Autophagy-related cell death by pan-histone deacetylase inhibition in liver cancer

Fazio, Pietro Di; Waldegger, Petra; Jabari, Samir; Lingelbach, Susanne; Montalbano, Roberta; Ocker, Matthias; Slater, Emily P.; Bartsch, Detlef K.; Illig, Romana; Neureiter, Daniel; Wissniowski, TT

doi:10.18632/oncotarget.8585

Cited by 41 publications

(32 citation statements)

References 54 publications

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“…The number of autophagosome vesicles was quantified based on a previously published method [ 13 , 32 , 33 ]. Statistical analysis was performed, as shown in Table 1 .…”

Section: Resultsmentioning

confidence: 99%

“…Autophagy describes the ability of eukaryote cells to degrade cellular molecules, organelles and proteins using autophagosomes as carriers [ 24 ]. Normally the induction of autophagy related cell stress is linked to the promotion of cell survival but [ 25 ], under certain conditions, elevated autophagy levels lead to cell demise representing an alternative way of cell death [ 13 , 24 , 26 , 27 ].…”

Section: Introductionmentioning

confidence: 99%

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Panobinostat mediated cell death: a novel therapeutic approach for osteosarcoma

et al. 2018

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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.

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“…The number of autophagosome vesicles was quantified based on a previously published method [ 13 , 32 , 33 ]. Statistical analysis was performed, as shown in Table 1 .…”

Section: Resultsmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Panobinostat mediated cell death: a novel therapeutic approach for osteosarcoma

et al. 2018

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“…Similar data in sarcoma cells using the multi-kinase inhibitor pazopanib combined with the novel HDAC inhibitor AR42 also resulted in a clinical trial (NCT02795819). Others have also demonstrated that autophagy is frequently a mechanism by which GI tumor cells can be killed by anti-cancer drugs, using the chemically dissimilar HDAC inhibitor panobinostat [6][7][8].…”

Section: Introductionmentioning

confidence: 99%

Metabolism of Histone Deacetylase Proteins Opsonizes Tumor Cells to Checkpoint Inhibitory Immunotherapies

2019

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LC3-associated phagocytosis, a distinct form of autophagy, plays a key role in antigen presentation. Autophagy itself plays a central role in the regulation of cellular metabolism. Proteins that regulate autophagy include the AMPK which senses high levels of AMP, and mTOR, which integrates amino acid and fatty acid metabolism with autophagy. More recently, autophagy has been demonstrated to regulate tumor cell immunogenicity via the degradation of histone deacetylase proteins. Individual drugs and drug combinations that activate the ATM-AMPK pathway and inactivate mTOR, cause autophagosome formation. The maturation of autophagosomes into autolysosomes causes the autophagic degradation of histone deacetylase proteins who regulate the transcription of PD-L1, Class I MHCA, ODC and IDO1. Indeed, drug combinations that do not contain an HDAC inhibitor can nevertheless act as de facto HDAC inhibitors, via autophagic degradation of HDAC proteins. Such drug combinations simultaneously kill tumor cells via immunogenic autophagy and in parallel opsonize tumor cells to checkpoint inhibitor immunotherapies via reduced expression of PD-L1, ODC and IDO1, and increased expression of Class I MHCA.

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“…It has been shown that its modulation can be a promising target for cancer therapy in liver cancer. [13] The expression of miRNAs repressing autophagy regulators like AMPK could highlight the variations occurring at epigenetic level conferring to cells an altered metabolism that irreversibly modifies the liver cells and tissue. These alterations could be responsible to trigger further pathological cellular features leading to cirrhosis and furthermore liver carcinogenesis.…”

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confidence: 99%

Comment on "A series of microRNA in the chromosome 14q32.2 maternally imprinted region related to progression of non-alcoholic fatty liver disease in a mouse model”

Autophagy-related cell death by pan-histone deacetylase inhibition in liver cancer

Cited by 41 publications

References 54 publications

Panobinostat mediated cell death: a novel therapeutic approach for osteosarcoma

Panobinostat mediated cell death: a novel therapeutic approach for osteosarcoma

Metabolism of Histone Deacetylase Proteins Opsonizes Tumor Cells to Checkpoint Inhibitory Immunotherapies

Comment on "A series of microRNA in the chromosome 14q32.2 maternally imprinted region related to progression of non-alcoholic fatty liver disease in a mouse model”

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