Abstract
In normal rats, T3 glucuronide (T3G) is the
major biliary T3 metabolite, but excretion of T3 sulfate (T3S) is
greatly increased after inhibition of type I deiodinase, e.g. with
6-propyl-2-thiouracil (PTU). In this study, the fate of the T3
conjugates excreted with bile was studied to assess the significance of a putative enterohepatic circulation of T3 in rats.
Conventional (CV) or intestine-decontaminated (ID) rats received iv [125I]T3G or [125I]T3S, the latter usually after pretreatment with PTU (1 mg/100 g BW). Radioactivity in plasma and
bile or feces was analyzed by Sephadex LH-20 chromatography
and HPLC. Within 1 h, 88% of injected T3G was excreted in
bile of CV or ID rats, independent of PTU. About 75% of the
injected T3S was excreted within 4 h in PTU-treated rats, in
contrast to only 20% in controls. Up to 13 h after iv administration of T3G or T3S (+PTU) to intact ID and CV rats, fecal
radioactivity consisted of more than 90% T3 in all CV rats, 95%
of T3S in T3S-injected ID rats, and 30% T3 and 67% T3G in
T3G-injected ID rats. In overnight-fasted CV rats injected with
T3G, total plasma radioactivity rapidly declined until a nadir of
0.10% dose/ml at about 2.5 h, but radioactivity reappeared with
a broad maximum of 0.12% dose/ml between 5.5-10 h. In the
latter phase, plasma radioactivity consisted of predominantly I"
and T3 in a ratio of 2:1. Reabsorption was diminished in fed CV
rats and prevented in ID rats. Plasma T3 4-10 h after iv T3G
injection to overnight-fasted CV rats was 12, 2, and 3 times
higher than that in bile-diverted rats, fed CV rats, and ID rats,
respectively, and similar to that 4 h after the injection of T3
itself. Total plasma radioactivity as well as plasma T3 6-13 h
after iv administration T3S in PTU-treated rats were significantly increased in CV us. ID rats, e.g. T3 0.016% us. 0.005%
dose/ml. These results demonstrate a significant enterohepatic
circulation of T3 in rats in which bacterial hydrolysis of T3
conjugates excreted with bile plays an important role. {Endocrinology 125: 2822-2830,1989)
major biliary T3 metabolite, but excretion of T3 sulfate (T3S) is
greatly increased after inhibition of type I deiodinase, e.g. with
6-propyl-2-thiouracil (PTU). In this study, the fate of the T3
conjugates excreted with bile was studied to assess the significance of a putative enterohepatic circulation of T3 in rats.
Conventional (CV) or intestine-decontaminated (ID) rats received iv [125I]T3G or [125I]T3S, the latter usually after pretreatment with PTU (1 mg/100 g BW). Radioactivity in plasma and
bile or feces was analyzed by Sephadex LH-20 chromatography
and HPLC. Within 1 h, 88% of injected T3G was excreted in
bile of CV or ID rats, independent of PTU. About 75% of the
injected T3S was excreted within 4 h in PTU-treated rats, in
contrast to only 20% in controls. Up to 13 h after iv administration of T3G or T3S (+PTU) to intact ID and CV rats, fecal
radioactivity consisted of more than 90% T3 in all CV rats, 95%
of T3S in T3S-injected ID rats, and 30% T3 and 67% T3G in
T3G-injected ID rats. In overnight-fasted CV rats injected with
T3G, total plasma radioactivity rapidly declined until a nadir of
0.10% dose/ml at about 2.5 h, but radioactivity reappeared with
a broad maximum of 0.12% dose/ml between 5.5-10 h. In the
latter phase, plasma radioactivity consisted of predominantly I"
and T3 in a ratio of 2:1. Reabsorption was diminished in fed CV
rats and prevented in ID rats. Plasma T3 4-10 h after iv T3G
injection to overnight-fasted CV rats was 12, 2, and 3 times
higher than that in bile-diverted rats, fed CV rats, and ID rats,
respectively, and similar to that 4 h after the injection of T3
itself. Total plasma radioactivity as well as plasma T3 6-13 h
after iv administration T3S in PTU-treated rats were significantly increased in CV us. ID rats, e.g. T3 0.016% us. 0.005%
dose/ml. These results demonstrate a significant enterohepatic
circulation of T3 in rats in which bacterial hydrolysis of T3
conjugates excreted with bile plays an important role. {Endocrinology 125: 2822-2830,1989)
| Original language | English |
|---|---|
| Pages (from-to) | 2822-2830. |
| Journal | Endocrinology |
| Volume | 125 |
| DOIs | |
| Publication status | Published - 1 Dec 1989 |
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