Local therapeutic efficacy with reduced systemic side effects by rapamycin-loaded subcapsular microspheres

Publication date

2015-02

Authors

Falke, Lucas L
van Vuuren, Stefan H
Kazazi, F.ISNI 0000000396247130
Ramazani, F.ISNI 0000000527748665
Nguyen, Tri Q
Veldhuis, Gert J
Maarseveen, Erik M
Zandstra, Jurjen
Zuidema, Johan
Duque, Luisa F

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Article
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taverne

Abstract

Kidney injury triggers fibrosis, the final common pathway of chronic kidney disease (CKD). The increase of CKD prevalence worldwide urgently calls for new therapies. Available systemic treatment such as rapamycin are associated with serious side effects. To study the potential of local antifibrotic therapy, we administered rapamycin-loaded microspheres under the kidney capsule of ureter-obstructed rats and assessed the local antifibrotic effects and systemic side effects of rapamycin. After 7 days, microsphere depots were easily identifiable under the kidney capsule. Both systemic and local rapamycin treatment reduced intrarenal mTOR activity, myofibroblast accumulation, expression of fibrotic genes, and T-lymphocyte infiltration. Upon local treatment, inhibition of mTOR activity and reduction of myofibroblast accumulation were limited to the immediate vicinity of the subcapsular pocket, while reduction of T-cell infiltration was widespread. In contrast to systemically administered rapamycin, local treatment did not induce off target effects such as weight loss. Thus subcapsular delivery of rapamycin-loaded microspheres successfully inhibited local fibrotic response in UUO with less systemic effects. Therapeutic effect of released rapamycin was most prominent in close vicinity to the implanted microspheres.

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Citation

Falke, L L, van Vuuren, S H, Kazazi-Hyseni, F, Ramazani, F, Nguyen, T Q, Veldhuis, G J, Maarseveen, E M, Zandstra, J, Zuidema, J, Duque, L F, Steendam, R, Popa, E R, Kok, R J & Goldschmeding, R 2015, 'Local therapeutic efficacy with reduced systemic side effects by rapamycin-loaded subcapsular microspheres', Biomaterials, vol. 42, pp. 151-60. https://doi.org/10.1016/j.biomaterials.2014.11.042