Biliary secretion of fluid-phase markers by the isolated perfused rat liver. Role of transcellular vesicular transport.

Lake, John R.; Ličko, Vojtech; Dyke, Rebecca W. Van; Scharschmidt, Bruce F.

doi:10.1172/jci112021

Cited by 95 publications

(46 citation statements)

References 33 publications

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“…The manner in which inulin could modulate either bile flow or bilirubin excretion following DAPM administration is presently unknown. However, we do not consider that the constant infusion and excretion of inulin appreciably altered pathways of bile formation because B:P ratios of control rats in our study were comparable to those observed in isolated perfused rat livers with recirculating perfusate (Lake et al, 1985;Krell et al, 1987) as well as in anesthetized rats with ligated renal pedicles and bolus injections of inulin (Shanker and Hogben, 1961;Lorenzini et al, 1986;Smith and Boyer, 1982). Furthermore, we consider the minor alterations in biliary parameters caused by constant inulin infusion to be insufficient to invalidate the DAPMinduced increases in inulin B:P ratios which occurred hours later (Fig.…”

Section: Discussioncontrasting

confidence: 54%

“…Studies using isolated segments of the rat bile duct have demonstrated that inulin can enter bile by diffusion through bile ducts/ ductules (Smith and Boyer, 1982). Perfusate to plasma ratios for solutes determined in the rat bile duct were comparable to those determined in isolated perfused livers (Lake et al, 1985;Lorenzini et al, 1986) or livers of anesthetized rats (Shanker and Hogben, 1961), which suggests that bile duct/ ductular TJs have similar permeability characteristics for inert solutes as canalicular TJs. P i and glucose are believed to enter bile via TJs (Handler et al, 1994;Krell et al, 1982), but solute movement through the paracellular route is restricted by both size and charge (Kan and Coleman, 1986;Smith and Boyer, 1982).…”

Section: Discussionmentioning

confidence: 73%

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Effects of methylenedianiline on tight junction permeability of biliary epithelial cells in vivo and in vitro

Cruz¹,

Liu²,

Kaphalia³

et al. 2007

Toxicology Letters

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Methylenedianiline (DAPM) is considered a cholangiodestructive toxicant in vivo. Increases in biliary inorganic phosphate (P i ) and glucose occur prior to biliary epithelial cell (BEC) injury, which could be due to increased paracellular permeability and/or impairment of P i and glucose uptake by BEC. To evaluate these possibilities, we induced mild injury [loss of BEC from major bile ducts (6 h), ultrastructural alterations in BEC mitochondria and Golgi cisternae (3 h), and striking increases in biliary P i and glucose (3-6 h)] with 25 mg DAPM/kg and then assessed temporal alterations in tight junction (TJ) permeability by measuring bile to plasma (B:P) ratios of [ 3 H]-inulin. Parameters maintained by hepatocytes in bile were unchanged (bile flow, bile acids, bilirubin) or only transiently perturbed (protein, glutathione). Minimal elevations in B:P ratios of inulin occurred temporally later (4 h) in DAPM-treated rats than increases in biliary P i and glucose. To confirm a direct effect of DAPM on BEC TJs, we measured transepithelial resistance (TER) and bi-ionic potentials of BEC monolayers prior to and after exposure to pooled (4 to 6) bile samples collected from untreated rats (Basal Bile) or rats treated with 50 mg DAPM/ kg (DAPM-Bile). BEC TJs were found to be cation selective. Exposure to DAPM-Bile for 1 h decreased TERs by ~35% and decreased charge selectivity of BEC TJs while exposure to Basal Bile had no effects. These observations indicate that DAPMBile impairs paracellular permeability of BEC in vitro. Further, our in vivo model suggests that increases in paracellular permeability induced by DAPM are localized to BEC because bile flow and constituents excreted by hepatocytes were unchanged; BEC damage was temporally correlated with increases in biliary P i and glucose; and elevations in B:P ratios of inulin were delayed and minimal.

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Section: Discussioncontrasting

confidence: 54%

Section: Discussionmentioning

confidence: 73%

Effects of methylenedianiline on tight junction permeability of biliary epithelial cells in vivo and in vitro

Cruz¹,

Liu²,

Kaphalia³

et al. 2007

Toxicology Letters

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“…Furthermore, with HDL, the increase in biliary plant sterol secretion was detected within 5-10 min after HDL was added to perfusions. This relatively rapid rate of plant sterol transport from HDL is consistent with the time of appearance in bile of radiolabeled UC after the intravenous injection of lipoproteins with radiolabeled UC in the intact rat (16) and may approximate the rate of transport of small water-soluble molecules from the blood into bile by a paracellular route (17). The mechanism of delivery and route of transit of cholesterol from the blood through the liver into bile has not been defined with any certainty.…”

Section: Discussionmentioning

confidence: 66%

High density lipoproteins, but not other lipoproteins, provide a vehicle for sterol transport to bile.

Robins¹,

Fasulo²

1997

J. Clin. Invest.

119

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Unesterified cholesterol (UC) that is taken up by the liver from lipoproteins is rapidly mixed by exchange with liver UC. Thus, it is not possible to quantitate the transport of UC from different lipoproteins into bile using radiolabeled UC. However, plant sterols do not exchange with UC and are secreted in bile with the same kinetics as UC. To compare the contribution to bile of sterols from different lipoproteins, we perfused isolated rat livers with VLDL, LDL, and HDL that were obtained from patients with hereditary phytosterolemia and were rich in plant sterols. After 30-min recirculating perfusions, hepatic concentrations of plant sterols were not different after different lipoproteins were perfused. However, biliary plant sterol secretion was markedly different: with the perfusion of either VLDL or LDL there was no increase in plant sterols in bile, but with perfusion of HDL, the secretion of plant sterols was increased two-to threefold ( P ϭ 0.0005). The increase in biliary plant sterols was detected 5-10 min after HDL was added to perfusates and was similarly large for each of three individual plant sterols that was tracked. Results show that when sterol transport from lipoproteins into bile can be determined, only HDL provides a vehicle for UC elimination in bile that is consistent with its putative function in reverse cholesterol transport. ( J. Clin. Invest. 1997. 99:380-384.)

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“…The accumulation of dextran around bile capillaries indicates the release of dextran into the capillary lumen. Dextran is known to be incorporated by hepatocytes via pinocytosis and to be secreted into the bile ducts (18). the monocyte-macrophage lineage was believed to be the major cell type functioning in the elimination of exogenous substances.…”

Section: Stimulation Of Uptake By Lpsmentioning

confidence: 99%

Uptake ability of hepatic sinusoidal endothelial cells and enhancement by lipopolysaccharide

Kamimoto¹,

Rung-ruangkijkrai²,

Iwanaga³

2005

Biomed. Res.

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The liver is one of the major organs that remove exogenous substances and waste products from the blood circulation. Hepatic macrophages (Kupffer cells) and sinusoidal endothelial cells are responsible for the scavenger function of the liver. The sinusoidal endothelial cells, called scavenger endothelial cells, are believed to take up only soluble substances and nanometer-sized particles under normal conditions, while Kupffer cells can ingest larger particles and whole cells. However, the sinusoidal endothelial cells may have the potential to take up considerably large particles under special conditions. In this morphological study, we compared the uptake ability between sinusoidal endothelial cells and Kupffer cells after intravenous injections of latex beads (20 nm, 100 nm and 500 nm in diameter), bovine serum albumin (BSA) and dextran. Under normal conditions, the sinusoidal endothelial cells vigorously took up 100-nm-sized latex beads as well as 20-nm latex beads. BSA and dextran were ingested by the endothelial cells but not the Kupffer cells. The administration of lipopolysaccharide (LPS), which mimics inflammation, stimulated the uptake by endothelial cells. The uptake of latex beads by Kupffer cells was also elevated under LPS-stimulated conditions, but the uptake of BSA and dextran by them was not. These findings suggest that the sinusoidal endothelial cells can ingest not only soluble substances but also larger particles than those expected, and their uptake ability is strengthened under inflammatory conditions.

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Biliary secretion of fluid-phase markers by the isolated perfused rat liver. Role of transcellular vesicular transport.

Cited by 95 publications

References 33 publications

Effects of methylenedianiline on tight junction permeability of biliary epithelial cells in vivo and in vitro

Effects of methylenedianiline on tight junction permeability of biliary epithelial cells in vivo and in vitro

High density lipoproteins, but not other lipoproteins, provide a vehicle for sterol transport to bile.

Uptake ability of hepatic sinusoidal endothelial cells and enhancement by lipopolysaccharide

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