肠淋巴管在两种高度亲脂性胆固醇酯转移蛋白抑制剂（CP524,515 和 CP532,623）吸收中的作用。

The role of the intestinal lymphatics in the absorption of two highly lipophilic cholesterol ester transfer protein inhibitors (CP524,515 and CP532,623).

机构信息

Drug Delivery, Disposition and Dynamics, Monash Institute of Pharmaceutical Sciences, Monash University, 381 Royal Parade, Parkville, VIC, 3052, Australia.

出版信息

Pharm Res. 2010 May;27(5):878-93. doi: 10.1007/s11095-010-0083-0. Epub 2010 Mar 11.

DOI:10.1007/s11095-010-0083-0

PMID:20221896

Abstract

PURPOSE

To evaluate the potential role of intestinal lymphatic transport in the absorption and oral bioavailability of members of an emerging class of anti-atherosclerosis drugs (CETP inhibitors). CP524,515 and CP532,623 are structurally related with eLogD(7.4) >5; however, only CP524,515 (and not CP532,623) had sufficient solubility (>50 mg/g) in long-chain triglyceride (LCT) to be considered likely to be lymphatically transported.

METHODS

CP524,515 and CP532,623 were administered intravenously and orally to fasted or fed lymph-cannulated or non-cannulated dogs. Oral bioavailability and lymphatic transport of drug (and triglyceride) was subsequently quantified.

RESULTS

Both CETP inhibitors were substantially transported into the lymphatic system (>25% dose) in fed and fasted dogs. Food enhanced oral bioavailability (from 45 to 83% and 44 to 58% for CP524,515 and CP532,623, respectively) and the proportion of the absorbed dose transported via the lymph (from 61 to 86% and from 68 to 83%, respectively). Lymphatic triglyceride transport was significantly lower in fed dogs administered CP532,623.

CONCLUSION

Intestinal lymphatic transport is the major absorption pathway for CP524,515 and CP532,623, suggesting that a LCT solubility >50 mg/g is not an absolute requirement for lymphatic transport. The effect of CP532,623 on intestinal lipid transport may suggest a role in the activity/toxicity profiles of CETP inhibitors.

摘要

目的

评估肠淋巴转运在新兴抗动脉粥样硬化药物（CETP 抑制剂）类成员吸收和口服生物利用度中的潜在作用。CP524,515 和 CP532,623 结构相关，eLogD(7.4)>5；然而，只有 CP524,515（而非 CP532,623）在长链甘油三酯（LCT）中的溶解度（>50mg/g）足以被认为可能被淋巴转运。

方法

CP524,515 和 CP532,623 分别经静脉内和口服给予禁食或进食的淋巴管插管或非插管犬。随后定量评估药物（和甘油三酯）的口服生物利用度和淋巴转运。

结果

在禁食和进食犬中，两种 CETP 抑制剂均大量被转运至淋巴系统（>25%剂量）。进食增强了口服生物利用度（CP524,515 和 CP532,623 分别从 45%增加至 83%和从 44%增加至 58%）和吸收剂量经淋巴转运的比例（CP524,515 和 CP532,623 分别从 61%增加至 86%和从 68%增加至 83%）。给予 CP532,623 的进食犬的淋巴甘油三酯转运显著降低。

结论

肠淋巴转运是 CP524,515 和 CP532,623 的主要吸收途径，这表明 LCT 溶解度>50mg/g 并非淋巴转运的绝对要求。CP532,623 对肠脂质转运的影响可能提示其在 CETP 抑制剂的活性/毒性特征中的作用。

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肠淋巴管在两种高度亲脂性胆固醇酯转移蛋白抑制剂（CP524,515 和 CP532,623）吸收中的作用。

The role of the intestinal lymphatics in the absorption of two highly lipophilic cholesterol ester transfer protein inhibitors (CP524,515 and CP532,623).

机构信息

出版信息

PURPOSE

METHODS

RESULTS

CONCLUSION

目的

方法

结果

结论

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