Galacto‐conjugation of Navitoclax as an efficient strategy to increase senolytic specificity and reduce platelet toxicity

Pharmacologically active compounds with preferential cytotoxic activity for senescent cells, known as senolytics, can ameliorate or even revert pathological manifestations of senescence in numerous preclinical mouse disease models, including cancer models. However, translation of senolytic therapies...

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Published in:	Aging cell Vol. 19; no. 4; pp. e13142 - n/a
Main Authors:	González‐Gualda, Estela, Pàez‐Ribes, Marta, Lozano‐Torres, Beatriz, Macias, David, Wilson, Joseph R., González‐López, Cristina, Ou, Hui‐Ling, Mirón‐Barroso, Sofía, Zhang, Zhenguang, Lérida‐Viso, Araceli, Blandez, Juan F., Bernardos, Andrea, Sancenón, Félix, Rovira, Miguel, Fruk, Ljiljana, Martins, Carla P., Serrano, Manuel, Doherty, Gary J., Martínez‐Máñez, Ramón, Muñoz‐Espín, Daniel
Format:	Journal Article
Language:	English
Published:	England John Wiley & Sons, Inc 01-04-2020 John Wiley and Sons Inc
Subjects:	Aniline Compounds - chemistry Aniline Compounds - pharmacology Animal models Animals Antineoplastic Agents - chemical synthesis Antineoplastic Agents - chemistry Antineoplastic Agents - pharmacology Apoptosis Apoptosis - drug effects Blood Platelets - drug effects Cancer Cell activation Cell Survival - drug effects cellular senescence Cellular Senescence - drug effects Chemotherapy chemotherapy‐induced senescence Cisplatin Cytotoxicity Drug Screening Assays, Antitumor Female Galactose Galactose - chemistry Galactose - pharmacology Health aspects Humans Lung cancer Mice Mice, Inbred C57BL Mice, SCID Molecular Structure Nanoparticles Navitoclax (ABT-263) Neoplasms, Experimental - drug therapy Neoplasms, Experimental - pathology Original Platelets prodrug Prodrugs Prodrugs - chemical synthesis Prodrugs - chemistry Prodrugs - pharmacology Senescence senolytics Sulfonamides - chemistry Sulfonamides - pharmacology Thrombocytopenia Tracers Tumor Cells, Cultured Tumors β-Galactosidase lung cancer prodrug cellular senescence thrombocytopenia chemotherapy-induced senescence senolytics Navitoclax (ABT-263)
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Summary:	Pharmacologically active compounds with preferential cytotoxic activity for senescent cells, known as senolytics, can ameliorate or even revert pathological manifestations of senescence in numerous preclinical mouse disease models, including cancer models. However, translation of senolytic therapies to human disease is hampered by their suboptimal specificity for senescent cells and important toxicities that narrow their therapeutic windows. We have previously shown that the high levels of senescence‐associated lysosomal β‐galactosidase (SA‐β‐gal) found within senescent cells can be exploited to specifically release tracers and cytotoxic cargoes from galactose‐encapsulated nanoparticles within these cells. Here, we show that galacto‐conjugation of the BCL‐2 family inhibitor Navitoclax results in a potent senolytic prodrug (Nav‐Gal), that can be preferentially activated by SA‐β‐gal activity in a wide range of cell types. Nav‐Gal selectively induces senescent cell apoptosis and has a higher senolytic index than Navitoclax (through reduced activation in nonsenescent cells). Nav‐Gal enhances the cytotoxicity of standard senescence‐inducing chemotherapy (cisplatin) in human A549 lung cancer cells. Concomitant treatment with cisplatin and Nav‐Gal in vivo results in the eradication of senescent lung cancer cells and significantly reduces tumour growth. Importantly, galacto‐conjugation reduces Navitoclax‐induced platelet apoptosis in human and murine blood samples treated ex vivo, and thrombocytopenia at therapeutically effective concentrations in murine lung cancer models. Taken together, we provide a potentially versatile strategy for generating effective senolytic prodrugs with reduced toxicities. We have developed a galactose‐conjugated derivative of Navitoclax (Nav‐Gal) with a broad‐spectrum senolytic activity. We show that Nav‐Gal efficiently kills chemotherapy‐induced senescent cells in xenografts and orthotopic in vivo models of NSCLC, resulting in impaired tumour progression. Importantly, our prodrug prevents Navitoclax‐induced platelet apoptosis in human samples and murine models. In summary, we provide a potentially versatile strategy for generating effective senolytic prodrugs with reduced toxicities.
Bibliography:	https://doi.org/10.1111/acel.13133 This article accompany . ObjectType-Article-1 SourceType-Scholarly Journals-1 ObjectType-Feature-2 content type line 23 This article accompany https://doi.org/10.1111/acel.13133. Estela González‐Gualda, Marta Pàez‐Ribes, and Beatriz Lozano‐Torres contributed equally in this work.
ISSN:	1474-9718 1474-9726
DOI:	10.1111/acel.13142