Eyssen H, Van Eldere J, Parmentier G, Huijghebaert S, Mertens J
J Steroid Biochem. 1985 Apr;22(4):547-54. doi: 10.1016/0022-4731(85)90176-1.
The fecal excretion of intraperitoneally injected 24-14C-labeled taurocholate (TCA), taurolithocholate (TLCA) and the respective 3-sulfate esters (TCA-3-S; TLCA-3-S), were compared in germfree (GF) rats, conventional (CV) rats, and in gnotobiotic rats associated with Clostridium Cl-8 or this same strain Cl-8 plus the bile desulfating Clostridium S1, respectively. TCA and TLCA were about two times more rapidly excreted by CV animals than by GF animals; the time required for 50% excretion of total label injected (t 1/2) was 6.6 days vs 14.9 for TCA, and 4.4 vs 8.9 for TLCA. In GF and in CV animals, TCA-3-S and TLCA-3-S were excreted more rapidly than their nonsulfated analogues; the t 1/2 values of TCA-3-S and TCA were 2.7 days vs 14.9 in GF rats, and 3.1 vs 6.6 days in CV animals. The t 1/2 values of TLCA-3-S and TLCA were 2.7 days vs 8.9 in GF rats, and 1.5 vs 4.4 days in CV rats. In gnotobiotic rats associated with Clostridium strains S1 + Cl-8, fecal bile salts were nearly 100% deconjugated and desulfated and the 50% excretion times of TCA-3-S and TLCA-3-S approximated to those of TCA and TLCA in GF animals. T 1/2 of TCA-3-S in gnotobiotic S1 + Cl-8 animals was 12.2 days vs 14.9 for TCA in GF animals. In gnotobiotic S1 + Cl-8 animals the t 1/2 of TLCA and TLCA-3-S was 12.5 and 11.0 days, respectively. These results illustrate clearly the important effect the intestinal microflora has upon the metabolic half-life of bile salts. Moreover, they demonstrate that desulfation of bile salts by the intestinal microflora takes place in intestinal segments from where a certain degree of reabsorption is still possible, and thus point to the fact that microbial desulfation is an important variable in the overall elimination of bile salts.
比较了无菌(GF)大鼠、普通(CV)大鼠以及分别与梭状芽孢杆菌Cl - 8或该菌株Cl - 8加胆汁脱硫梭状芽孢杆菌S1相关的悉生大鼠腹腔注射24 - 14C标记的牛磺胆酸盐(TCA)、牛磺石胆酸盐(TLCA)及其各自的3 - 硫酸酯(TCA - 3 - S;TLCA - 3 - S)后的粪便排泄情况。CV动物排泄TCA和TLCA的速度比GF动物快约两倍;注射的总标记物50%排泄所需时间(t1/2),TCA在CV动物中为6.6天,在GF动物中为14.9天;TLCA在CV动物中为4.4天,在GF动物中为8.9天。在GF和CV动物中,TCA - 3 - S和TLCA - 3 - S的排泄速度比其非硫酸化类似物快;在GF大鼠中,TCA - 3 - S和TCA的t1/2值分别为2.7天和14.9天,在CV动物中分别为3.1天和6.6天。在GF大鼠中,TLCA - 3 - S和TLCA的t1/2值分别为2.7天和8.9天,在CV大鼠中分别为1.5天和4.4天。在与梭状芽孢杆菌菌株S1 + Cl - 8相关的悉生大鼠中,粪便胆汁盐几乎100%去结合和脱硫,TCA - 3 - S和TLCA - 3 - S的50%排泄时间接近GF动物中TCA和TLCA的排泄时间。在悉生S1 + Cl - 8动物中,TCA - 3 - S的t1/2为12.2天,而在GF动物中TCA的t1/2为14.9天。在悉生S1 + Cl - 8动物中,TLCA和TLCA - 3 - S的t1/2分别为第12.5天和11.0天。这些结果清楚地说明了肠道微生物群对胆汁盐代谢半衰期的重要影响。此外,它们表明肠道微生物群对胆汁盐的脱硫发生在仍有一定程度重吸收可能的肠道段,因此表明微生物脱硫是胆汁盐整体消除中的一个重要变量。
