碱生物碱在羔羊体外胃肠道组织的被动吸收及采后分布

K.A. Froehlich, A.W. Greer
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摘要

洛林生物碱具有抗菌和驱虫特性,对哺乳动物的毒性很低。洛林有几种已知的衍生物;n -甲酰基洛林(NFL)、n -乙酰洛林(NAL)、n -乙酰洛林(NANL)、n -甲基洛林(NML)和洛林碱。然而,这些物质必须到达皱胃或肠道,然后被吸收,才能产生任何潜在的影响。因此,确定了在离体胃肠道组织中的被动吸收和在羔羊组织中的分布。实验1:取离体羔羊(n = 6)胃肠道组织,置于Ussing chamber。在供体室中加入约1 034µg/g的碱液和22.1µg/mL的咖啡因,测量0、0.5、1和2小时的碱液通量。试验2:选取2只12周龄羔羊,连续2次给药52.5 mg/kg BW的乳酸菌碱,屠宰测定其在胃肠道、脏器和血液中的分布。回肠被动吸收5%,瘤胃或皱胃组织被动吸收2%。碱基和NFL被所有组织被动吸收,NAL和NANL仅穿过小肠组织。令人惊讶的是,没有咖啡因穿过任何组织。血浆中含有洛碱和少量的NFL,肝脏和肾脏中也发现了洛碱。结果表明,要么大部分的碱液没有被被动吸收,要么由于缺乏咖啡因的吸收而影响了膜的完整性。
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Passive absorption across gastrointestinal tissues in vitro and postharvest distribution of loline alkaloid in lambs

Loline alkaloid has suggested antimicrobial and anthelmintic properties with very low mammalian toxicity. There are several known derivatives of loline; N-formyl loline (NFL), N-acetyl loline (NAL), N-acetyl norloline (NANL), N-methyl loline (NML), and loline base. However, these must reach the abomasum or intestine and then be absorbed to have any potential effect. Therefore, passive absorption in isolated gastrointestinal tissues and distribution in the tissue of lambs were determined. Experiment 1: Lamb (n = 6) isolated gastrointestinal tissues were removed and mounted in an Ussing chamber. Approximately, 1 034 µg/g of loline and 22.1 µg/mL of caffeine were added to the donor chamber to measure loline flux at 0, 0.5, 1, and 2 hours. Experiment 2: Two, 12-week-old lambs were dosed with 52.5 mg/kg BW loline twice and were slaughtered to determine the distribution in gastrointestinal, organs, and blood. Passive absorption was 5% in ileum, <2% in ruminal or abomasal tissues. Loline base and NFL were passively absorbed across all tissues, with NAL and NANL only crossing small intestine tissues. Surprisingly, no caffeine crossed any tissues. Loline base and small amounts of NFL were in blood plasma, and loline base was also found in liver and kidneys. Results indicate either the majority of loline is not passively absorbed or membrane integrity was affected as suggested by lack of caffeine absorption.

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