乳杆菌-聚多巴胺体系用于膀胱过度活动症的靶向药物递送：来自膀胱细胞球体、大鼠模型和尿液微生物组分析的证据。

Lactobacillus-Polydopamine System for Targeted Drug Delivery in Overactive Bladder: Evidence from Bladder Cell Spheroids, Rat Models, and Urinary Microbiome Profiling.

机构信息

Department of Urology, The First Affiliated Hospital of Guangzhou Medical University, Guangzhou, People's Republic of China.

Department of Urology, Zhongnan Hospital of Wuhan University, Wuhan, People's Republic of China.

出版信息

Int J Nanomedicine. 2024 Aug 15;19:8353-8371. doi: 10.2147/IJN.S465745. eCollection 2024.

DOI:10.2147/IJN.S465745

PMID:39161357

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC11332418/

Abstract

INTRODUCTION

Overactive bladder (OAB) is a highly prevalent condition with limited treatment options due to poor efficacy, side effects, and patient compliance. Novel drug delivery systems that can target the bladder wall may improve OAB therapy.

METHODS

We explored a polydopamine (PDA)-coated lactobacillus platform as a potential carrier for localized OAB treatment. Urinary microbiome profiling was performed to identify the presence of lactobacillus in healthy and OAB groups. Lactobacillus-PDA nanoparticles were synthesized and characterized by electron microscopy and spectrophotometry. A rat bladder perfusion model and human bladder smooth muscle cell spheroids were used to assess the distribution and penetration of the nanoparticles. The efficacy of the Lactobacillus-PDA system (LPS) for delivering the antimuscarinic drug solifenacin was evaluated in an OAB rat model.

RESULTS

Urinary microbiome profiling revealed lactobacillus as a dominant genus in both healthy and OAB groups. The synthesized Lactobacillus-PDA nanoparticles exhibited uniform size and optical properties. In the rat bladder perfusion model, the nanoparticles distributed throughout the bladder wall and smooth muscle without toxicity. The nanoparticles also penetrated human bladder smooth muscle cell spheroids. In the OAB rat model, LPS facilitated the delivery of solifenacin and improved treatment efficacy.

DISCUSSION

The results highlight LPS as a promising drug carrier for targeted OAB therapy via penetration into bladder tissues. This bacteriotherapy approach may overcome limitations of current systemic OAB medications. Lactobacillus, a probiotic bacterium present in the urinary tract microbiome, was hypothesized to adhere to and penetrate the bladder wall when coated with PDA nanoparticles, making it a suitable candidate for localized drug delivery.

摘要

简介

膀胱过度活动症（OAB）是一种高发疾病，由于疗效不佳、副作用和患者依从性等问题，治疗选择有限。新型药物输送系统可以靶向膀胱壁，可能改善 OAB 治疗。

方法

我们探索了一种聚多巴胺（PDA）涂层乳杆菌平台，作为局部 OAB 治疗的潜在载体。通过尿微生物组分析，确定健康和 OAB 组中乳杆菌的存在。通过电子显微镜和分光光度法对乳杆菌-PDA 纳米颗粒进行了合成和表征。采用大鼠膀胱灌注模型和人膀胱平滑肌细胞球体评估纳米颗粒的分布和渗透。在 OAB 大鼠模型中评估了乳杆菌-PDA 系统（LPS）递送抗毒蕈碱药物索利那新的效果。

结果

尿微生物组分析显示，乳杆菌是健康和 OAB 组中的主要属。合成的乳杆菌-PDA 纳米颗粒具有均匀的大小和光学特性。在大鼠膀胱灌注模型中，纳米颗粒分布在整个膀胱壁和平滑肌中，没有毒性。纳米颗粒还穿透了人膀胱平滑肌细胞球体。在 OAB 大鼠模型中，LPS 促进了索利那新的递送，提高了治疗效果。

讨论

结果突出了 LPS 作为一种有前途的药物载体，通过渗透到膀胱组织中实现靶向 OAB 治疗。这种细菌治疗方法可能克服当前全身 OAB 药物的局限性。乳杆菌是尿微生物组中存在的一种益生菌细菌，当用 PDA 纳米颗粒包被时，它被假设可以粘附并穿透膀胱壁，使其成为局部药物输送的合适候选物。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/f498/11332418/135e1ffcc7ac/IJN-19-8353-g0001.jpg

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乳杆菌-聚多巴胺体系用于膀胱过度活动症的靶向药物递送：来自膀胱细胞球体、大鼠模型和尿液微生物组分析的证据。

Lactobacillus-Polydopamine System for Targeted Drug Delivery in Overactive Bladder: Evidence from Bladder Cell Spheroids, Rat Models, and Urinary Microbiome Profiling.

机构信息

出版信息

INTRODUCTION

METHODS

RESULTS

DISCUSSION

简介

方法

结果

讨论

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