Abstract
BackgroundRecently, we developed hydrophobically modified glycol chitosan (HGC) nanomicelles loaded with tacrolimus (TAC) (HGC-TAC) for the targeted renal delivery of TAC. Herein, we determined whether the administration of the HGC-TAC nanomicelles decreases kidney injury in a model of lupus nephritis. Lupus-prone female MRL/lpr mice were randomly assigned into three groups that received intravenous administration of either vehicle control, an equivalent dose of TAC, or HGC-TAC (0.5 mg/kg TAC) weekly for 8 weeks. Age-matched MRL/MpJ mice without Faslpr mutation were also treated with HGC vehicle and used as healthy controls.ResultsWeekly intravenous treatment with HGC-TAC significantly reduced genetically attributable lupus activity in lupus nephritis-positive mice. In addition, HGC-TAC treatment mitigated renal dysfunction, proteinuria, and histological injury, including glomerular proliferative lesions and tubulointerstitial infiltration. Furthermore, HGC-TAC treatment reduced renal inflammation and inflammatory gene expression and ameliorated increased apoptosis and glomerular fibrosis. Moreover, HGC-TAC administration regulated renal injury via the TGF-β1/MAPK/NF-κB signaling pathway. These renoprotective effects of HGC-TAC treatment were more potent in lupus mice compared to those of TAC treatment alone.ConclusionOur study indicates that weekly treatment with the HGC-TAC nanomicelles reduces kidney injury resulting from lupus nephritis by preventing inflammation, fibrosis, and apoptosis. This advantage of a new therapeutic modality using kidney-targeted HGC-TAC nanocarriers may improve drug adherence and provide treatment efficacy in lupus nephritis mice.
Highlights
We developed hydrophobically modified glycol chitosan (HGC) nanomicelles loaded with tacrolimus (TAC) (HGC-TAC) for the targeted renal delivery of TAC
Kim et al J Nanobiotechnol (2021) 19:109 (See figure on page.) Fig. 1 In vivo biodistribution of hydrophobically modified glycol chitosan (HGC) nanomicelles. a Schematic representation of the preparation of HGC nanomicelles loaded with tacrolimus (HGC-TAC). b The field-emission transmission electron microscopy (FE-TEM) image of HGC-TAC nanomicelles. c Fluorescence images of organs at different time intervals after injection of HGC-F675 in MRL/lpr mice
The colloidal stability of HGC-TAC nanomicelles was assessed by the time-dependent changes of the HGCTAC nanomicelles in distilled water, phosphate-buffered saline (PBS) and, 10% fetal bovine serum (FBS) (Additional file 1: Fig. S1c)
Summary
We developed hydrophobically modified glycol chitosan (HGC) nanomicelles loaded with tacrolimus (TAC) (HGC-TAC) for the targeted renal delivery of TAC. We determined whether the administra‐ tion of the HGC-TAC nanomicelles decreases kidney injury in a model of lupus nephritis. Lupus-prone female MRL/lpr mice were randomly assigned into three groups that received intravenous administration of either vehicle control, an equivalent dose of TAC, or HGC-TAC (0.5 mg/kg TAC) weekly for 8 weeks. B The FE-TEM image of HGC-TAC nanomicelles. C Fluorescence images of organs at different time intervals after injection of HGC-F675 in MRL/lpr mice. The fluorescence intensity of organs was quantified at each time point (n = 3 mice/ group). D Confocal images of HGC-F675 nanomicelles in the kidney at different time points after injection in MRL/lpr mice.
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