Interaction of Phospholipid, Cholesterol, Beta-Carotene, and Vitamin C Molecules in Liposome-Based Drug Delivery Systems: An In Silico Study.

IF 2.1 Q3 PHARMACOLOGY & PHARMACY

Advances in Pharmacological and Pharmaceutical Sciences Pub Date : 2023-01-01 DOI:10.1155/2023/4301310

D Hudiyanti, V N R Putri, Y Hikmahwati, S M Christa, P Siahaan, D S B Anugrah

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Abstract

This paper investigates the interaction within a liposome-based drug delivery system in silico. Results confirmed that phospholipids, cholesterol, beta-carotene, and vitamin C in the liposome structures interact noncovalently. The formation of noncovalent interactions indicates that the liposomal structures from phospholipid molecules will not result in chemical changes to the drug or any molecules encapsulated within. Noncovalent interactions formed include (i) moderate-strength hydrogen bonds with interaction energies ranging from -73.6434 kJ·mol^-1 to -45.6734 kJ·mol^-1 and bond lengths ranging from 1.731 Å to 1.827 Å and (ii) van der Waals interactions (induced dipole-induced dipole and induced dipole-dipole interactions) with interaction energies ranging from -4.4735 kJ·mol^-1 to -1.5840 kJ·mol^-1 and bond lengths ranging from 3.192 Å to 3.742 Å. The studies for several phospholipids with short hydrocarbon chains show that changes in chain length have almost no effect on interaction energy, bond length, and partial atomic charge.

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磷脂、胆固醇、β -胡萝卜素和维生素C分子在脂质体药物传递系统中的相互作用:一项计算机研究。

本文研究了基于硅脂质体的给药系统内的相互作用。结果证实脂质体结构中的磷脂、胆固醇、β -胡萝卜素和维生素C非共价相互作用。非共价相互作用的形成表明磷脂分子的脂质体结构不会导致药物或其内包被的任何分子发生化学变化。形成的非共价相互作用包括(i)中等强度的氢键，相互作用能为-73.6434 kJ·mol-1 ~ -45.6734 kJ·mol-1，键长为1.731 Å ~ 1.827 Å; (ii)范德华相互作用(诱导偶极-诱导偶极和诱导偶极-偶极相互作用)，相互作用能为-4.4735 kJ·mol-1 ~ -1.5840 kJ·mol-1，键长为3.192 Å ~ 3.742 Å。对几种烃链较短的磷脂的研究表明，链长变化对相互作用能、键长和部分原子电荷几乎没有影响。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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