Kesisoglou Filippos, Zhou Simon Yuji, Niemiec Susan, Lee Jordan Wing, Zimmermann Ellen M, Fleisher David
Department of Pharmaceutical Sciences, College of Pharmacy, The University of Michigan, Ann Arbor, Michigan 48109-1065, USA.
Pharm Res. 2005 Aug;22(8):1320-30. doi: 10.1007/s11095-005-5376-3. Epub 2005 Aug 3.
Based on adherence to intestinal mucosa, intralumenally administered liposomal formulations of 5-aminosalicylate (5-ASA) and 6-mercaptopurine (6-MP) were studied for their potential to enhance local drug delivery to intestinal tissue for the treatment of inflammatory bowel disease.
5-ASA was encapsulated in standard phospholipid liposomes while 6-MP required encapsulation in nonphospholipid liposomes to obtain equivalent drug loading. Encapsulation efficiency was measured by size-exclusion chromatography/high-performance liquid chromatogtaphy (HPLC). Liposomal formulations or solution of the drugs were injected into unligated jejunum to compare pharmacokinetics and into ligated loops of rat ileum and colon to evaluate local delivery. Dextran sulfate and acetic acid induced colitis were used as models of lower intestinal inflammation. Plasma, tissue and luminal drug and metabolite levels were measured by liquid scintillation counting or HPLC.
Encapsulation efficiency of 6-MP was dependent on lipid content and composition. While liposomal encapsulation significantly reduced systemic absorption of 5-ASA this was not the case for 6-MP. Liposomal adherence to intestinal tissue resulted in increased tissue levels for 5-ASA; however, 6-MP local tissue levels were not improved compared to solution drug.
Nonphospholipid liposomes optimize encapsulation of 6-MP. While liposomal formulations show potential for local drug delivery to diseased bowel, drug physicochemical properties, absorption, and metabolic profiles dictate tissue-targeting potential. Liposomes reduce systemic availability from paracellular absorption of hydrophilic 5-ASA, but fail to improve local tissue delivery of 6-MP, a molecule absorbed by passive membrane permeation that undergoes extensive first- pass metabolism.
基于对肠黏膜的黏附性,研究经肠腔内给药的5-氨基水杨酸(5-ASA)和6-巯基嘌呤(6-MP)脂质体制剂增强局部药物向肠组织递送以治疗炎症性肠病的潜力。
5-ASA被包裹于标准磷脂脂质体中,而6-MP需要包裹于非磷脂脂质体中以获得等效载药量。通过尺寸排阻色谱/高效液相色谱(HPLC)测定包封率。将脂质体制剂或药物溶液注入未结扎的空肠以比较药代动力学,并注入大鼠回肠和结肠的结扎肠袢以评估局部递送。用硫酸葡聚糖和乙酸诱导的结肠炎作为下肠道炎症模型。通过液体闪烁计数或HPLC测量血浆、组织和肠腔内药物及代谢物水平。
6-MP的包封率取决于脂质含量和组成。虽然脂质体包封显著降低了5-ASA的全身吸收,但6-MP并非如此。脂质体对肠组织的黏附导致5-ASA的组织水平升高;然而,与溶液药物相比,6-MP的局部组织水平并未提高。
非磷脂脂质体优化了6-MP的包封。虽然脂质体制剂显示出向患病肠局部递送药物的潜力,但药物的物理化学性质、吸收和代谢谱决定了组织靶向潜力。脂质体降低了亲水性5-ASA经细胞旁吸收的全身可用性,但未能改善6-MP的局部组织递送,6-MP是一种通过被动膜渗透吸收并经历广泛首过代谢的分子。
