Design of Auto-Adaptive Drug Delivery System for Effective Delivery of Peptide Drugs to Overcoming Mucus and Epithelial Barriers

The AAPS Journal Pub Date : 2024-09-12 DOI:10.1208/s12248-024-00971-1

Ruihuan Ding, Yanping Li, Wei Zheng, Yiying Sun, Zhenyu Zhao, Houqian Zhang, Ranran Yuan, Aiping Wang, Kaoxiang Sun, Hongbo Wang, Yanan Shi

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Abstract

Oral administration of peptide represents a promising delivery route, however, it is hindered by the harsh gastrointestinal environment, leading to low in vivo absorption. In this study, auto-adaptive protein corona-AT 1002-cationic liposomes (Pc-AT-CLs) are constructed with the characteristic of hydrophilic and electrically neutral surface properties for the encapsulation of liraglutide. BSA protein corona is used to coat AT-CLs reducing the adherence of mucus, and may fall off after penetrating the mucus layer. Transmucus transport experiment demonstrated that the mucus penetration amount of Pc-AT-CLs are 1.45 times that of AT-CLs. After penetrating the mucus layer, AT-CLs complete transmembrane transport by the dual action of AT and cationic surface properties. Transmembrane transport experiment demonstrated that the apparent permeability coefficient (P_app) of AT-CLs is 2.03 times that of CLs. In vivo tests demonstrated that Pc-AT-CLs exhibited a significant hypoglycemic effect and enhanced the relative bioavailability comparing to free liraglutide. Pc-AT-CLs protect liraglutide from degradation, facilitate its absorption, and ultimately improve its oral bioavailability.

Graphical Abstract

In this study, AT-CLs (AT-1002 peptide attached to cationic liposomes) and coated with BSA (bovine serum albumin) together form Pc-AT-CLs. The purpose of simultaneously improved mucus permeating ability and transepithelial absorption. When the carrier penetrates the mucus, the BSA protein corona coating may fall off. Then, AT-CLs carriers possessing cationic and hydrophobic surfaces, which will facilitate uptake of intracellular and paracellular.

Fig: The schematic diagram of Pc-AT-CLs administration and the transport process through the mucus layer and epithelial barrier.

Abstract Image

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设计自动适应性给药系统，克服粘液和上皮屏障，有效输送多肽药物

口服多肽是一种很有前景的给药途径，但它受到恶劣的胃肠道环境的阻碍，导致体内吸收率较低。本研究构建了具有亲水性和电中性表面特性的自适应蛋白电晕-AT 1002阳离子脂质体（Pc-AT-CLs），用于包裹利拉鲁肽。BSA 蛋白冠被用于包裹 AT-CLs 以减少粘液的粘附性，并可在穿透粘液层后脱落。粘液转运实验表明，Pc-AT-CL 的粘液穿透量是 AT-CL 的 1.45 倍。AT-CL 穿透粘液层后，在 AT 和阳离子表面特性的双重作用下完成跨膜转运。跨膜转运实验表明，AT-CLs 的表观渗透系数（Papp）是 CLs 的 2.03 倍。体内试验表明，与游离利拉鲁肽相比，Pc-AT-CLs 具有显著的降血糖作用，并提高了相对生物利用度。Pc-AT-CLs 可保护利拉鲁肽不被降解，促进其吸收，最终提高其口服生物利用度。图解摘要在这项研究中，AT-CLs（阳离子脂质体上附着的 AT-1002 肽）与 BSA（牛血清白蛋白）包被在一起形成了 Pc-AT-CLs。其目的是同时提高粘液渗透能力和经上皮吸收能力。当载体穿透粘液时，BSA 蛋白电晕涂层可能会脱落。图：Pc-ATLs 给药及通过粘液层和上皮屏障的转运过程示意图。

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