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Query: UNIPROT:P10415 (
Bcl-2
)
33,771
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Beclin-1 (the mammalian ortholog of yeast ATG6) has been well-characterized to play a pivotal role in autophagy that is a major catabolic pathway in which the cell degrades macromolecules and damaged organelles. Beclin-1 structure has been identified to contain three identifiable domains, including a short
Bcl-2
-homology-3 (BH3) motif, a central coiled-coil domain (CCD) and a C-terminal half encompassing the evolutionarily conserved domain (ECD). Recent data indicate that Beclin-1 may interact with some co-factors such as Class III phosphatidylinositol 3-kinase (PI3KCIII)/Vps34, Vps15, ATG14L/Barkor,
UVRAG
, Bif-1, Rubicon, Ambra1, HMGB1, Survivin, Akt and
Bcl-2
/Bcl-XL to positively or negatively orchestrate the Beclin-1 interactome, thereby co-regulating the autophagy process. Here, we summarize that Beclin-1 serves not only as a key autophagic regulator with its specific interactors, but as a potential therapeutic target in cancer.
...
PMID:Beclin-1: autophagic regulator and therapeutic target in cancer. 2342 5
The Ser/Thr Rho kinase 1 (ROCK1) is known to have major roles in a wide range of cellular activities, including those involved in tumour metastasis and apoptosis. Here we identify an indispensable function of ROCK1 in metabolic stress-induced autophagy. Applying a proteomics approach, we characterize Beclin1, a proximal component of the phosphoinositide 3-kinase class III lipid-kinase complex that induces autophagy, as an interacting partner of ROCK1. Upon nutrient deprivation, activated ROCK1 promotes autophagy by binding and phosphorylating Beclin1 at Thr119. This results in the specific dissociation of the Beclin1-
Bcl-2
complex without affecting the Beclin1-
UVRAG
interaction. Conversely, inhibition of ROCK1 activity increases Beclin1-
Bcl-2
association, thus reducing nutritional stress-mediated autophagy. Genetic knockout of ROCK1 function in mice also leads to impaired autophagy as evidenced by reduced autophagosome formation. These results show that ROCK1 acts as a prominent upstream regulator of Beclin1-mediated autophagy and maintains a homeostatic balance between apoptosis and autophagy.
...
PMID:Identification of ROCK1 kinase as a critical regulator of Beclin1-mediated autophagy during metabolic stress. 2387 63
Autophagy is an evolutionarily conserved lysosomal mechanism implicated in a wide variety of pathological processes, such as cancer. Autophagy can be regulated by a limited number of autophagy-related genes (Atgs) such as oncogenic
Bcl-2
/Bcl-XL , mTORC1, Akt and PI3KCI, and tumour suppressive proteins PI3KCIII, Beclin-1, Bif-1, p53, DAPKs, PTEN and
UVRAG
, which play their crucial roles in regulating autophagy-related cancer. As autophagy has a dual role in cancer cells, with tumour-promoting and tumour-suppressing properties, it has become an attractive target for a series of emerging small molecule drugs. In this review, we reveal new discoveries of related small molecules or chemical compounds that can regulate autophagic pathways and lead to pro-death or pro-survival autophagy, in different types of cancer. We discuss the knots between autophagic targets and candidate drugs, in the hope of shedding new light on exploiting new anti-tumour small molecule drugs for future cancer therapy.
...
PMID:Untangling knots between autophagic targets and candidate drugs, in cancer therapy. 2565 Jan 36
Anti-apoptotic
Bcl-2
and Bcl-xL are proposed to regulate starvation-induced autophagy by directly interacting with Beclin 1. Beclin 1 is also thought to be involved in multiple vesicle trafficking pathways such as endocytosis by binding to Atg14L and
UVRAG
. However, how the interaction of
Bcl-2
family proteins and Beclin 1 regulates anti-bacterial autophagy (xenophagy) is still unclear. In this study, we analyzed these interactions using Group A Streptococcus (GAS; Streptococcus pyogenes) infection as a model. GAS is internalized into epithelial cells through endocytosis, while the intracellular fate of GAS is degradation by autophagy. Here, we found that Bcl-xL but not
Bcl-2
regulates GAS-induced autophagy. Autophagosome-lysosome fusion and the internalization process during GAS infection were promoted in Bcl-xL knockout cells. In addition, knockout of Beclin 1 phenocopied the internalization defect of GAS. Furthermore,
UVRAG
interacts not only with Beclin 1 but also with Bcl-xL, and overexpression of
UVRAG
partially rescued the internalization defect of Beclin 1 knockout cells during GAS infection. Thus, our results indicate that Bcl-xL inhibits GAS-induced autophagy directly by suppressing autophagosome-lysosome fusion and indirectly by suppressing GAS internalization via interaction with Beclin 1-
UVRAG
.
...
PMID:Bcl-xL Affects Group A Streptococcus-Induced Autophagy Directly, by Inhibiting Fusion between Autophagosomes and Lysosomes, and Indirectly, by Inhibiting Bacterial Internalization via Interaction with Beclin 1-UVRAG. 2808 26
The essential autophagy protein and haplo-insufficient tumor suppressor, Beclin 1, interacts with several cofactors (Ambra1, Bif-1,
UVRAG
) to activate the lipid kinase Vps34, thereby inducing autophagy. In normal conditions, Beclin 1 is bound to and inhibited by
Bcl-2
or the
Bcl-2
homolog Bcl-X
L
. This interaction involves a
Bcl-2
homology 3 (BH3) domain in Beclin 1 and the BH3 binding groove of
Bcl-2
/Bcl-X
L
. Other proteins containing BH3 domains, called BH3-only proteins, can competitively disrupt the interaction between Beclin 1 and
Bcl-2
/Bcl-X
L
to induce autophagy. Nutrient starvation, which is a potent physiologic inducer of autophagy, can stimulate the dissociation of Beclin 1 from its inhibitors, either by activating BH3-only proteins (such as Bad) or by posttranslational modifications of
Bcl-2
(such as phosphorylation) that may reduce its affinity for Beclin 1 and BH3-only proteins. Thus, anti-apoptotic
Bcl-2
family members and pro-apoptotic BH3-only proteins may participate in the inhibition and induction of autophagy, respectively. This hitherto neglected crosstalk between the core machineries regulating autophagy and apoptosis may redefine the role of
Bcl-2
family proteins in oncogenesis and tumor progression.
...
PMID:Bcl-2 family members: Dual regulators of apoptosis and autophagy. 2818 56
The relationships between autophagy-associated gene expression and clinical characteristics and prognosis in acute myeloid leukemia (AML) have not been well revealed. We examined mRNA expression of
Bcl-2
, p62, Beclin 1, VPS34, Rubicon, ALFY,
UVRAG
, ULK1, LC3 and NBR1 in 20 AML cases and 10 benign hematological cases by real-time PCR. Clinical information, treatment responses and outcomes of the AML patients were collected. Beclin 1, LC3,
UVRAG
, Rubicon and NBR1 were downregulated in AML patients compared with control group (P<0.05). Low ULK1 expression was associated with high white blood cell counts (P<0.05). Autophagy-associated gene expression was not correlated with chemotherapy response. Finally, we analyzed overall survival and found no obvious association with gene expression. However, in unfavorable outcome patients, low Beclin 1 and p62 expression showed worse overall survival than high-expression. Autophagy genes are associated with outcome in AML patients and may be biomarkers or targets in the future.
...
PMID:Expression of autophagy genes in acute myeloid leukemia: associations with clinical characteristics and prognosis. 2994 Jul 53
Osteosarcoma is an aggressive cancer with a poor long term prognosis. Neo-adjuvant poly-chemotherapy followed by surgical resection remains the standard treatment, which is restricted by multi-drug resistance. If first-line therapy fails, disease control and patient survival rate drop dramatically. We aimed to identify alternative apoptotic mechanisms induced by the histone deacetylase inhibitor panobinostat in osteosarcoma cells. Saos-2, MG63 and U2-OS osteosarcoma cell lines, the immortalized human osteoblast line hFOB and the mouse embryo osteoblasts (MC3T3-E1) were treated with panobinostat. Real time viability and FACS confirmed the cytotoxicity of panobinostat. Cell stress/death related factors were analysed by RT-qPCR and western blot. Cell morphology was assessed by electron microscopy. 10 nM panobinostat caused cell viability arrest and death in all osteosarcoma and osteoblast cells. P21 up-regulation was observed in osteosarcoma cells, while over-expression of p73 was restricted to Saos-2 (TP53
-/-
). Survivin and
Bcl-2
were suppressed by panobinostat. Endoplasmic reticulum (ER) stress markers BiP, CHOP, ATF4 and ATF6 were induced in osteosarcoma cells. The un-spliced Xbp was no further detectable after treatment. Autophagy players Beclin1, Map1LC3B and
UVRAG
transcripts over-expressed after 6 hours. Protein levels of Beclin1, Map1LC3B and p62 were up-regulated at 72 hours. DRAM1 was stable. Electron micrographs revealed the fragmentation and the disappearance of the ER and the statistically significant increase of autophagosome vesiculation after treatment. Panobinostat showed a synergistic suppression of survival and promotion of cell death in osteosarcoma cells. Panobinostat offers new perspectives for the treatment of osteosarcoma and other malignant bone tumours.
...
PMID:Panobinostat mediated cell death: a novel therapeutic approach for osteosarcoma. 3025 Jun 45
Macroautophagy/autophagy is an auto-digestive pro-survival pathway activated in response to stress to target cargo for lysosomal degradation. In recent years, autophagy has become prominent as an innate antiviral defense mechanism through multiple processes, such as targeting virions and viral components for elimination. These exciting findings have encouraged studies on the ability of autophagy to restrict HIV. However, the role of autophagy in HIV infection remains unclear. Whereas some reports indicate that autophagy is detrimental for HIV, others have claimed that HIV deliberately activates this pathway to increase its infectivity. Moreover, these contrasting findings seem to depend on the cell type investigated. Here, we show that autophagy poses a hurdle for HIV replication, significantly reducing virion production. However, HIV-1 uses its accessory protein Nef to counteract this restriction. Previous studies have indicated that Nef affects autophagy maturation by preventing the fusion between autophagosomes and lysosomes. Here, we uncover that Nef additionally blocks autophagy initiation by enhancing the association between BECN1 and its inhibitor BCL2, and this activity depends on the cellular E3 ligase PRKN. Remarkably, the ability of Nef to counteract the autophagy block is more frequently observed in pandemic HIV-1 and its simian precursor SIV
cpz
infecting chimpanzees than in HIV-2 and its precursor SIV
smm
infecting sooty mangabeys. In summary, our findings demonstrate that HIV-1 is susceptible to autophagy restriction and define Nef as the primary autophagy antagonist of this antiviral process.
Abbreviations:
3-MA: 3-methyladenine; ACTB: actin, beta; ATG16L1: autophagy related 16 like 1; BCL2:
bcl2
apoptosis regulator; BECN1: beclin 1; cDNA: complementary DNA; EGFP: enhanced green fluorescence protein; ER: endoplasmic reticulum; Gag/p55: group-specific antigen; GFP: green fluorescence protein; GST: glutathione S transferase; HA: hemagglutinin; HIV: human immunodeficiency virus; IP: immunoprecipitation; MAP1LC3B/LC3B: microtubule associated protein 1 light chain 3 beta; Nef: negative factor; PRKN: parkin RBR E3 ubiquitin ligase; PtdIns3K: phosphatidylinositol 3 kinase; PtdIns3P: phosphatidylinositol 3 phosphate; PTM: post-translational modification; RT-qPCR: reverse transcription followed by quantitative PCR; RUBCN: rubicon autophagy regulator; SEM: standard error of the mean; SERINC3: serine incorporator 3; SERINC5: serine incorporator 5; SIV: simian immunodeficiency virus; SQSTM1/p62: sequestosome 1; TFEB: transcription factor EB;
UVRAG
: UV radiation resistance associated gene; VSV: vesicular stomatitis virus; ZFYVE1/DFCP1: zinc finger FYVE-type containing 1.
...
PMID:HIV-1 Nef counteracts autophagy restriction by enhancing the association between BECN1 and its inhibitor BCL2 in a PRKN-dependent manner. 3209 85
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