/kg qod for three weeks), ABT-737 in combination with CI1040 (ABT-737 + CI1040), or with empty liposomes (i.v.; control). Engraftment of MOLM-13 cells was shown by immunohistochemical detection of GFP-positive cells in the spleen of control mice five weeks after transplantation. Notably, while control and CI1040 treated mice demonstrated progressive increases in leukemia-derived bioluminescence, ABT-737 treated mice, and to a greater extent ABT-737 + CI1040 treated mice, appeared to resist tumor burden progression. In addition, quantitation of leukemia-derived bioluminescence demonstrated that ABT-737 + CI1040 treated mice had significantly (p<0.00001) lower leukemia burden than control mice or ABT-737 treated mice at all time points (7, 14 and 21 days of treatment). Overall our data demonstrate that an anti-apoptotic crosstalk between the Bcl-2 and the MEK/ERK pathway is operative in AML cells and could be exploited therapeutically by targeting both pathways simultaneously. The combination of BH3 mimetics (such as ABT-737) and MEK inhibitors warrants clinical testing as a novel therapeutic strategy for patients with AML. Disclosures:No relevant conflicts of interest to declare.

PP2A Regulates BCL-2 Phosphorylation and Proteasome-mediated Degradation at the Endoplasmic Reticulum

Anti-apoptotic activity of BCL-2 is mediated by phosphorylation at the endoplasmic reticulum (ER), but how this phosphorylation is regulated and the mechanism(s) by which it regulates apoptosis are unknown. We purified macromolecular complexes containing BCL-2 from ER membranes and found that BCL-2 co-purified with the main two subunits of the serine/threonine phosphatase, PP2A. The association of endogenous PP2A and BCL-2 at the ER was verified by co-immunoprecipitation and microcystin affinity purification. Knock down or pharmacological inhibition of PP2A caused degradation of phosphorylated BCL-2 and led to an overall reduction in BCL-2 levels. We found that this degradation was due to the action of the proteasome acting selectively at the ER. Conversely, overexpression of PP2A caused elevation in endogenous BCL-2. Most importantly, we found that PP2A knock down sensitized cells to several classes of death stimuli (including ER stress), but this effect was abolished in a genetic background featuring knock in of a non-phosphorylatable BCL-2 allele. These studies support the hypothesis that PP2A-mediated dephosphorylation of BCL-2 is required to protect BCL-2 from proteasome-dependent degradation, affecting resistance to ER stress.

Human Bcl-2 cannot directly inhibit the Caenorhabditis elegans Apaf-1 homologue CED-4, but can interact with EGL-1

Although the anti-apoptotic activity of Bcl-2 has been extensively studied, its mode of action is still incompletely understood. In the nematode Caenorhabditis elegans, 131 of 1090 somatic cells undergo programmed cell death during development. Transgenic expression of human Bcl-2 reduced cell death during nematode development, and partially complemented mutation of ced-9, indicating that Bcl-2 can functionally interact with the nematode cell death machinery. Identification of the nematode target(s) of Bcl-2 inhibition would help clarify the mechanism by which Bcl-2 suppresses apoptosis in mammalian cells. Exploiting yeast-based systems and biochemical assays, we analysed the ability of Bcl-2 to interact with and regulate the activity of nematode apoptosis proteins. Unlike CED-9, Bcl-2 could not directly associate with the caspase-activating adaptor protein CED-4, nor could it inhibit CED-4-dependent yeast death. By contrast, Bcl-2 could bind the C. elegans pro-apoptotic BH3-only Bcl-2 family member EGL-1. These data prompt us to hypothesise that Bcl-2 might suppress nematode cell death by preventing EGL-1 from antagonising CED-9, rather than by inhibiting CED-4.

Participation of catecholamines and NO in regulation of apoptosis of nonapeptidergic neurons of neonatal rat pups

Effects of catecholamines (CA) and the character of interaction of CA and NO in regulation of apoptosis were studied in vasopressinergic (VP-ergic) neurons of supraoptic (SON) and paraventricular (PVN) nuclei of rat pups in early postnatal ontogenesis. To study role of CA in regulation of programmed cell death in SON and PVN in the course of embryonal development, pregnant female rats were intraperitoneally injected daily from the 13th to the 20th day with αMPT—a blocker of CA synthesis. The second group of pregnant rats was injected from the 13th to the 20th day with the same volume of saline. The third group was composed of intact animals. The born rat pups were sacrificed at the 3rd and 15th days of life. Caspase 9, Bcl-2, tyrosine hydroxylase, and neuronal NO-synthase (nNOS) in SON and PVN neurons were revealed immunohistochemically, and the amount of immunoreactive substance in neuronal bodies was estimated using the computerized digital analyzer of TV image and Video Test software. Caspase-9 was shown to play an important role in postnatal formation of cellular composition of hypothalamic nonapeptidergic centers by leading to initiation of apoptosis and rejection of “useless” postmitotic SON and PVN neurons. Survival of “useless” nonapeptidergic neurons in early postnatal ontogenesis seems to be connected with antiapoptotic action of Bcl-2. Death of postmitotic neurons, and therefore formation of cellular composition begins earlier and, accordingly, is completed earlier in SON, in which neurons were noted to have a considerable decrease of the caspase-9 expression and, therefore, also a decrease of intensity of neuronal death via caspase-9-dependent pathway. In PVN, neurons continue to die also at the 15th day of rat life, i.e., almost two weeks later than in SON. The observed high correlation between the content of nNOS, caspase-9, and Bcl-2 in the SON and PVN neurons of intact rats of both age groups allows suggesting participation of NO in realization of apoptosis in the course of early postnatal development. The increase of nNOS expression in hypothalamic neurons as a result of disturbances in CA-ergic innervation in embryogenesis might be a possible cause of the long preserved enhancement of expression of apoptosis signal proteins. It can be suggested that CA participate in morphogenesis of hypothalamic neurons by increasing expression of nNOS in neurons and thereby affecting expression of apoptotic proteins.

Inhibition of mitochondrial bioenergetics: the effects on structure of mitochondria in the cell and on apoptosis.

The effects of specific inhibitors of respiratory chain, F(o)F(1)ATP synthase and uncouplers of oxidative phosphorylation on survival of carcinoma HeLa cells and on the structure of mitochondria in the cells were studied. The inhibitors of respiration (piericidin, antimycin, myxothiazol), the F(1)-component of ATP synthase (aurovertin) and uncouplers (DNP, FCCP) did not affect viability of HeLa cells, apoptosis induced by TNF or staurosporin and the anti-apoptotic action of Bcl-2. Apoptosis was induced by combined action of respiratory inhibitors and uncouplers indicating possible pro-apoptotic action of reactive oxygen species (ROS) generated by mitochondria. Short-term incubation of HeLa cells with the mitochondrial inhibitors and 2-deoxyglucose followed by 24-48 h recovery resulted in massive apoptosis. Apoptosis correlated to transient (3-4 h) and limited (60-70%) depletion of ATP. More prolonged or more complete transient ATP depletion induced pronounced necrosis. The inhibitors of respiration and uncouplers caused fragmentation of tubular mitochondria and formation of small round bodies followed by swelling. These transitions were not accompanied with release of cytochrome c into the cytosol and were fully reversible. The combined effect of respiratory inhibitors and uncouplers developed more rapidly indicating possible involvement of ROS generated by mitochondria. More prolonged (48-72 h) incubation with this combination of inhibitors caused clustering and degradation of mitochondria.

Inhibition of mitochondrial bioenergetics: the effects on structure of mitochondria in the cell and on apoptosis.

The effects of specific inhibitors of respiratory chain, F(o)F(1)ATP synthase and uncouplers of oxidative phosphorylation on survival of carcinoma HeLa cells and on the structure of mitochondria in the cells were studied. The inhibitors of respiration (piericidin, antimycin, myxothiazol), the F(1)-component of ATP synthase (aurovertin) and uncouplers (DNP, FCCP) did not affect viability of HeLa cells, apoptosis induced by TNF or staurosporin and the anti-apoptotic action of Bcl-2. Apoptosis was induced by combined action of respiratory inhibitors and uncouplers indicating possible pro-apoptotic action of reactive oxygen species (ROS) generated by mitochondria. Short-term incubation of HeLa cells with the mitochondrial inhibitors and 2-deoxyglucose followed by 24-48 h recovery resulted in massive apoptosis. Apoptosis correlated to transient (3-4 h) and limited (60-70%) depletion of ATP. More prolonged or more complete transient ATP depletion induced pronounced necrosis. The inhibitors of respiration and uncouplers caused fragmentation of tubular mitochondria and formation of small round bodies followed by swelling. These transitions were not accompanied with release of cytochrome c into the cytosol and were fully reversible. The combined effect of respiratory inhibitors and uncouplers developed more rapidly indicating possible involvement of ROS generated by mitochondria. More prolonged (48-72 h) incubation with this combination of inhibitors caused clustering and degradation of mitochondria.

Bcl-2 up-regulates ha-ras mRNA expression and induces c-Jun phosphorylation at Ser73 via an ERK-dependent pathway in PC 12 cells.

Members of the Bcl-2 family of proteins function either to promote or to repress apoptosis. Bcl-2 has been mainly localised to the mitochondria and acts predominantly upstream of cytochrome c release in its prevention of apoptosis. Little is known about the function of Bcl-2 independent of an apoptotic stimulus. Here we demonstrate that inducible overexpression of the anti-apoptotic protein Bcl-2 in a PC12 Tet-on- cell line up-regulates mRNA expression and leads to phosphorylation of c-Jun at Ser73 via the ERK pathway in a time and concentration dependent manner. Phosphorylation of c-Jun was inhibited by the addition of the selective ERK inhibitor PD 98059. No activation of the stress-activated protein kinases JNK and p38 could be detected. This is the first evidence of a direct activation of the Ras-Raf-MAPK cascade by an anti-apoptotic protein. We propose that the selective activation of Ras, the ERK pathway and the subsequent phosphorylation of c-Jun contribute to the anti-apoptotic action of Bcl-2.