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The Drosophila wing is a high-throughput and versatile screening tool for Tau-mediated disease mechanisms and drug discovery

The Drosophila wing is a high-throughput and versatile screening tool for Tau-mediated disease mechanisms and drug discovery
The Drosophila wing is a high-throughput and versatile screening tool for Tau-mediated disease mechanisms and drug discovery
Tau protein contributes to microtubule stability, which is disrupted in Alzheimer’s disease and other Tauopathies. In these diseases, Tau molecules become hyperphosphorylated, misfolded and aggregated, propagating pathology across the brain. Studies dissecting disease mechanisms or screening disease-modifying therapies rely on animal models that unveil pathogenic events in vivo but also take several weeks or months to complete. Here we describe a versatile experimental paradigm that yields results in days and yet offers all the advantages of a genetically tractable in vivo system: the Drosophila wing disc. Mimicking neurotoxicity, human Tau expression causes cell death in the wing disc leading to quantifiable phenotypes in the adult wing. The neuroprotective peptide NAP ameliorates Tau toxicity in this system, validating it as a cost-effective drug screening tool. Phenocopying adult neurons, Tau toxicity in the wing disc is exacerbated by simulating hyper-phosphorylation and prevented by suppressing aggregation. Additionally, we show that the wing disc can dissect disease mechanisms that underpin clinically relevant Tau variants. Thus, the wing disc offers an in vivo experimental paradigm for fast and efficient exploration of disease mechanism and screening.
bioRxiv
Ramirez-Moreno, Miguel
22b64166-df15-46e0-b5a5-2e99ea81d0da
Cooper, Amber S.
c5d68650-7759-4cb3-b9be-035f0249db49
Lian, Tianshun
3f8a21bd-8935-4230-a93f-a4beeeaf08c7
Liu, Jie
718a82a7-d323-4004-8cb5-2484b10707d4
Abtahi, Seyedehleila
357e9da9-16c6-49af-b5be-400e49a331b6
Skoulakis, Efthimios M.C.
b1aedf6f-214d-4a95-bb12-1901702748f7
Sivanantharajah, Lovesha
b8424598-bb51-4049-a795-99e318c5b598
Allan, Douglas
cfb135cc-e5ae-4fd2-bd9f-14f35ff2992c
Mudher, Amritpal
ce0ccb35-ac49-4b6c-92b4-8dd5e78ac119
Ramirez-Moreno, Miguel
22b64166-df15-46e0-b5a5-2e99ea81d0da
Cooper, Amber S.
c5d68650-7759-4cb3-b9be-035f0249db49
Lian, Tianshun
3f8a21bd-8935-4230-a93f-a4beeeaf08c7
Liu, Jie
718a82a7-d323-4004-8cb5-2484b10707d4
Abtahi, Seyedehleila
357e9da9-16c6-49af-b5be-400e49a331b6
Skoulakis, Efthimios M.C.
b1aedf6f-214d-4a95-bb12-1901702748f7
Sivanantharajah, Lovesha
b8424598-bb51-4049-a795-99e318c5b598
Allan, Douglas
cfb135cc-e5ae-4fd2-bd9f-14f35ff2992c
Mudher, Amritpal
ce0ccb35-ac49-4b6c-92b4-8dd5e78ac119

[Unknown type: UNSPECIFIED]

Record type: UNSPECIFIED

Abstract

Tau protein contributes to microtubule stability, which is disrupted in Alzheimer’s disease and other Tauopathies. In these diseases, Tau molecules become hyperphosphorylated, misfolded and aggregated, propagating pathology across the brain. Studies dissecting disease mechanisms or screening disease-modifying therapies rely on animal models that unveil pathogenic events in vivo but also take several weeks or months to complete. Here we describe a versatile experimental paradigm that yields results in days and yet offers all the advantages of a genetically tractable in vivo system: the Drosophila wing disc. Mimicking neurotoxicity, human Tau expression causes cell death in the wing disc leading to quantifiable phenotypes in the adult wing. The neuroprotective peptide NAP ameliorates Tau toxicity in this system, validating it as a cost-effective drug screening tool. Phenocopying adult neurons, Tau toxicity in the wing disc is exacerbated by simulating hyper-phosphorylation and prevented by suppressing aggregation. Additionally, we show that the wing disc can dissect disease mechanisms that underpin clinically relevant Tau variants. Thus, the wing disc offers an in vivo experimental paradigm for fast and efficient exploration of disease mechanism and screening.

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Published date: 23 May 2025
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Identifiers

Local EPrints ID: 504946
URI: http://eprints.soton.ac.uk/id/eprint/504946
DOI: doi:10.1101/2025.05.21.655273
PURE UUID: efedf86c-6d06-4f44-9056-a9fd271f30d0
ORCID for Miguel Ramirez-Moreno: ORCID iD orcid.org/0000-0003-1559-8976

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Date deposited: 22 Sep 2025 17:07
Last modified: 23 Sep 2025 02:13

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Contributors

Author: Miguel Ramirez-Moreno ORCID iD
Author: Amber S. Cooper
Author: Tianshun Lian
Author: Jie Liu
Author: Seyedehleila Abtahi
Author: Efthimios M.C. Skoulakis
Author: Lovesha Sivanantharajah
Author: Douglas Allan
Author: Amritpal Mudher

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