肌内注射棕榈酸结合的外显子素-4负载多囊脂质体,可实现长效并提高原位稳定性。

Expert opinion on drug delivery Pub Date : 2024-01-01 Epub Date: 2024-01-31 DOI:10.1080/17425247.2024.2305110
Huixian Tian, Minsi Chang, Yanlin Lyu, Nan Dong, Nini Yu, Tian Yin, Yu Zhang, Haibing He, Jingxin Gou, Xing Tang
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引用次数: 0

摘要

背景:埃克森丁-4(Ex4)在人体内的半衰期为 2.4 小时,是一种治疗糖尿病的有效药物。此外,目前在临床上使用或正在开发的 E×4 制剂存在稳定性问题。本研究制备并纯化了棕榈酸修饰的 E×4(Pal-Ex4),以延长 Ex4 的半衰期。此外,还进一步设计和优化了 Pal-Ex4-MVLs 作为肌肉注射的长效给药系统:方法:通过两步双重乳化过程将 Pal-Ex4 包裹在多囊脂质体(MVLs)中。方法:通过两步双乳化工艺将 Pal-Ex4 包裹在多囊脂质体(MVLs)中,然后对配制的产品进行囊泡大小、包裹效率、体外和体内评估:结果:成功制备了Pal-Ex4-MVLs,其包封效率高达99.18%。通过对 Sprague-Dawley 大鼠进行单次肌肉注射,Pal-Ex4-MVLs 可在 168 小时内维持稳定的血浆浓度,半衰期延长(77.28 ± 12.919 小时),相对生物利用度提高(664.18%)。MVL 通过稳定保留和缓慢释放保护了 E×4。这种方法大大提高了肌肉注射药物的原位稳定性:结论:棕榈酸改性工艺与 MVLs 的结合为 E×4 提供了双重保护,对于其他具有高药物生物活性的亲水性蛋白质/多肽负载型缓释给药系统来说是一种很有前途的策略。
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Intramuscular injection of palmitic acid-conjugated Exendin-4 loaded multivesicular liposomes for long-acting and improving in-situ stability.

Background: Exendin-4 (Ex4) is a promising drug for diabetes mellitus with a half-life of 2.4 h in human bodies. Besides, the Ex4 formulations currently employed in the clinic or under development have problems pertaining to stability. In this study, palmitic acid-modified Ex4 (Pal-Ex4) was prepared and purified to extend the half-life of Ex4. In addition, Pal-Ex4-MVLs were further designed and optimized as a long-acting delivery system for intramuscular injection.

Methods: Pal-Ex4 was encapsulated within multivesicular liposomes (MVLs) via a two-step double emulsification process. The formulated products were then assessed for their vesicle size, encapsulation efficiency, and in vitro and in vivo.

Results: Pal-Ex4-MVLs with a notable encapsulation efficiency of 99.18% were successfully prepared. Pal-Ex4-MVLs, administered via a single intramuscular injection in Sprague-Dawley rats, sustained stable plasma concentrations for 168 h, presenting extended half-life (77.28 ± 12.919 h) and enhanced relative bioavailability (664.18%). MVLs protected Ex4 through providing stable retention and slow release. This approach considerably improved the in-situ stability of the drug for intramuscular administration.

Conclusions: The combination of palmitic acid modification process with MVLs provides dual protection for Ex4 and can be a promising strategy for other hydrophilic protein/polypeptide-loaded sustained-release delivery systems with high drug bioactivity.

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