Bone-related diseases and bone cancers remain challenging to treat due to limited targeted therapies and significant off-target side effects. This study presents the development of a bone-targeted liposomal formulation, termed Bone Binding Liposomes (BBL), functionalized with a pyrophosphate-cholesterol derivative to enhance binding to bone mineral (hydroxyapatite). Our experiments demonstrated the superior affinity of BBL compared to conventional Non-Binding Liposomes (NBL). Moreover, both formulations efficiently encapsulated a prototype drug and both exhibited comparable biocompatibility, both preserving the drug’s physicochemical properties on elective target cells, macrophages. This targeted delivery system holds a potential for treating bone-related diseases, offering a means to improve targeted delivery and reduce off-target effects.
Pyrophosphate-modified liposomes for bone-targeted delivery / A. Dal Corso, R. Becchetti, C. Matteo, S. Turchetti, P. Fabbrizio, M. Cancelliere, G. Ghiselli, M. Meroni, G. Nardo, M. Zucchetti, R. Frapolli, C. Nastasi. - In: JOURNAL OF LIPOSOME RESEARCH. - ISSN 0898-2104. - (2025), pp. 1-12. [Epub ahead of print] [10.1080/08982104.2025.2599839]
Pyrophosphate-modified liposomes for bone-targeted delivery
A. Dal CorsoPrimo
;M. Cancelliere;
2025
Abstract
Bone-related diseases and bone cancers remain challenging to treat due to limited targeted therapies and significant off-target side effects. This study presents the development of a bone-targeted liposomal formulation, termed Bone Binding Liposomes (BBL), functionalized with a pyrophosphate-cholesterol derivative to enhance binding to bone mineral (hydroxyapatite). Our experiments demonstrated the superior affinity of BBL compared to conventional Non-Binding Liposomes (NBL). Moreover, both formulations efficiently encapsulated a prototype drug and both exhibited comparable biocompatibility, both preserving the drug’s physicochemical properties on elective target cells, macrophages. This targeted delivery system holds a potential for treating bone-related diseases, offering a means to improve targeted delivery and reduce off-target effects.
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