| scholarly article | Q13442814 |
| P50 | author | Guido Kroemer | Q19508945 |
| Nektarios Tavernarakis | Q20986533 | ||
| Francesco Cecconi | Q30111761 | ||
| Maria Chiara Maiuri | Q30112137 | ||
| Marcello D'Amelio | Q44002274 | ||
| Alfredo Criollo | Q63367585 | ||
| Eugenia Morselli | Q88991824 | ||
| Ezgi Tasdemir | Q114515163 | ||
| P2093 | author name string | Mojgan Djavaheri-Mergny | |
| P2860 | cites work | Mitochondrial autophagy is an HIF-1-dependent adaptive metabolic response to hypoxia | Q28586744 |
| P433 | issue | 6 | |
| P921 | main subject | autophagy | Q288322 |
| P304 | page(s) | 810-814 | |
| P577 | publication date | 2008-06-24 | |
| P1433 | published in | Autophagy | Q1255295 |
| P1476 | title | A dual role of p53 in the control of autophagy | |
| P478 | volume | 4 |
| Q47101924 | A Dual Role of P53 in Regulating Colistin-Induced Autophagy in PC-12 Cells |
| Q89423012 | A circular RNA circ-DNMT1 enhances breast cancer progression by activating autophagy |
| Q36216471 | A conserved domain in exon 2 coding for the human and murine ARF tumor suppressor protein is required for autophagy induction. |
| Q47121039 | Autophagy Roles in the Modulation of DNA Repair Pathways. |
| Q26753162 | Autophagy and Apoptotic Crosstalk: Mechanism of Therapeutic Resistance in HER2-Positive Breast Cancer |
| Q50077576 | Autophagy and Ferroptosis - What's the Connection? |
| Q42571763 | Autophagy and apoptosis: what is the connection? |
| Q38128164 | Autophagy and genomic integrity. |
| Q38462513 | Autophagy and its function in radiosensitivity |
| Q35591562 | Autophagy as a therapeutic target in cancer. |
| Q33787645 | Autophagy genes as tumor suppressors |
| Q38334146 | Autophagy in DNA damage response |
| Q38128600 | Autophagy in chronic myeloid leukaemia: stem cell survival and implication in therapy |
| Q36611434 | Autophagy in toxicology: self-consumption in times of stress and plenty |
| Q35276016 | Autophagy in tumor suppression and cancer therapy |
| Q39226379 | Autophagy induced by p53-reactivating molecules protects pancreatic cancer cells from apoptosis. |
| Q36194770 | Autophagy is induced through the ROS-TP53-DRAM1 pathway in response to mitochondrial protein synthesis inhibition |
| Q24654272 | Autophagy mediates pharmacological lifespan extension by spermidine and resveratrol |
| Q27010076 | Autophagy modulation as a potential therapeutic target for diverse diseases |
| Q37086261 | Autophagy opposes p53-mediated tumor barrier to facilitate tumorigenesis in a model of PALB2-associated hereditary breast cancer. |
| Q39167062 | Autophagy-Dependent Beneficial Effects of Exercise |
| Q35146596 | Autophagy: cancer's friend or foe? |
| Q37930982 | Autophagy: for better or for worse |
| Q37412833 | Autophagy: molecular machinery, regulation, and implications for renal pathophysiology |
| Q37043057 | Autophagy: regulation and role in development |
| Q34372325 | Basal autophagy induction without AMP-activated protein kinase under low glucose conditions |
| Q40570538 | Bisphenol a induces autophagy and apoptosis concurrently involving the Akt/mTOR pathway in testes of pubertal SD rats. |
| Q52808195 | CDKN2A-p53 mediated antitumor effect of Lupeol in head and neck cancer. |
| Q37306002 | CX-5461 induces autophagy and inhibits tumor growth via mammalian target of rapamycin-related signaling pathways in osteosarcoma |
| Q38130112 | Cardiovascular autophagy: concepts, controversies, and perspectives |
| Q36091417 | Cerium dioxide nanoparticles induce apoptosis and autophagy in human peripheral blood monocytes |
| Q21134737 | Chemotherapeutic sensitization of leptomycin B resistant lung cancer cells by pretreatment with doxorubicin |
| Q64103282 | Circular RNAs in Cancer: emerging functions in hallmarks, stemness, resistance and roles as potential biomarkers |
| Q49358639 | Clinorotation-induced autophagy via HDM2-p53-mTOR pathway enhances cell migration in vascular endothelial cells |
| Q38819714 | Constitutive autophagy contributes to resistance to TP53-mediated apoptosis in Epstein-Barr virus-positive latency III B-cell lymphoproliferations. |
| Q36100277 | Crosstalk Between Macroautophagy and Chaperone-Mediated Autophagy: Implications for the Treatment of Neurological Diseases. |
| Q58586113 | Crosstalk Between Mammalian Autophagy and the Ubiquitin-Proteasome System |
| Q35017721 | DNA damage and autophagy |
| Q36556345 | Dietary downregulation of mutant p53 levels via glucose restriction: mechanisms and implications for tumor therapy |
| Q36686335 | Dissection and integration of the autophagy signaling network initiated by bluetongue virus infection: crucial candidates ERK1/2, Akt and AMPK. |
| Q35623890 | Docosahexaenoic acid induces autophagy through p53/AMPK/mTOR signaling and promotes apoptosis in human cancer cells harboring wild-type p53 |
| Q33840938 | Downregulation of VRK1 by p53 in response to DNA damage is mediated by the autophagic pathway |
| Q38184935 | ER stress, autophagy and immunogenic cell death in photodynamic therapy-induced anti-cancer immune responses. |
| Q42556101 | Effect of p53 on mitochondrial morphology, import, and assembly in skeletal muscle. |
| Q38122815 | Emerging roles of E3 ubiquitin ligases in autophagy |
| Q35855031 | Endoplasmic reticulum stress, the unfolded protein response, autophagy, and the integrated regulation of breast cancer cell fate. |
| Q34457187 | Epigenetic linkage of aging, cancer and nutrition |
| Q64259606 | Evolution of Resistance in Cancer: A Cell Cycle Perspective |
| Q60908644 | Exploiting locational and topological overlap model to identify modules in protein interaction networks |
| Q64065220 | Gene expression analysis reveals early dysregulation of disease pathways and links Chmp7 to pathogenesis of spinal and bulbar muscular atrophy |
| Q28067399 | Glioblastoma, hypoxia and autophagy: a survival-prone 'ménage-à-trois' |
| Q55515610 | Good Guy or Bad Guy? The Duality of Wild-Type p53 in Hormone-Dependent Breast Cancer Origin, Treatment, and Recurrence. |
| Q38931377 | HIV-1 Tat protein induces glial cell autophagy through enhancement of BAG3 protein levels |
| Q34803115 | Heat shock protein 90-mediated inactivation of nuclear factor-κB switches autophagy to apoptosis through becn1 transcriptional inhibition in selenite-induced NB4 cells |
| Q47136872 | Histone Deacetylase Inhibitor-Induced Autophagy in Tumor Cells: Implications for p53. |
| Q37107268 | Homeostatic functions of the p53 tumor suppressor: regulation of energy metabolism and antioxidant defense |
| Q35082315 | Host response during Yersinia pestis infection of human bronchial epithelial cells involves negative regulation of autophagy and suggests a modulation of survival-related and cellular growth pathways. |
| Q37400744 | How does the heart (not) die? The role of autophagy in cardiomyocyte homeostasis and cell death |
| Q64097152 | Identification of Kinases Responsible for p53-Dependent Autophagy |
| Q51024931 | Identifying progression related disease risk modules based on the human subcellular signaling networks. |
| Q52573322 | Implication of the VRK1 chromatin kinase in the signaling responses to DNA damage: a therapeutic target? |
| Q64107126 | Influence of Normal Aging on Brain Autophagy: A Complex Scenario |
| Q36173829 | Inhibition of autophagy and tumor growth in colon cancer by miR-502. |
| Q39500664 | Inhibition of doxorubicin-induced autophagy in hepatocellular carcinoma Hep3B cells by sorafenib--the role of extracellular signal-regulated kinase counteraction |
| Q64238152 | Interaction between p53 and Ras signaling controls cisplatin resistance via HDAC4- and HIF-1α-mediated regulation of apoptosis and autophagy |
| Q33846456 | JNK pathway mediates curcumin-induced apoptosis and autophagy in osteosarcoma MG63 cells |
| Q33633401 | Linking ER Stress to Autophagy: Potential Implications for Cancer Therapy. |
| Q34982521 | Long noncoding RNAs(lncRNAs) and the molecular hallmarks of aging |
| Q38260329 | Mechanism and Regulation of Autophagy and Its Role in Neuronal Diseases |
| Q28477034 | Mevalonate cascade regulation of airway mesenchymal cell autophagy and apoptosis: a dual role for p53 |
| Q38068799 | MicroRNA: a third dimension in autophagy |
| Q59798974 | Mitophagy, a potential therapeutic target for stroke |
| Q37940741 | Modulating autophagy: a strategy for cancer therapy |
| Q92445781 | Molecular Determinants of Cancer Therapy Resistance to HDAC Inhibitor-Induced Autophagy |
| Q82521439 | Molecular Genetics of Colorectal Cancer |
| Q92246485 | Mutant p53, Stabilized by Its Interplay with HSP90, Activates a Positive Feed-Back Loop Between NRF2 and p62 that Induces Chemo-Resistance to Apigenin in Pancreatic Cancer Cells |
| Q47850913 | Nuclear p53-mediated repression of autophagy involves PINK1 transcriptional down-regulation |
| Q38955553 | Oncogenic nature of a novel mutant AATF and its interactome existing within human cancer cells |
| Q34320998 | Oridonin up-regulates expression of P21 and induces autophagy and apoptosis in human prostate cancer cells |
| Q41911815 | Overaccumulation of p53-mediated autophagy protects against betulinic acid-induced apoptotic cell death in colorectal cancer cells |
| Q26773521 | Oxidative Stress in Placenta: Health and Diseases |
| Q33779853 | Oxidative damage and autophagy in the human trabecular meshwork as related with ageing |
| Q39490275 | P38MAPK is a major determinant of the balance between apoptosis and autophagy triggered by 5-fluorouracil: implication in resistance |
| Q35832384 | PTPRO-mediated autophagy prevents hepatosteatosis and tumorigenesis |
| Q33931980 | Pathologies associated with the p53 response |
| Q39392171 | Phospho-ΔNp63α-dependent regulation of autophagic signaling through transcription and micro-RNA modulation |
| Q39614537 | Phospho-ΔNp63α/Rpn13-dependent regulation of LKB1 degradation modulates autophagy in cancer cells |
| Q33959259 | Physical exercise regulates p53 activity targeting SCO2 and increases mitochondrial COX biogenesis in cardiac muscle with age. |
| Q89975356 | Protein Kinase C Isozymes and Autophagy during Neurodegenerative Disease Progression |
| Q34662354 | ROS inhibit autophagy by downregulating ULK1 mediated by the phosphorylation of p53 in selenite-treated NB4 cells. |
| Q26770579 | Regulation of Mutant p53 Protein Expression |
| Q37900322 | Regulation of autophagy in hematological malignancies: role of reactive oxygen species. |
| Q35161917 | Role and regulation of autophagy in cancer |
| Q38836771 | Role of Autophagy in Capsaicin-Induced Apoptosis in U251 Glioma Cells. |
| Q39644208 | Salidroside protects cortical neurons against glutamate-induced cytotoxicity by inhibiting autophagy |
| Q37716132 | Shining the Light on Senescence Associated LncRNAs |
| Q38108575 | Sirtuins' modulation of autophagy |
| Q21296795 | Sirtuins: molecular traffic lights in the crossroad of oxidative stress, chromatin remodeling, and transcription |
| Q38693407 | Stress management by autophagy: Implications for chemoresistance |
| Q39446764 | Synergistic induction of p53 mediated apoptosis by valproic acid and nutlin-3 in acute myeloid leukemia. |
| Q42241012 | Targeting metabolism and autophagy in the context of haematologic malignancies |
| Q36781235 | Tetraploidization or autophagy: The ultimate fate of senescent human endometrial stem cells under ATM or p53 inhibition |
| Q89571607 | The PI3K/mTOR dual inhibitor NVP-BEZ235 stimulates mutant p53 degradation to exert anti-tumor effects on triple-negative breast cancer cells |
| Q55509868 | The Roles of p53 in Mitochondrial Dynamics and Cancer Metabolism: The Pendulum between Survival and Death in Breast Cancer? |
| Q37566206 | The autophagy effector Beclin 1: a novel BH3-only protein |
| Q39947245 | The fine tuning of metabolism, autophagy and differentiation during in vitro myogenesis. |
| Q38196807 | The impact of autophagy on cell death modalities. |
| Q37993106 | The incredible ULKs |
| Q34786538 | The induction of the p53 tumor suppressor protein bridges the apoptotic and autophagic signaling pathways to regulate cell death in prostate cancer cells |
| Q37688425 | The putative oncotarget CSN5 controls a transcription-uncorrelated p53-mediated autophagy implicated in cancer cell survival under curcumin treatment |
| Q36698649 | The regulation of autophagy during exercise in skeletal muscle |
| Q38168965 | The role of cell signalling in the crosstalk between autophagy and apoptosis |
| Q84624136 | The role of p53 and autophagy in Dasatinib resistance of CLL lymphocytes |
| Q38916622 | Three-dimensional microenvironment confers enhanced sensitivity to doxorubicin by reducing p53-dependent induction of autophagy. |
| Q38344277 | Transcription factors and cognate signalling cascades in the regulation of autophagy |
| Q36470524 | Transcriptional Regulation by Nuclear Corepressors and PGC-1α: Implications for Mitochondrial Quality Control and Insulin Sensitivity |
| Q38751235 | Tumor Protein (TP)-p53 Members as Regulators of Autophagy in Tumor Cells upon Marine Drug Exposure |
| Q37390879 | Tumor suppressors and cell metabolism: a recipe for cancer growth |
| Q42558922 | XIAP: inhibitor of two worlds |
| Q41385799 | Zinc oxide nanoparticles induce apoptosis and autophagy in human ovarian cancer cells |
| Q64897707 | cAMP-mediated autophagy inhibits DNA damage-induced death of leukemia cells independent of p53. |
| Q37203736 | p53 Mediates Colistin-Induced Autophagy and Apoptosis in PC-12 Cells |
| Q33936026 | p53 and ARF: unexpected players in autophagy |
| Q38086020 | p53 and Ceramide as Collaborators in the Stress Response |
| Q34029735 | p53 at a glance |
| Q35597328 | p53 expression by immunohistochemistry is an important determinant of survival in patients with chronic lymphocytic leukemia receiving frontline chemo-immunotherapy |
| Q38987401 | p53 on the crossroad between regeneration and cancer |
| Q34300569 | p53 post-translational modification: deregulated in tumorigenesis |
| Q35151326 | p53, Aerobic Metabolism, and Cancer |
| Q37706485 | Δ40p53 is involved in the inactivation of autophagy and contributes to inhibition of cell death in HCT116-Δ40p53 cells |
| Q91994840 | α-Synucleinopathy associated c-Abl activation causes p53-dependent autophagy impairment |
| Q94076899 | 核外P53介导的自噬抑制在热打击诱导内皮细胞损伤中的作用 |
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