Malic enzyme and glucose 6-phosphate dehydrogenase gene expression increases in rat liver cirrhogenesis

The intestinal absorption of orally administered propranolol is essentially complete, and no metabolism of this drug occurs in the gut. 1,2) After the oral administration of propranolol, the liver is the principal site of extensive pre-systemic and systemic metabolism, and less than 1% of the intact drug is found in the urine.1,3) However, Bianchetti et al. showed that the area under the concentration-time curve for orally administered propranolol in renal failure patients not on hemodialysis is 7-to 8-fold higher than that in healthy volunteers.4) The pharmacokinetics of propranolol has been extensively investigated using uranyl nitrate-induced renal failure model rats. 5,6) These studies showed increased bioavailability and reduced hepatic first-pass extraction of propranolol in rats with renal failure, although the precise biochemical and/or physiological mechanism for the decreased presystemic clearance is unclear. 7,8) Because changes in government regulations regarding the production of radioactive substances have made uranyl nitrate less available, we investigated the mechanisms responsible for the increased bioavailability of propranolol in rats with cisplatin-induced renal failure.9) The hepatic intrinsic clearance of propranolol was not significantly altered in rats with renal failure as compared with control rats. However, hepatic first-pass extraction of propranolol was dose-dependent and saturable in both renal failure and control rats, and the initial absorption rate of the drug from the intestine in rats with renal failure was significantly greater than that in control rats. Accordingly, the increased bioavailability of propranolol in rats with cisplatin-induced renal dysfunction is mainly a result of the increased initial absorption rate in the intestine followed by the partial saturation of hepatic first-pass metabolism. 9)The mechanism responsible for the increased bioavailability of propranolol in bilateral ureter-ligated (BUL) rats is different from that in the rats with cisplatin-induced renal failure.2,10) That is, Laganiére and Shen investigated the pharmacokinetics of intravenously and orally administered propranolol in BUL rats, and showed that the bioavailability is increased in BUL rats as compared with control rats.2) They reported that the gastrointestinal absorption of propranolol is not altered in BUL rats as compared with control rats. We also investigated the pharmacokinetics of propranolol in BUL rats, and confirmed that the intestinal absorption rate of propranolol in BUL rats was similar to that in control rats. 10)Therefore, the absorption rate-dependent decrease in hepatic first-pass clearance of the drug due to saturation kinetics was marginal in BUL rats. On the other hand, we found that the blood concentrations of propranolol following intra-portal infusion in BUL rats were significantly higher than those in control rats. 10) Therefore, the increased bioavailability of propranolol in BUL rats was attributed to diminished hepatic first-pass metabolism. The activity of CYP2...

show abstract

“…15) In addition, G-6-PD activity was increased in rats with liver injury produced by dimethylnitrosamine.…”

Section: Discussionmentioning

confidence: 98%

Mechanism Responsible for the Decreased Hepatic NADPH Generation Rate in Rats with Bilateral Ureter Ligation-Induced Renal Failure

Higashi

Urai

Taguchi

et al. 2005

Biological & Pharmaceutical Bulletin

View full text Add to dashboard Cite

show abstract

“…Both activities are not essential for cellular NADPH maintenance. However, cytosolic ME activity is increased in rat liver cirrhogenesis [88] and affected in acute hepatic injury [89], presumably by providing NADPH for detoxification reactions. Like IDPc, cytosolic ME is also not up-regulated in mouse cells deleted for G6PD [67].…”

Section: Two Nadpmentioning

confidence: 97%

The power to reduce: pyridine nucleotides – small molecules with a multitude of functions

Pollak

Dölle

Ziegler

2007

Biochemical Journal

638

550

View full text Add to dashboard Cite

The pyridine nucleotides NAD and NADP play vital roles in metabolic conversions as signal transducers and in cellular defence systems. Both coenzymes participate as electron carriers in energy transduction and biosynthetic processes. Their oxidized forms, NAD + and NADP + , have been identified as important elements of regulatory pathways. In particular, NAD + serves as a substrate for ADP-ribosylation reactions and for the Sir2 family of NAD + -dependent protein deacetylases as well as a precursor of the calcium mobilizing molecule cADPr (cyclic ADP-ribose). The conversions of NADP + into the 2 -phosphorylated form of cADPr or to its nicotinic acid derivative, NAADP, also result in the formation of potent intracellular calcium-signalling agents. Perhaps, the most critical function of NADP is in the maintenance of a pool of reducing equivalents which is essential to counteract oxidative damage and for other detoxifying reactions. It is well known that the NADPH/NADP + ratio is usually kept high, in favour of the reduced form. Research within the past few years has revealed important insights into how the NADPH pool is generated and maintained in different subcellular compartments. Moreover, tremendous progress in the molecular characterization of NAD kinases has established these enzymes as vital factors for cell survival. In the present review, we summarize recent advances in the understanding of the biosynthesis and signalling functions of NAD(P) and highlight the new insights into the molecular mechanisms of NADPH generation and their roles in cell physiology.

show abstract

“…TAA undergoes an extensive metabolism to acetamide shortly after administration and to the hepatotoxic metabolite TAA-S-oxide by the mixed function oxidase system [2][3][4] . Free radical-mediated lipid peroxidation contributes to the development of TAAinduced liver fibrosis [5,6] . In chronic TAA intoxication, substantial liver fibrosis and prominent regenerative nodules develop after 3 mo of TAA administration and are associated with portal hypertension and the hyperdynamic circulation characteristic of liver cirrhosis [7] .…”

Section: Introductionmentioning

confidence: 99%

Co-administration of cyclosporine A alleviates thioacetamide-induced liver injury

Fan

Weng²

2005

WJG

View full text Add to dashboard Cite

AIM:To investigate the effects of cyclosporine A (CsA) on thioacetamide (TAA)-induced liver injury. METHODS:CsA was co-administrated (7.5 g/kg body weight per day, i.p.) into rat to investigate the role of CsA on TAA-(200 mg/kg body weight per 3 d for 30 d, i.p.) induced liver injury. RESULTS:The data show that TAA caused liver fibrosis in rat after 30 d of treatment. CsA alleviates the morphological changes of TAA-induced fibrosis in rat liver. The blood glutamyl oxaloacetic transaminase (GOT)/glutamyl pyruvic transaminase (GPT) in the TAA-injury group is elevated compared to that of the normal rat. Compared with the TAA-injury group, the blood GOT/GPT and TGF1 (by RT-PCR analysis) are reduced in the CsA plus TAA-treated rat. The level of the transforming growth factor receptor I (TGF-R1) in the CsA plus TAA-treated group shows higher than that in the TAA only group, but shows a lower level of the fibroblast growth factor receptor 4 (FGFR4) in the CsA plus TAA-treated group, when using the Western blot analysis. After immunostaining of the frozen section, TGF-R1 and FGFR4 are more concentrated in rat liver after CsA plus TAA injury. CONCLUSION:This result suggests that CsA has an alleviated effect on TAA-induced liver injury by increasing the multidrug resistance P-glycoprotein and could be through the regulation of TGF-R1 and FGFR4.

show abstract

Malic enzyme and glucose 6-phosphate dehydrogenase gene expression increases in rat liver cirrhogenesis

Cited by 41 publications

References 33 publications

Mechanism Responsible for the Decreased Hepatic NADPH Generation Rate in Rats with Bilateral Ureter Ligation-Induced Renal Failure

Mechanism Responsible for the Decreased Hepatic NADPH Generation Rate in Rats with Bilateral Ureter Ligation-Induced Renal Failure

The power to reduce: pyridine nucleotides – small molecules with a multitude of functions

Co-administration of cyclosporine A alleviates thioacetamide-induced liver injury

Contact Info

Product

Resources

About