Nankei Aoyama scite author profile

Nankei Aoyama

5Publications

21Citation Statements Received

15Citation Statements Given

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Cleveland Clinic, Jikei University School of Medicine

Publications

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Transcellular transport of organic anions in the isolated perfused rat liver: The differential effects of monensin and colchicine

Aoyama

Ohya

Chandler

et al. 1991

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Nonbile salt cholephiles and bile salts are two classes of organic anions that are efficiently taken up and excreted by the liver. Recent evidence suggests that a microtubular system-dependent, colchicine-sensitive transcellular pathway may transport both classes of these ligands. The relationship of this pathway to flux rates, however, remains unclear. Some structural evidence suggests an important role for a Golgi-associated vesicular system. Monensin, like colchicine, is a perturbing agent that is believed to target primarily Golgi and related organelles. The effects of a minimal effective dose of both colchicine (0.06 mg to 0.12 mg/100 gm body wt) and monensin (0.6 mg/100 gm body wt) were examined in the isolated perfused rat liver in a single-pass mode. The nonbile salt cholephile, phenol red, was studied at two doses: 1 nmol and 5 mumol. Sodium taurocholate was studied at three doses: 2 nmol, 1 mumol and 5 mumol. Colchicine affected the transcellular transport for both classes of organic anions equally. Partially inhibitory effects on both anions occurred only at high ligand flux rates. In contrast, monensin greatly impaired the transport of nonbile salt cholephiles but had no influence on transcellular bile salt flux. We conclude that the monensin effect appears to define a distinct transcellular transport pathway for each of the two classes of organic anions.

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A novel transcellular transport pathway for non-bile salt cholephilic organic anions

Aoyama

Tokumo

Ohya

et al. 1991

American Journal of Physiology-Gastrointestinal and Liver Physi

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Non-bile salt cholephilic organic anions comprise a single class of nonhomologous ligands having a range of hydrophobicity. Hydrophobicity enhances the hepatic extraction of cholephiles as well as their partitioning into secreted biliary lipid particles. When hydrophobicity is correlated with patterns of biliary excretion for studying transcellular transport, however, the more hydrophobic probes are unsuitable. Specifically, with the isolated perfused rat liver technique, the excretory times for sulfobromophthalein and rose bengal were significantly longer compared with that for the much more hydrophilic analogue phenol red (PR), which showed only a single, nearly symmetrical excretory peak at 10 min. Colchicine affected the apparently well-defined PR pathway only at a saturation dose (10,000 times the tracer dose). In contrast, the effect of a different perturbant, monensin, was striking at a tracer dose of PR, but was less evident at a saturation dose. The combined administration of colchicine and monensin had no additive inhibitory effect on PR excretion at tracer doses. At a saturation dose of PR, where monensin is less inhibiting, however, a significant additive inhibitory effect was observed.(ABSTRACT TRUNCATED AT 250 WORDS)

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Hepatic extraction of organic anions in the rat depends on ligand hydrophobicity

Tokumo

Aoyama

Busch

et al. 1991

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Non-bile-salt cholephilic organic anions are efficiently taken up by the liver. Recent work from our group has suggested the possible importance of relative hydrophobicity among various organic anions in hepatic uptake. To further validate and clarify this, we studied hepatic extraction of five different cholephilic dyes using the isolated perfused rat liver in single-pass mode. Albumin binding affinities and capacities for each of the ligands were measured in vitro to permit evaluation of in vivo interactions for each of them over a spectrum of unbound ligand concentrations. As expected, a strong positive correlation was found between ligand hydrophobicity and the relative degree of albumin binding affinity and capacity. Using appropriate experimental conditions, we also found a strong positive correlation between hepatic extraction efficiency for a given ligand and both its hydrophobicity and its unbound concentration. These data indicate that where the unbound ligand concentration is significant, the greater the ligand hydrophobicity, the greater is its efficiency of hepatic extraction. We conclude that hepatic extraction efficiency for non-bile-salt cholephilic organic anions depends on a combination of ligand hydrophilic/hydrophobic balance and the availability of the unbound ligand for uptake.

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The effect of bilirubin on biliary lipid secretion: Analysis by horseradish peroxidase associated intrahepatic vesicular transport system

et al. 1988

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The mechanism of biliary lipid secretion is still controversial and there is no definite information regarding how bilirubin inhibits biliary phospholipid and cholesterol secretions without affecting bile salt secretion. In this study, the effects of bilirubin on intrahepatic vesicular transport and biliary lipid secretion were examined using bile-fistula rats. Horseradish peroxidase (HRP) was used as a tracer of intrahepatic vesicular transport. Bilirubin (5 mg/100 g BW) and/or HRP (5 mg/100 gBW) were injected through the mesenteric vein. Bile flow, biliary bile acid, biliary phospholipid and cholesterol outputs were examined in saline, HRP and HRP + bilirubin groups, respectively. Bile flow and biliary bile acid output were not affected by bilirubin administration. Biliary phospholipid and cholesterol as well as biliary HRP outputs were inhibited just after bilirubin administration, 42.8 +/- 6.1 SD% 47.7 +/- 5.1 SD%, and 33.4 +/- 3.8 SD%, respectively. These results suggested the participation of intrahepatic vesicular transport system in the inhibition of biliary lipid secretion by bilirubin and in its secretory mechanism.

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Role of the spleen on liver fibrogenesis in experimental liver fibrosis.

Miyazaki¹,

Sata²,

Kawabe³

et al. 1988

Acta hepatologica Japonica

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Nankei Aoyama

Transcellular transport of organic anions in the isolated perfused rat liver: The differential effects of monensin and colchicine

A novel transcellular transport pathway for non-bile salt cholephilic organic anions

Hepatic extraction of organic anions in the rat depends on ligand hydrophobicity

The effect of bilirubin on biliary lipid secretion: Analysis by horseradish peroxidase associated intrahepatic vesicular transport system

Role of the spleen on liver fibrogenesis in experimental liver fibrosis.

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