Adaptive changes of hepatic bile salt transport in a model of reversible interruption of the enterohepatic circulation in the rat.

The reversibility and time course of the adaptive changes in hepatic bile salt transport related to modifications of the bile salt enterohepatic circulation and bile salt pool size have not been previously studied. For this reason a model of reversible interruption of entero-hepatic circulation was characterized in unrestrained rats, which allowed the study of changes in hepatic bile salt transport following bile salt pool depletion and subsequent restoration by either the de novo synthesis of bile acids or i.v. administration of exogenous taurocholate. Rats subjected to biliary drainage for 24 h through a transduodenal common bile duct cannula, followed by removal of the cannula and restoration of the enterohepatic circulation were studied at 24, 48 and 72 h. Neither light and electron microscopy examination nor plasma biochemical parameters showed evidence of necrosis, fibrosis, cholestasis or inflammatory changes. Maximum taurocholate secretory rate decreased to 50% following 24-h bile salt depletion. After restoration of the enterohepatic circulation maximum taurocholate secretory rate progressively increased to normal values at 72 h, following the normalization of the bile salt pool size, which had a similar composition compared with controls. The same effect was obtained when the native bile salt pool was substituted with exogenous taurocholate. Thus, adaptive down-regulation of hepatic bile salt transport capacity is a reversible process, related to restoration of entero-hepatic circulation and normalization of bile salt pool size.

Differential effects of haloperidol on negative symptoms in drug-naive schizophrenic patients: effects on plasma homovanillic acid.

After 5 weeks of haloperidol, positive symptoms in drug-naive schizophrenic patients substantially subsided. Negative symptoms, although with a different temporal pattern, decreased after the fifth week of haloperidol treatment; specifically, a decrease was seen in anhedonia and affective flattening, whereas avolition-apathy and attentional impairment presented no changes. Alogia showed a decrease during the third week and a trend to return to placebo scores during weeks 4 and 5. Changes in affective flattening, alogia and attentional impairment correlated with changes in positive symptoms. During placebo, plasma homovanillic acid (HVA) correlated with negative symptoms and with changes presented by negative symptoms between the first and the fifth treatment week. These data show that negative symptoms respond differentially to neuroleptics and suggest that avolition-apathy may represent a different behavioral component of the schizophrenia process.

Adaptive regulation of hepatic bile salt transport. Effect of prolonged bile salt depletion in the rat.

Exposure of the liver to increased bile salt flux can increase the bile salt maximum secretory rate (SRm), presumably through the induction of new transport sites. The converse, i.e., the down-regulation of SRm upon bile salt deprivation, has not been demonstrated. We examined the effects of bile salt depletion for 24 h and 48 h on taurocholate SRm and bromsulphalein (BSP) SRm, and on [14C]taurocholate binding to isolated liver surface membranes in unrestrained external biliary fistula rats. Taurocholate SRm was significantly decreased by 35% and 51% in 24-h-depleted and 48-h-depleted rats, respectively, compared with control, sham-operated rats. Maximal taurocholate concentration in bile was also significantly lower in bile salt-deprived rats. In contrast, BSP SRm was not significantly different between depleted animals and controls. Bile salt depletion for 24 h and 48 h did not significantly alter liver surface membrane protein recovery and membrane enzyme specific activity, including Na+ + K+-ATPase. Specific [14C]taurocholate binding to liver surface membranes was significantly decreased by 25% in 24-h-depleted rats compared with control rats. In contrast to taurocholate SRm, bile salt depletion for 48 h did not result in further reduction of specific taurocholate binding sites. This study demonstrates that taurocholate SRm progressively decreased in 24-h- and 48-h-bile salt-depleted rats, this being consistent with adaptive down-regulation of hepatic bile salt transport.(ABSTRACT TRUNCATED AT 250 WORDS)