Retinal pigment epithelial cells undergoing mitotic catastrophe are vulnerable to autophagy inhibition

Lee, Soo-Youn; Oh, Joon Seok; Jh, Rho; Ny, Jeong; Yh, Kwon; Jeong, Wonjoon; Ryu, Won Yeol; Ahn, Hee Bae; Park, WC; Sh, Rho; Yoon, Young Geol; Jeong, Sang‐Ho; Choi, Yoon-Hee; Hy, Kim; Yh, Yoo

doi:10.1038/cddis.2014.266

Cited by 36 publications

(28 citation statements)

References 39 publications

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“…In addition, cellular stressors in the eye, such as A2E accumulation, reactive oxygen species production and mitochondrial dysfunction can increase autophagy (20,21). Autophagic activity has also been observed to follow a cyclic pattern similar to the daily rhythm of POS phagocytosis detected in RPE cells; this suggests a role for autophagy in retinoid recycling and daily maintenance of photoreceptors (2,22).…”

Section: Autophagy Is An Evolutionarily Conserved Catabolic Mechanismmentioning

confidence: 87%

Di-retinoid-pyridinium-ethanolamine (A2E) Accumulation and the Maintenance of the Visual Cycle Are Independent of Atg7-mediated Autophagy in the Retinal Pigmented Epithelium

Perusek¹,

Sahu²,

Parmar³

et al. 2015

Journal of Biological Chemistry

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Background: Atg7 is an essential autophagic enzyme. Disrupted autophagy has been implicated in retinal degeneration. Results: Mice with RPE-specific Atg7 deletion exhibit normal retinoid recycling, histology, and A2E accumulation, but display hypertrophy and cytosolic debris. Conclusion: Atg7 deficiency does not severely affect the health of RPE cells in mice. Significance: A2E accumulation and retinoid recycling are independent of Atg7-mediated autophagy in RPE cells.

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Section: Autophagy Is An Evolutionarily Conserved Catabolic Mechanismmentioning

confidence: 87%

Di-retinoid-pyridinium-ethanolamine (A2E) Accumulation and the Maintenance of the Visual Cycle Are Independent of Atg7-mediated Autophagy in the Retinal Pigmented Epithelium

Perusek¹,

Sahu²,

Parmar³

et al. 2015

Journal of Biological Chemistry

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“…In addition, the conversion of LC3 from LC3‐I to LC3‐II is a characteristic of autophagy . As indicated in Figure E, LC3‐II/LC3‐I ratio was increased in A549 and A549/Taxol cells in a time‐dependent manner after exposure to BZML.…”

Section: Resultsmentioning

confidence: 82%

“…Apoptosis has been a prevalent model in anti‐cancer drug development, but de‐regulated apoptotic signalling often leads to an increase of apoptosis resistance in cancer cells with the progression of treatment . Additionally, autophagy has been proposed as a tumour suppressor, plays a key pro‐survival role in cells by eliminating damaged organelles and proteins, and contributes apoptosis resistance in cancer cells . Importantly, the different functional forms of autophagy depend on the genetic background of cells, the microenvironment and the type of drug .…”

Section: Introductionmentioning

confidence: 99%

“…21,22 Additionally, autophagy has been proposed as a tumour suppressor, plays a key pro-survival role in cells by eliminating damaged organelles and proteins, and contributes apoptosis resistance in cancer cells. [23][24][25][26] Importantly, the different functional forms of autophagy depend on the genetic background of cells, the microenvironment and the type of drug. 27,28 Recently, other types of PCD, including necroptosis, MC and senescence, have been reported.…”

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confidence: 99%

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Overcoming resistance to mitochondrial apoptosis by BZML‐induced mitotic catastrophe is enhanced by inhibition of autophagy in A549/Taxol cells

Bai

Gao

et al. 2018

Cell Proliferation

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“…In the retinal pigment, epithelia, autophagy, and mitophagy (and most likely pexophagy and lysophagy) are cytoprotective functions linked mechanistically to protection against all- trans -retinal- and light-induced damage and photoreceptor cell death. 17,18 Results with trehalose, a nonreducing α-disaccharide, are particularly interesting because trehalose works in an mTOR-independent mechanism. 19,20 If regulation of autophagy is the primary mechanism through which rapalogs exert their efficacy through mTOR, trehalose could possess synergistic properties with mTOR inhibitors, including organelle stabilization and improved antioxidant status, while simultaneously reversing organelle proliferation.…”

Section: Discussionmentioning

confidence: 99%

mTOR Inhibition Mitigates Molecular and Biochemical Alterations of Vigabatrin-Induced Visual Field Toxicity in Mice

Vogel

Ainslie

Schmidt

et al. 2017

Pediatric Neurology

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BACKGROUND Gamma-vinyl–γ-aminobutyric acid (GABA) (vigabatrin) is an antiepileptic drug and irreversible GABA transaminase inhibitor associated with visual field impairment, which limits its clinical utility. We sought to relate altered visual evoked potentials associated with vigabatrin intake to transcriptional changes in the mechanistic target of rapamycin (mTOR) pathway and GABA receptors to expose further mechanisms of vigabatrin-induced visual field loss. METHODS Vigabatrin was administered to mice via an osmotic pump for two weeks to increase GABA levels. Visual evoked potentials were examined, eye samples were collected, and gene expression was measured by quantitative reverse transcription-polymerase chain reaction. Similarly, human retinal pigment epithelial cells (ARPE19) were exposed to vigabatrin and treated with mTOR inhibitors for mTOR pathway analysis and to assess alterations in organelle accumulation by microscopy. RESULTS Dysregulated expression of transcripts in the mTOR pathway, GABAA/B receptors, metabotropic glutamate (Glu) receptors 1/6, and GABA/glutamate transporters in the eye were found in association with visual evoked potential changes during vigabatrin administration. Rrag genes were upregulated in both mouse eye and ARPE19 cells. Immunoblot of whole eye revealed greater than three fold upregulation of a 200 kDa band when immunoblotted for ras-related guanosine triphosphate binding D. Microscopy of ARPE19 cells revealed selective reversal of vigabatrin-induced organelle accumulation by autophagy-inducing drugs, notably Torin 2. Changes in the mTOR pathway gene expression, including Rrag genes, were corrected by Torin 2 in ARPE19 cells. CONCLUSIONS Our studies, indicating GABA-associated augmentation of RRAG and mTOR signaling, support further preclinical evaluation of mTOR inhibitors as a therapeutic strategy to potentially mitigate vigabatrin-induced ocular toxicity.

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Retinal pigment epithelial cells undergoing mitotic catastrophe are vulnerable to autophagy inhibition

Cited by 36 publications

References 39 publications

Di-retinoid-pyridinium-ethanolamine (A2E) Accumulation and the Maintenance of the Visual Cycle Are Independent of Atg7-mediated Autophagy in the Retinal Pigmented Epithelium

Di-retinoid-pyridinium-ethanolamine (A2E) Accumulation and the Maintenance of the Visual Cycle Are Independent of Atg7-mediated Autophagy in the Retinal Pigmented Epithelium

Overcoming resistance to mitochondrial apoptosis by BZML‐induced mitotic catastrophe is enhanced by inhibition of autophagy in A549/Taxol cells

mTOR Inhibition Mitigates Molecular and Biochemical Alterations of Vigabatrin-Induced Visual Field Toxicity in Mice

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