Articles: ursodeoxycholic-acid-therapeutic-use.
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Primary sclerosing cholangitis is a progressive chronic cholestatic liver disease that usually leads to the development of cirrhosis. Studies evaluating bile acids in the treatment of primary sclerosing cholangitis have shown a potential benefit of their use. However, no influence on patients survival and disease outcome has yet been proven. ⋯ We did not find enough evidence to support or refute the use of bile acids in the treatment of primary sclerosing cholangitis. However, bile acids seem to lead to a significant improvement in liver biochemistry. Therefore, more randomised trials are needed before any of the bile acids can be recommended for this indication.
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J. Clin. Gastroenterol. · May 2010
Controlled Clinical TrialBezafibrate treatment of primary biliary cirrhosis following incomplete response to ursodeoxycholic acid.
Ursodeoxycholic acid (UDCA) is the only current pharmacologic treatment for primary biliary cirrhosis (PBC). However, some patients show persistent liver biochemical abnormalities even after 6 to 12 months treatment. Bezafibrate retard is a commonly used medication for hyperlipidemia. In Japanese studies, it was found to lower liver enzyme levels, apparently through its action on multiple drug resistance gene 3, a transport element of the ATP-dependent bile secretion system, and on peroxisome proliferator-activated receptor-alpha. The aim of this study was to evaluate the effect of adding bezafibrate to the treatment regimen in patients with PBC and a partial response to UDCA. ⋯ Combination therapy with bezafibrate and UDCA improves the biochemical profile of patients with PBC who respond only partially to UDCA. A larger controlled study is needed to evaluate the clinical implications of these findings.
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Liver transplantation has become a widely accepted form of treatment for numerous end-stage liver diseases. Bile acids may decrease allograft rejection after liver transplantation by changing the expression of major histocompatibility complex class molecules in bile duct epithelium and central vein endothelium. ⋯ We did not find evidence to support or refute bile acids for liver-transplanted patients. Further randomised trials are necessary before bile acids can be recommended to liver-transplanted patients.
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Clin Neuropharmacol · Jan 2010
Randomized Controlled Trial Clinical TrialSafety, tolerability, and cerebrospinal fluid penetration of ursodeoxycholic Acid in patients with amyotrophic lateral sclerosis.
Amyotrophic lateral sclerosis is a progressive degenerative disease, which typically leads to death in 3 to 5 years. Neuronal cell death offers a potential target for therapeutic intervention. Ursodeoxycholic acid is a cytoprotective, endogenous bile acid that has been shown to be neuroprotective in experimental Huntington and Alzheimer diseases, retinal degeneration, and ischemic and hemorrhagic stroke. The objective of this research was to study the safety and the tolerability of ursodeoxycholic acid in amyotrophic lateral sclerosis and document effective and dose-dependent cerebrospinal fluid penetration. ⋯ These results show excellent safety and tolerability of ursodeoxycholic acid. The drug penetrates the cerebrospinal fluid in a dose-dependent manner. A large, placebo-controlled clinical trial is needed to assess the efficacy of ursodeoxycholic acid in treating amyotrophic lateral sclerosis.
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A decrease of hepatocellular phosphatidylcholine (PC) is associated with hepatic injury, e.g., in nonalcoholic steatohepatitis (NASH). Therefore, we evaluated the hepatoprotective effect of a PC-precursor lipid specifically targeted to the liver. We synthesized the bile acid-phospholipid conjugate ursodeoxycholyl lysophosphatidylethanolamide (UDCA-LPE), which was designed to target PC to hepatocytes by way of bile-acid transport systems. We synthesized a fluorescently labeled analogue UDCA-6-[(7-nitro-2-1,3-benzoxadiazol-4-yl)amino]hexanoyl PE (UDCA-NBDPE) for uptake and metabolism studies. Unexpectedly, the majority of UDCA-NBDPE was still intact and not hydrolyzed efficiently in HepG2 cells. For targeting in vivo, NBD fluorescence from UDCA-NBDPE-injected mice was recovered in the liver the most, whereas injection of NBDPE alone resulted in an even distribution in liver, kidneys, and intestine. Cytoprotection by UDCA-LPE was tested in starvation and tumor necrosis factor alpha (TNF-alpha) apoptosis models using HepG2 cells. Only the intact UDCA-LPE was able to persistently stimulate growth after 36 to 120-hour starvation, and significantly inhibited TNF-alpha-induced apoptosis. In both models, LPC, LPE, UDCA, or UDCA added with LPE exhibited weak to no cytoprotection. UDCA-LPE stabilized mitochondrial membranes by lowering mitochondrial membrane potential. Western blot analyses of phosphorylated Akt and glycogen synthase kinase-3 (GSK-3)alpha/beta revealed that UDCA-LPE activated phosphatidyl inositol 3-kinase (PI3K)/Akt signaling pathways. The PI3K inhibitor LY294002 or Akt small interfering (si)RNA consistently inhibited the proproliferative effects of UDCA-LPE during starvation. The TNF-alpha death-receptor extrinsic pathway involves caspase 8 activation, which is inhibited by cellular FLICE-inhibitory protein (cFLIP); thus, cFLIP siRNA was employed in our studies. cFLIP siRNA was able to reverse the cytoprotective effects of UDCA-LPE during TNF-alpha-induced apoptosis, and UDCA-LPE concomitantly upregulated protein expression of cFLIP(L). ⋯ UDCA-LPE, which targeted the liver in vivo, elicited potent biological activities in vitro by stimulating hepatocyte growth and by inhibiting TNF-alpha-induced apoptosis. Thus, UDCA-LPE may be suitable for evaluation of treatment efficacy in NASH.