UNIPROT:P10415 - FACTA Search

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Query: UNIPROT:P10415 (Bcl-2)
33,771 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Thioredoxin reductase (TrxR) in conjunction with thioredoxin (Trx) is a ubiquitous intracellular oxidoreductase system with antioxidant and redox regulatory roles. In some human tumors, the thioredoxin system is found overexpressed. We have used an antisense approach to investigate whether inhibition of TrxR overexpression can suppress the growth of human hepatocellular carcinoma SMMC-7721 cells. TrxR cDNA fragment was inserted in the antisense direction into pcDNA3.1/myc-His and SMMC-7721 cells were stably transfected with the plasmid construct. The results showed that TrxR antisense RNA could significantly reduce TrxR mRNA level and activity, and suppress the growth of SMMC-7721 cells. Cell-cycle analysis showed G2/M phase arrest in SMMC-7721 cells transfected with TrxR antisense plasmid. TrxR antisense RNA could significantly increase p53 mRNA level and decrease Bcl-2 mRNA level by reverse transcriptase-polymerase chain reaction (RT-PCR). Furthermore a significant decrease in human telomerase reverse transcriptase (hTERT) mRNA level was found in SMMC-7721 cells transfected with TrxR antisense plasmid. Flow cytometry and telomere fluorescence in situ hybridization (Flow FISH) showed that TrxR antisense RNA could significantly reduce the telomere fluorescence in SMMC-7721 cells. The results suggested that TrxR antisene RNA inhibited the growth of SMMC-7721 cells through an accumulation of cell cycle at G2/M phase, an increase in p53 mRNA level and a reduction in telomere fluorescence and Bcl-2, hTERT mRNA levels.
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PMID:Inhibitory effects of thioredoxin reductase antisense RNA on the growth of human hepatocellular carcinoma cells. 1608 46

The pathway of interferon-gamma (IFN-gamma)-induced suppression in tumor necrosis factor-related apoptosis inducing ligand (TRAIL)-mediated apoptosis of fibroblast-like synovial cells (FLS) was investigated. rTRAIL triggered FLS apoptosis in a type II cell death manner, whereas IFN-gamma pretreatment significantly inhibited TRAIL-mediated apoptosis. As disruption of mitochondrial transmembrane potential (DeltaPsim), Leu-Glu-His-Asp ase (IETD ase) activity, and the appearance of hypodiploid DNA + cells were markedly suppressed in IFN-gamma-treated FLS in response to TRAIL, IFN-gamma-induced suppression was supposed to achieve at upstream of caspase-8. IFN-gamma rapidly phosphorylated signal transducers and activators of transcription 1 (STAT1), STAT3, and STAT6 as well as ERK, whereas enhanced neither phosphorylation of Akt nor nuclear translocation of nuclear factor kappaB (NF-kappaB) p65. Janus kinase (JAK)-induced phosphorylation of STAT1/3/6, which acts at translational regulation, seemed to be crucial because chemical inhibition of JAK as well as cycloheximide (CHX) abolished both the phosphorylation of STAT1/3/6 and the IFN-gamma-induced inhibitory effect. Although ERK was phosphorylated through IFN-gamma, chemical inhibition of ERK by PD98059 did not abolish the IFN-gamma-induced inhibitory effect. The authors tried to determine the responsible molecules; however, expression of TRAIL receptors; pro-caspase-3/-8/-9; Fas-associated death domain protein (FADD); tumor necrosis factor receptor 1-associated death domain protein (TRADD); silencer of death domain (SODD); FLICE inhibitory protein (FLIP); and Bcl-2, Bcl-xL, and Bax in FLS was not modulated by IFN-gamma. Although the authors have not yet clarified the precise mechanism, these data suggest that IFN-gamma/JAK/STAT pathway, which is supposed to be activated in inflammatory rheumatoid arthritis (RA) synovial tissues, contributes to form apoptosis resistance phenotype of the cells in situ, leading to a marked increase in cellularity of synovial cells.
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PMID:Significant inhibition of TRAIL-mediated fibroblast-like synovial cell apoptosis by IFN-gamma through JAK/STAT pathway by translational regulation. 1658 46

Hint1 is a member of the evolutionarily conserved family of histidine triad proteins that acts as a haplo-insufficient tumor suppressor inducing spontaneous tumor formation in Hint+/- and Hint-/- mouse models. However, the molecular mechanisms for the tumor-suppressing activity are poorly defined. In this respect, we have recently shown that Hint1, by interaction with Pontin and Reptin, inhibits T-cell factor/beta-catenin-mediated transcription of Wnt target genes. In this study, we have found that, after transient transfection with Hint1, SW480 and MCF-7 cells undergo apoptosis as analyzed by pro-caspase-3 and poly(ADP-ribose) polymerase cleavage, M30 CytoDEATH staining, cytochrome c release, and DNA fragmentation enzyme-linked immunosorbent assay. Hint1 is involved in the regulation of apoptotic pathways by inducing an up-regulation of p53 expression coinciding with an up-regulation of the proapoptotic factor Bax and a concomitant down-regulation of the apoptosis inhibitor Bcl-2. Bad and Puma levels remained unchanged. Further analyses revealed that Hint1 is associated with the Bax promoter and is a component of the Tip60 histone acetyltransferase complex and, in this context, appears to be involved in the regulation of Bax expression. Knockdown of Hint1 by short hairpin RNA resulted in down-regulation of p53 and Bax but had no effect on Bcl-2 expression. A mutant Hint1 (H112N) protein defective in enzymatic activity as an AMP-NH2 hydrolase was not impaired in induction of apoptosis, suggesting that the Hint1 pro-apoptotic activity is independent of the Hint1 enzymatic activity.
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PMID:The histidine triad protein Hint1 triggers apoptosis independent of its enzymatic activity. 1683 43

Bnip3 is a prodeath member of the so-called BH3-only subfamily of Bcl-2 proteins. A major function of this class of proteins is to regulate the permeability state of the outer mitochondrial membrane by forming homoand hetero-oligomers inside the membrane. We reported previously that Bnip3 accumulates in cardiac myocytes during exposure to hypoxia, but coincident acidosis is required to activate the death program. Acidosis increased the rate of intracellular accumulation of Bnip3 and promoted a tighter association with mitochondria. Here we report that acidic pH mediates increased half-lives of Bnip3 dimers and monomers (>3-) as well as that of a faster-migrating fragment (>10-) and confers protection against degradation by protease. Hydrophobic partitioning experiments revealed that Bnip3 monomers and oligomers from hypoxia-acidic cell fractions associated significantly with the detergent layer, whereas protein from hypoxia-neutral myocytes did not. Acidosis promoted homodimerization of Bcl-xL but did not increase its association with detergent. Neutralization of the extracellular medium of cardiac myocyte cultures under hypoxia-acidosis resulted in rapid degradation of accumulated Bnip3 (half life, <2 h), coincident with cessation of the death program. Bnip3 monomers appear to be the active species because substitution of alanine for histidine at position 173 within the transmembrane (TM) domain prevented homodimerization but did not inhibit the death function. These results demonstrate a pH-sensitive shift in the stability and apparent hydrophobicity of Bnip3 monomers that correlates closely with membrane binding and function.
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PMID:Acidosis regulates the stability, hydrophobicity, and activity of the BH3-only protein Bnip3. 1698 17

BNip3 is a prominent representative of apoptotic Bcl-2 proteins with rather unique properties initiating an atypical programmed cell death pathway resembling both necrosis and apoptosis. Many Bcl-2 family proteins modulate the permeability state of the outer mitochondrial membrane by forming homo- and hetero-oligomers. The structure and dynamics of the homodimeric transmembrane domain of BNip3 were investigated with the aid of solution NMR in lipid bicelles and molecular dynamics energy relaxation in an explicit lipid bilayer. The right-handed parallel helix-helix structure of the domain with a hydrogen bond-rich His-Ser node in the middle of the membrane, accessibility of the node for water, and continuous hydrophilic track across the membrane suggest that the domain can provide an ion-conducting pathway through the membrane. Incorporation of the BNip3 transmembrane domain into an artificial lipid bilayer resulted in pH-dependent conductivity increase. A possible biological implication of the findings in relation to triggering necrosis-like cell death by BNip3 is discussed.
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PMID:Unique dimeric structure of BNip3 transmembrane domain suggests membrane permeabilization as a cell death trigger. 1741 96

BNIP3 is a mitochondrial 19-kDa proapoptotic protein, a member of the Bcl-2 family. It has a single COOH-terminal transmembrane (TM) alpha-helical domain, which is required for membrane targeting, proapoptotic activity, hetero- and homo-dimerization in membrane. The role and the molecular details of association of TM helices of BNIP3 are yet to be established. Here, we present a molecular modeling study of helix interactions in its membrane domain. The approach combines Monte Carlo conformational search in an implicit hydrophobic slab followed by molecular dynamics simulations in a hydrated full-atom lipid bilayer. The former technique was used for exhaustive sampling of the peptides' conformational space and for generation of putative "native-like" structures of the dimer. The latter ones were taken as realistic starting points to assess stability and dynamic behavior of the complex in explicit lipid-water surrounding. As a result, several groups of tightly packed right-handed structures of the dimer were proposed. They have almost similar helix-helix interface, which includes the motif A(176)xxxG(180)xxxG(184) and agrees well with previous mutagenesis data and preliminary NMR analysis. Molecular dynamics simulations of these structures reveal perfect adaptation of most of them to heterogeneous membrane environment. A remarkable feature of the predicted dimeric structures is the occurrence of a cluster of H-bonded histidine 173 and serines 168 and 172 on the helix interface, near the N-terminus. Because of specific polar interactions between the monomers, this part of the dimer has no such dense packing as the C-terminal one, thus allowing penetration of water from the extramembrane side into the membrane interior. We propose that the ionization state of His(173) can mediate structural and dynamic properties of the dimer. This, in turn, may be related to pH-dependent proapoptotic activity of BNIP3, which is triggering on by acidosis appearing under hypoxic conditions.
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PMID:Specificity of helix packing in transmembrane dimer of the cell death factor BNIP3: a molecular modeling study. 1760 Aug 28

BH4 domain is critical for the anti-apoptotic functions of Bcl-2 and Bcl-x(L) and their binding abilities with other members of the Bcl-2 family. The cleavage of the BH4 domain in Bcl-x(L) and Bcl-2 by caspase 1 or 3 converts the anti-apoptotic Bcl-x(L) and Bcl-2 into pro-apoptotic proteins that potently induce apoptosis. Herein, we report that recombinant Bcl-x(L) proteins without N-terminal 61 residues, His(6)-NDelta61-Bcl-x(L)-CDelta21 and NDelta61-Bcl-x(L)-CDelta21, form oligomers in solution, whereas Bcl-x(L)-CDelta21 exists as a monomer. The oligomerization of the truncated proteins is independent of protein-lipid interaction, protein concentration or the ion strength of the solution. Circular dichroism spectrum shows a significant decrease in the content of alpha-helices upon deletion of N-terminal residues. NDelta61-Bcl-x(L)-CDelta21 also loses its heterodimerization capability with the BH3 peptide derived from Bak. This newly acquired property might be linked to its ability to induce apoptosis in cells.
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PMID:Oligomerization of BH4-truncated Bcl-x(L) in solution. 1769 89

The release of cytochrome c from mitochondria and apoptosis relies on several preferential and selective interactions involving the Bcl-2 family of proteins. There is, however, no direct evidence for the interaction of cytochrome c with these proteins at any stage of apoptosis. To investigate if any pro-survival protein from the Bcl-2 family could intercept cytochrome c after its translocation from mitochondria, the interaction of cytochrome c with bacterially expressed human Bcl-x(L) was studied at pH 7. In size-exclusion chromatography, purified full-length His(6)-tagged Bcl-x(L) migrated as both dimer and monomer, of which the monomeric fractions were used for experiments. Coimmunoprecipitation studies show that cytochrome c interacts with Bcl-x(L). The extent of caspase activity in cell lysate elicited by externally added cytochrome c is reduced when a preincubated mixture of Bcl-x(L) and cytochrome c is used instead. Equilibrium binding monitored by optical absorption of cytochrome c as a function of titrating concentrations of Bcl-x(L) yields the association constant, K(ass) = 8.4(+/- 4) x 10(6) M(-1) (binding affinity, K(diss) = 1/K(ass) approximately 120 nM) which decreases at high ionic strength. The rates for binding of Bcl-x(L) to cytochrome c, studied by stopped-flow kinetics at pH 7, show that the bimolecular rate constant for binding, k(bi) = 0.24 x 10(6) M(-1) s(-1). Values of the thermodynamic and kinetic parameters for Bcl-x(L)-cytochrome c interaction are very similar to those known for regulatory protein-protein interactions in apoptosis.
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PMID:High affinity binding of Bcl-xL to cytochrome c: possible relevance for interception of translocated cytochrome c in apoptosis. 1790 76

Metastasis of cancer cells from the primary tumor is associated with poor prognosis and decreased overall survival. One protein implicated in inhibiting metastasis is the tumor metastasis suppressor nonmetastatic protein 23 homologue 1 (NM23-H1). NM23-H1 is a multifunctional protein, which, in addition to limiting metastasis, has DNase and histidine protein kinase activities. We have identified new functions for NM23-H1 in influencing estrogen receptor alpha (ER alpha)-mediated gene expression. Using a battery of molecular and biochemical techniques, we show that NM23-H1 interacts with ER alpha and increases the ER alpha-estrogen response element (ERE) interaction. When NM23-H1 expression is increased in U2 osteosarcoma and MDA-MB-231 breast cancer cells, transcription of a transiently transfected, estrogen-responsive reporter plasmid is decreased. More importantly, when endogenous NM23-H1 expression is knocked down in MCF-7 human breast cancer cells using small interfering RNA, estrogen responsiveness of the progesterone receptor (PR), Bcl-2, cathepsin D, and cyclin D1 genes, but not the pS2 gene, is enhanced. Furthermore, NM23-H1 associates with the region of the PR gene containing the +90 activator protein 1 site, but not with the ERE-containing region of the pS2 gene, indicating that NM23-H1 mediates gene-specific effects by association with endogenous chromatin. Our studies suggest that the capacity of NM23-H1 to limit the expression of estrogen-responsive genes such as cathepsin D and Bcl-2, which are involved in cell migration, apoptosis, and angiogenesis, may help to explain the metastasis-suppressive effects of this protein. The complementary abilities of ER alpha and NM23-H1 together to influence gene expression, cell migration, and apoptosis could be key factors in helping to determine tumor cell fate.
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PMID:Interaction of the tumor metastasis suppressor nonmetastatic protein 23 homologue H1 and estrogen receptor alpha alters estrogen-responsive gene expression. 1797 5

Bcl-2/adenovirus E1B 19-kDa protein-interacting protein 3 (Bnip3) is a member of the Bcl-2 homology domain 3-only subfamily of proapoptotic Bcl-2 proteins and is associated with cell death in the myocardium. In this study, we investigated the potential mechanism(s) by which Bnip3 activity is regulated. We found that Bnip3 forms a DTT-sensitive homodimer that increased after myocardial ischemia-reperfusion (I/R). The presence of the antioxidant N-acetylcysteine reduced I/R-induced homodimerization of Bnip3. Overexpression of Bnip3 in cells revealed that most of exogenous Bnip3 exists as a DTT-sensitive homodimer that correlated with increased cell death. In contrast, endogenous Bnip3 existed mainly as a monomer under normal conditions in the heart. Screening of the Bnip3 protein sequence revealed a single conserved cysteine residue at position 64. Mutation of this cysteine to alanine (Bnip3C64A) or deletion of the NH2-terminus (amino acids 1-64) resulted in reduced cell death activity of Bnip3. Moreover, mutation of a histidine residue in the COOH-terminal transmembrane domain to alanine (Bnip3H173A) almost completely inhibited the cell death activity of Bnip3. Bnip3C64A had a reduced ability to interact with Bnip3, whereas Bnip3H173A was completely unable to interact with Bnip3, suggesting that homodimerization is important for Bnip3 function. A consequence of I/R is the production of reactive oxygen species and oxidation of proteins, which promotes the formation of disulfide bonds between proteins. Thus, these experiments suggest that Bnip3 functions as a redox sensor where increased oxidative stress induces homodimerization and activation of Bnip3 via cooperation of the NH2-terminal cysteine residue and the COOH-terminal transmembrane domain.
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PMID:Bnip3 functions as a mitochondrial sensor of oxidative stress during myocardial ischemia and reperfusion. 1879 Aug 35

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