November 22, 2024

“Semantic Similarity”: AI System Identifies New Drug Candidates for Parkinson’s Disease

The 3 leading prospects from that assay were then checked on numerous other mitophagy assays, which recognized probucol, a cholesterol-lowering drug, as the compound with the best combination of efficiency and likely safety. Probucol was also found to enhance motor neuron, survival, and function loss in two different animal models of Parkinsons illness (PD is mainly a motion disorder).
” Our research study showcased a dual in silico/cell-based screening approach that determined known and brand-new systems leading to mitophagy enhancement,” McQuibban stated. “Given the linkage in between lipid bead build-up and ABCA1, it seems likely that probucol improves mitophagy through mobilization of lipid droplets.

Determining patterns of such “semantic resemblance” is among the core abilities of IBM Watson for Drug Discovery, an AI program worked on a supercomputer that evaluates the published literature for patterns of phrases, keywords, and juxtapositions. The team utilized the program to establish a semantic “finger print” of bona fide mitophagy enhancers, and after that looked for similar finger prints in the literature on a set of over three thousand candidates from a drug database.
The leading 79 prospects were screened in cell culture versus a mitochondrial toxin. The three leading candidates from that assay were then evaluated on numerous other mitophagy assays, which identified probucol, a cholesterol-lowering drug, as the compound with the best combination of efficiency and most likely security. Probucol was also discovered to improve motor neuron, survival, and function loss in 2 different animal models of Parkinsons illness (PD is primarily a motion condition).
Probucols effect on mitophagy required the development and action of lipid beads, transient cell structures that assist preserve mitochondrial stability during tension, and that accumulate abnormally in Parkinsons illness. Probucol is known to target ABCA1, a protein involved in lipid transport, and decrease in levels of ABCA1 lowered probucols ability to promote mitophagy, suggesting that ABCA1 is a most likely conciliator of the function of lipid beads in mitophagy.
” Our research study showcased a dual in silico/cell-based screening methodology that identified new and known systems causing mitophagy improvement,” McQuibban stated. “Given the linkage between lipid droplet accumulation and ABCA1, it appears most likely that probucol boosts mitophagy through mobilization of lipid beads. Targeting this mechanism might be advantageous.”.
McQuibban includes, “In our study, we utilized the AI platform IBM Watson to effectively recognize currently authorized drugs that could potentially be re-purposed as therapies for Parkinsons disease.”.
Referral: “An AI-guided screen identifies probucol as an enhancer of mitophagy through modulation of lipid droplets” by Natalia Moskal, Naomi P. Visanji, Olena Gorbenko, Vijay Narasimhan, Hannah Tyrrell, Jess Nash, Peter N. Lewis and G. Angus McQuibban, 2 March 2023, PLOS Biology.DOI: 10.1371/ journal.pbio.3001977.
The study was funded by the Canadian Institutes of Health Research.

Drosophila that represents among the models of neurodegeneration utilized in the lab to screen for things (both chemically and genetically) that control mitophagy. Credit: Angus McQuibban (CC-BY 4.0).
AI analyzes the descriptions of compounds to identify prospective new drug candidates.
A new research study, published in the journal PLOS Biology, suggests that the language used by scientists in explaining their results can be utilized to reveal brand-new treatments for Parkinsons illness. The study, led by Angus McQuibban of the University of Toronto in Canada, utilized AI to discover an existing anti-cholesterol medication that has the capability to improve the disposal of mitochondria, which are cellular components responsible for energy production and are affected in Parkinsons illness.
The complete pathogenic path causing Parkinsons illness (PD) is unidentified, but one clear factor is mitochondrial dysfunction and the failure to dispose of defective mitochondria, a process called mitophagy. A minimum of five genes linked in PD are connected to impaired mitophagy, either directly or indirectly, therefore the authors sought compounds that could boost the mitophagy process.
Several such substances have actually been determined, however many of them also cause harm to cells, ruling them out as drug candidates. That led the authors to ask whether the literature explaining these substances might lead them to other substances, ones not previously linked to mitophagy enhancement however which are described with terms that also appear in documents that go over the known enhancers.