Langguth P, Merkle H P, Amidon G L
ETH Department Pharmazie, Zürich, Switzerland.
Pharm Res. 1994 Apr;11(4):528-35. doi: 10.1023/a:1018962415287.
In this study the intestinal degradation and absorption of a synthetic pentapeptide, metkephamid, were investigated in the rat by determination of its wall permeabilities in the small and large intestine and the extent and mechanism of its intestinal degradation. The peptide was metabolized in the gut wall through contact with membrane-bound enzymes in the brush border membrane. The extent of metabolic inactivation depended on the intestinal segment investigated and decreased in the axial direction. No metabolism was found in the colon. The dimensionless wall permeabilities (Pw*), determined by single-pass perfusion, were also site dependent. Pw* was highest in the ileum [1.91 +/- 0.24, (SE); n = 4], followed by the jejunum (1.64 +/- 0.34; n = 4) and the colon (0.67 +/- 0.38; n = 4). Based on the permeability data alone and under the assumption of no presystemic metabolism, complete bioavailability would be predicted for metkephamid. However, following oral administration, the mean absolute bioavailability was only 0.22 +/- 0.065% (n = 3), indicating the overall dominance of degradation in the absorption process. Thus future strategies in oral peptide delivery should focus on increasing the stability of the peptide in the intestine by modifying the peptide structure and/or delivering the compound to an intestinal segment showing little or no enzymatic degradation.
在本研究中,通过测定合成五肽美替加米特在大鼠小肠和大肠中的肠壁通透性以及其肠道降解程度和机制,对其肠道降解和吸收进行了研究。该肽通过与刷状缘膜中的膜结合酶接触而在肠壁中代谢。代谢失活的程度取决于所研究的肠段,并沿轴向方向降低。在结肠中未发现代谢现象。通过单通道灌注测定的无量纲肠壁通透性(Pw*)也因部位而异。Pw*在回肠中最高[1.91±0.24,(标准误);n = 4],其次是空肠(1.64±0.34;n = 4)和结肠(0.67±0.38;n = 4)。仅根据通透性数据并在无首过代谢的假设下,预计美替加米特具有完全的生物利用度。然而,口服给药后,平均绝对生物利用度仅为0.22±0.065%(n = 3),表明降解在吸收过程中占总体主导地位。因此,未来口服肽递送的策略应集中于通过修饰肽结构和/或将化合物递送至显示很少或无酶降解的肠段来提高肽在肠道中的稳定性。
