Acute myocardial infarction therapy using calycosin and tanshinone co-loaded; mitochondrion-targeted tetrapeptide and cyclic arginyl-glycyl-aspartic acid peptide co-modified lipid-polymer hybrid nano-system: preparation, characterization, and anti myocardial infarction activity assessment.

IF 6.5 2区 医学 Q1 PHARMACOLOGY & PHARMACY
Jieke Yan, Jing Guo, Yuzhen Wang, Xiaowei Xing, Xuguang Zhang, Guanghao Zhang, Zhaoqiang Dong
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引用次数: 3

Abstract

Acute myocardial infarction (AMI) is one of the most common ischemic heart diseases. However, lack of sufficient drug concentration (in the ischemic heart) is the major factor of treatment failure. It is urgent for researchers to engineer novel drug delivery systems to enhance the targeted delivery of cardioprotective agents. The aim of the present study was to investigate the anti-AMI ability of calycosin (CAL) and tanshinone (TAN) co-loaded; mitochondrion-targeted tetrapeptide (MTP) and cyclic arginyl-glycyl-aspartic acid (RGD) peptide co-modified nano-system.: We prepared CAL and TAN combined lipid-polymer hybrid nano-system, and RGD was modified to the system to achieve RGD-CAL/TAN NS. MTP-131 was conjugated with PEG and modified onto the nanoparticles to achieve dual ligands co-modified MTP/RGD-CAL/TAN NS. The physicochemical properties of nano-systems were characterized. The AMI therapy ability of the systems was investigated in AMI rats' model. The size of MTP/RGD-CAL/TAN NS was 170.2 ± 5.6 nm, with a surface charge of -18.9 ± 1.9 mV. The area under the curve (AUC) and blood circulation half-life (T1/2) of MTP/RGD-CAL/TAN NS was 178.86 ± 6.62 μg·min/mL and 0.47 h, respectively. MTP/RGD-CAL/TAN NS exhibited the most significant infarct size reduction effect of 22.9%. MTP/RGD-CAL/TAN NS exhibited the highest heart accumulation and best infarct size reduction effect, which could be used as a promising system for efficient treatment of cardiovascular diseases.

毛蕊异黄酮与丹参酮共载治疗急性心肌梗死线粒体靶向四肽和环精氨酸-甘氨酸-天冬氨酸肽共修饰脂质-聚合物杂化纳米体系:制备、表征和抗心肌梗死活性评估。
急性心肌梗死(AMI)是最常见的缺血性心脏病之一。然而,缺乏足够的药物浓度(在缺血性心脏)是治疗失败的主要因素。研究人员迫切需要设计新的药物递送系统来增强心脏保护剂的靶向递送。本研究的目的是探讨毛蕊异黄酮(CAL)和丹参酮(TAN)共载的抗ami能力;线粒体靶向四肽(MTP)和环精氨酸-甘氨酸-天冬氨酸(RGD)肽共修饰纳米体系。制备了CAL和TAN复合脂质聚合物杂化纳米体系,并对RGD进行改性,得到RGD-CAL/TAN纳米体系。将MTP-131与PEG偶联并修饰在纳米颗粒上,得到双配体共修饰的MTP/RGD-CAL/TAN NS。表征了纳米体系的物理化学性质。在急性心肌梗死大鼠模型上观察了各系统的治疗能力。MTP/RGD-CAL/ tanns的尺寸为170.2±5.6 nm,表面电荷为-18.9±1.9 mV。MTP/RGD-CAL/TAN NS的曲线下面积(AUC)和血液循环半衰期(T1/2)分别为178.86±6.62 μg·min/mL和0.47 h。MTP/RGD-CAL/TAN NS的梗死面积减小效果最显著,为22.9%。MTP/RGD-CAL/TAN NS具有最高的心脏蓄积和最佳的梗死面积减小效果,可作为一种有前途的有效治疗心血管疾病的系统。
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来源期刊
Drug Delivery
Drug Delivery 医学-药学
CiteScore
11.80
自引率
5.00%
发文量
250
审稿时长
3.3 months
期刊介绍: Drug Delivery is an open access journal serving the academic and industrial communities with peer reviewed coverage of basic research, development, and application principles of drug delivery and targeting at molecular, cellular, and higher levels. Topics covered include all delivery systems including oral, pulmonary, nasal, parenteral and transdermal, and modes of entry such as controlled release systems; microcapsules, liposomes, vesicles, and macromolecular conjugates; antibody targeting; protein/peptide delivery; DNA, oligonucleotide and siRNA delivery. Papers on drug dosage forms and their optimization will not be considered unless they directly relate to the original drug delivery issues. Published articles present original research and critical reviews.
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