Olena Gorbenko scite author profile

Failures in mitophagy, a process by which damaged mitochondria are cleared, results in neurodegeneration, while enhancing mitophagy promotes the survival of dopaminergic neurons. Using an artificial intelligence platform, we employed a natural language processing approach to evaluate the semantic similarity of candidate molecules to a set of well-established mitophagy enhancers. Top candidates were screened in a cell-based mitochondrial clearance assay. Probucol, a lipid-lowering drug, was validated across several orthogonal mitophagy assays. In vivo, probucol improved survival, locomotor function, and dopaminergic neuron loss in zebrafish and fly models of mitochondrial damage. Probucol functioned independently of PINK1/Parkin, but its effects on mitophagy and in vivo depended on ABCA1, which negatively regulated mitophagy following mitochondrial damage. Autophagosome and lysosomal markers were elevated by probucol treatment in addition to increased contact between lipid droplets (LDs) and mitochondria. Conversely, LD expansion, which occurs following mitochondrial damage, was suppressed by probucol and probucol-mediated mitophagy enhancement required LDs. Probucol-mediated LD dynamics changes may prime the cell for a more efficient mitophagic response to mitochondrial damage.

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AI-guided screen identifies probucol-mediated mitophagy enhancement through modulation of lipid droplets

Moskal

Visanji

Gorbenko

et al. 2022

Preprint

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Failures in mitophagy, a process by which damaged mitochondria are cleared, results in neurodegeneration, while enhancing mitophagy promotes the survival of dopaminergic neurons. Using an artificial intelligence platform, we employed a natural language processing approach to evaluate the semantic similarity of candidate molecules to a set of well-established mitophagy enhancers. Top candidates were screened in a cell-based mitochondrial clearance assay. Probucol, a lipid-lowering drug, was validated across several orthogonal mitophagy assays. In vivo, probucol improved survival, locomotor function and dopaminergic neuron loss in zebrafish and fly models of mitochondrial damage. Probucol functioned independently of PINK1/Parkin but its effects on mitophagy and in vivo depended on ABCA1, which negatively regulated mitophagy following mitochondrial damage. Autophagosome and lysosomal markers were elevated under basal conditions by probucol treatment in addition to increased contact between lipid droplets and mitochondria. Conversely, lipid droplet expansion, which occurs following mitochondrial damage was suppressed by probucol and probucol-mediated mitophagy enhancement required lipid droplets. Probucol-mediated lipid droplet dynamics changes may prime the cell for a more efficient mitophagic response to mitochondrial damage.

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Mitophagy Enhancer Identified in Repurposing Screen for Parkinson's Disease Therapeutics

Moskal¹,

Visanji²,

Gorbenko³

et al. 2021

SSRN Journal

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Author Reply to Peer Reviews of AI-guided screen identifies probucol-mediated mitophagy enhancement through modulation of lipid droplets

Moskal¹,

Visanji

Gorbenko

et al. 2022

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Olena Gorbenko

PGAM5 is an MFN2 phosphatase that plays an essential role in the regulation of mitochondrial dynamics

An AI-guided screen identifies probucol as an enhancer of mitophagy through modulation of lipid droplets

AI-guided screen identifies probucol-mediated mitophagy enhancement through modulation of lipid droplets

Mitophagy Enhancer Identified in Repurposing Screen for Parkinson's Disease Therapeutics

Author Reply to Peer Reviews of AI-guided screen identifies probucol-mediated mitophagy enhancement through modulation of lipid droplets

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