Generation of a selective senolytic platform using a micelle-encapsulated Sudan Black B conjugated analog

Sophia Magkouta; Dimitris Veroutis; Angelos Papaspyropoulos; Maria Georgiou; Nikolaos Lougiakis; Natassa Pippa; Sophia Havaki; Anastasia Palaiologou; Dimitris Foivos Thanos; Konstantinos Kambas; Nefeli Lagopati; Nikos Boukos; Nicole Pouli; Panagiotis Marakos; Athanassios Kotsinas; Dimitris Thanos; Konstantinos Evangelou; Fotios Sampaziotis; Constantin Tamvakopoulos; Stergios Pispas; Russell Petty; Nicholas Kotopoulos; Vassilis G. Gorgoulis

doi:10.1038/s43587-024-00747-4

Generation of a selective senolytic platform using a micelle-encapsulated Sudan Black B conjugated analog

Sophia Magkouta, Dimitris Veroutis, Angelos Papaspyropoulos, Maria Georgiou, Nikolaos Lougiakis, Natassa Pippa, Sophia Havaki, Anastasia Palaiologou, Dimitris Foivos Thanos, Konstantinos Kambas, Nefeli Lagopati, Nikos Boukos, Nicole Pouli, Panagiotis Marakos, Athanassios Kotsinas, Dimitris Thanos, Konstantinos Evangelou, Fotios Sampaziotis, Constantin Tamvakopoulos, Stergios PispasRussell Petty, Nicholas Kotopoulos, Vassilis G. Gorgoulis

Cancer Research

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Abstract

The emerging field of senolytics is centered on eliminating senescent cells to block their contribution to the progression of age-related diseases, including cancer, and to facilitate healthy aging. Enhancing the selectivity of senolytic treatments toward senescent cells stands to reduce the adverse effects associated with existing senolytic interventions. Taking advantage of lipofuscin accumulation in senescent cells, we describe here the development of a highly efficient senolytic platform consisting of a lipofuscin-binding domain scaffold, which can be conjugated with a senolytic drug via an ester bond. As a proof of concept, we present the generation of GL392, a senolytic compound that carries a dasatinib senolytic moiety. Encapsulation of the GL392 compound in a micelle nanocarrier (termed mGL392) allows for both in vitro and in vivo (in mice) selective elimination of senescent cells via targeted release of the senolytic agent with minimal systemic toxicity. Our findings suggest that this platform could be used to enhance targeting of senotherapeutics toward senescent cells.

Original language	English
Article number	e100300
Pages (from-to)	162-175
Number of pages	24
Journal	Nature Aging
Volume	5
Early online date	27 Dec 2024
DOIs	https://doi.org/10.1038/s43587-024-00747-4
Publication status	Published - Jan 2025

ASJC Scopus subject areas

Neuroscience (miscellaneous)
Ageing
Geriatrics and Gerontology

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

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10.1038/s43587-024-00747-4Licence: CC BY-NC-ND

Final Published VersionFinal published version, 14.1 MBLicence: CC BY-NC-ND

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Magkouta, S., Veroutis, D., Papaspyropoulos, A., Georgiou, M., Lougiakis, N., Pippa, N., Havaki, S., Palaiologou, A., Thanos, D. F., Kambas, K., Lagopati, N., Boukos, N., Pouli, N., Marakos, P., Kotsinas, A., Thanos, D., Evangelou, K., Sampaziotis, F., Tamvakopoulos, C., ... Gorgoulis, V. G. (2025). Generation of a selective senolytic platform using a micelle-encapsulated Sudan Black B conjugated analog. Nature Aging, 5, 162-175. Article e100300. https://doi.org/10.1038/s43587-024-00747-4

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title = "Generation of a selective senolytic platform using a micelle-encapsulated Sudan Black B conjugated analog",

abstract = "The emerging field of senolytics is centered on eliminating senescent cells to block their contribution to the progression of age-related diseases, including cancer, and to facilitate healthy aging. Enhancing the selectivity of senolytic treatments toward senescent cells stands to reduce the adverse effects associated with existing senolytic interventions. Taking advantage of lipofuscin accumulation in senescent cells, we describe here the development of a highly efficient senolytic platform consisting of a lipofuscin-binding domain scaffold, which can be conjugated with a senolytic drug via an ester bond. As a proof of concept, we present the generation of GL392, a senolytic compound that carries a dasatinib senolytic moiety. Encapsulation of the GL392 compound in a micelle nanocarrier (termed mGL392) allows for both in vitro and in vivo (in mice) selective elimination of senescent cells via targeted release of the senolytic agent with minimal systemic toxicity. Our findings suggest that this platform could be used to enhance targeting of senotherapeutics toward senescent cells.",

author = "Sophia Magkouta and Dimitris Veroutis and Angelos Papaspyropoulos and Maria Georgiou and Nikolaos Lougiakis and Natassa Pippa and Sophia Havaki and Anastasia Palaiologou and Thanos, {Dimitris Foivos} and Konstantinos Kambas and Nefeli Lagopati and Nikos Boukos and Nicole Pouli and Panagiotis Marakos and Athanassios Kotsinas and Dimitris Thanos and Konstantinos Evangelou and Fotios Sampaziotis and Constantin Tamvakopoulos and Stergios Pispas and Russell Petty and Nicholas Kotopoulos and Gorgoulis, {Vassilis G.}",

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doi = "10.1038/s43587-024-00747-4",

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Magkouta, S , Veroutis, D, Papaspyropoulos, A, Georgiou, M, Lougiakis, N, Pippa, N, Havaki, S, Palaiologou, A, Thanos, DF, Kambas, K, Lagopati, N, Boukos, N, Pouli, N, Marakos, P, Kotsinas, A, Thanos, D, Evangelou, K, Sampaziotis, F, Tamvakopoulos, C, Pispas, S, Petty, R, Kotopoulos, N & Gorgoulis, VG 2025, 'Generation of a selective senolytic platform using a micelle-encapsulated Sudan Black B conjugated analog', Nature Aging, vol. 5, e100300, pp. 162-175. https://doi.org/10.1038/s43587-024-00747-4

TY - JOUR

T1 - Generation of a selective senolytic platform using a micelle-encapsulated Sudan Black B conjugated analog

AU - Magkouta, Sophia

AU - Veroutis, Dimitris

AU - Papaspyropoulos, Angelos

AU - Georgiou, Maria

AU - Lougiakis, Nikolaos

AU - Pippa, Natassa

AU - Havaki, Sophia

AU - Palaiologou, Anastasia

AU - Thanos, Dimitris Foivos

AU - Kambas, Konstantinos

AU - Lagopati, Nefeli

AU - Boukos, Nikos

AU - Pouli, Nicole

AU - Marakos, Panagiotis

AU - Kotsinas, Athanassios

AU - Thanos, Dimitris

AU - Evangelou, Konstantinos

AU - Sampaziotis, Fotios

AU - Tamvakopoulos, Constantin

AU - Pispas, Stergios

AU - Petty, Russell

AU - Kotopoulos, Nicholas

AU - Gorgoulis, Vassilis G.

PY - 2025/1

Y1 - 2025/1

N2 - The emerging field of senolytics is centered on eliminating senescent cells to block their contribution to the progression of age-related diseases, including cancer, and to facilitate healthy aging. Enhancing the selectivity of senolytic treatments toward senescent cells stands to reduce the adverse effects associated with existing senolytic interventions. Taking advantage of lipofuscin accumulation in senescent cells, we describe here the development of a highly efficient senolytic platform consisting of a lipofuscin-binding domain scaffold, which can be conjugated with a senolytic drug via an ester bond. As a proof of concept, we present the generation of GL392, a senolytic compound that carries a dasatinib senolytic moiety. Encapsulation of the GL392 compound in a micelle nanocarrier (termed mGL392) allows for both in vitro and in vivo (in mice) selective elimination of senescent cells via targeted release of the senolytic agent with minimal systemic toxicity. Our findings suggest that this platform could be used to enhance targeting of senotherapeutics toward senescent cells.

AB - The emerging field of senolytics is centered on eliminating senescent cells to block their contribution to the progression of age-related diseases, including cancer, and to facilitate healthy aging. Enhancing the selectivity of senolytic treatments toward senescent cells stands to reduce the adverse effects associated with existing senolytic interventions. Taking advantage of lipofuscin accumulation in senescent cells, we describe here the development of a highly efficient senolytic platform consisting of a lipofuscin-binding domain scaffold, which can be conjugated with a senolytic drug via an ester bond. As a proof of concept, we present the generation of GL392, a senolytic compound that carries a dasatinib senolytic moiety. Encapsulation of the GL392 compound in a micelle nanocarrier (termed mGL392) allows for both in vitro and in vivo (in mice) selective elimination of senescent cells via targeted release of the senolytic agent with minimal systemic toxicity. Our findings suggest that this platform could be used to enhance targeting of senotherapeutics toward senescent cells.

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U2 - 10.1038/s43587-024-00747-4

DO - 10.1038/s43587-024-00747-4

M3 - Article

C2 - 39730824

AN - SCOPUS:85213547078

VL - 5

SP - 162

EP - 175

JO - Nature Aging

JF - Nature Aging

M1 - e100300

ER -

Generation of a selective senolytic platform using a micelle-encapsulated Sudan Black B conjugated analog

Abstract

ASJC Scopus subject areas

UN SDGs

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