在结核病小鼠模型中，用于“钳形疗法”的可吸入颗粒靶向硝唑尼特，作为对巨噬细胞具有杀菌和宿主导向作用的药物。

Inhalable Particles for "Pincer Therapeutics" Targeting Nitazoxanide as Bactericidal and Host-Directed Agent to Macrophages in a Mouse Model of Tuberculosis.

作者信息

Gupta Anuradha, Meena Jairam, Sharma Deepak, Gupta Pushpa, Gupta Umesh Dutta, Kumar Sadan, Sharma Sharad, Panda Amulya K, Misra Amit

机构信息

CSIR-Central Drug Research Institute , Lucknow 226031, India.

National Institute of Immunology , New Delhi 110067, India.

出版信息

Mol Pharm. 2016 Sep 6;13(9):3247-55. doi: 10.1021/acs.molpharmaceut.6b00459. Epub 2016 Aug 10.

DOI:10.1021/acs.molpharmaceut.6b00459

PMID:27463245

Abstract

Nitazoxanide (NTZ) has moderate mycobactericidal activity and is also an inducer of autophagy in mammalian cells. High-payload (40-50% w/w) inhalable particles containing NTZ alone or in combination with antituberculosis (TB) agents isoniazid (INH) and rifabutin (RFB) were prepared with high incorporation efficiency of 92%. In vitro drug release was corrected for drug degradation during the course of study and revealed first-order controlled release. Particles were efficiently taken up in vitro by macrophages and maintained intracellular drug concentrations at one order of magnitude higher than NTZ in solution for 6 h. Dose-dependent killing of Mtb and restoration of lung and spleen architecture were observed in experimentally infected mice treated with inhalations containing NTZ. Adjunct NTZ with INH and RFB cleared culturable bacteria from the lung and spleen and markedly healed tissue architecture. NTZ can be used in combination with INH-RFB to kill the pathogen and heal the host.

摘要

硝唑尼特（NTZ）具有中等程度的杀分枝杆菌活性，也是哺乳动物细胞自噬的诱导剂。制备了高载药量（40-50% w/w）的可吸入颗粒，其单独含有NTZ或与抗结核药物异烟肼（INH）和利福布汀（RFB）联合使用，包封率高达92%。在研究过程中对体外药物释放进行了药物降解校正，结果显示为一级控释。颗粒在体外能被巨噬细胞有效摄取，并在6小时内将细胞内药物浓度维持在比溶液中NTZ高一个数量级的水平。在用含NTZ的吸入剂治疗的实验感染小鼠中，观察到对结核分枝杆菌的剂量依赖性杀伤以及肺和脾脏结构的恢复。NTZ与INH和RFB联合使用可清除肺和脾脏中的可培养细菌，并显著修复组织结构。NTZ可与INH-RFB联合使用以杀灭病原体并治愈宿主。

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在结核病小鼠模型中，用于“钳形疗法”的可吸入颗粒靶向硝唑尼特，作为对巨噬细胞具有杀菌和宿主导向作用的药物。

Inhalable Particles for "Pincer Therapeutics" Targeting Nitazoxanide as Bactericidal and Host-Directed Agent to Macrophages in a Mouse Model of Tuberculosis.

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