obeticholic-acid and Liver-Diseases

Treatment with obeticholic acid (OCA) affects the blood lipid profile. Therefore, a meta-analysis of randomized controlled trials (RCTs) was performed to investigate the effects of OCA on blood lipids and lipoproteins.. The electronic databases of PubMed, Web of Science, SCOPUS, and Google Scholar were searched. The mean differences were meta-analyzed to obtain a pooled weighted mean difference (WMD) and the 95% CI across the trials using the Der Simonian and Laird random-effects method. Six (6) articles with 10 trials for low-density lipoprotein cholesterol (LDL-C), and 8 trials for high-density lipoprotein cholesterol (HDL-C), total cholesterol (TC), and triglycerides (TG) levels were included in the meta-analysis. . Most studies were conducted in patients with liver dysregulation (fatty liver, liver cancer). The pooled results showed that the levels of TC (WMD: 6.357 mg/dl) and LDL-C (WMD: 6.067 mg/dl) increased while TG (WMD: -22.417 mg/dl) decreased after treatment with OCA. A slight but significant decrease was also observed for HDL-C levels (WMD: -1.492 mg/dl). A significant non-linear response was observed only between the TG levels and the length of intervention. Larger reductions in TG levels were observed over intervention durations of less than 3 weeks, but regarding interventions for more than 3 weeks, the impact on TG was modest.. OCA administration causes significant increases in blood levels of TC and LDL-C while decreasing HDL-C and TG in humans. More study needed on liver cancer.

Topics: Chenodeoxycholic Acid; Humans; Lipids; Lipoproteins; Liver Diseases; Liver Neoplasms; Randomized Controlled Trials as Topic; Treatment Outcome

FXR agonists have demonstrated very promising clinical results in the treatment of liver disorders such as primary biliary cirrhosis (PBC), primary sclerosing cholangitis (PSC), and nonalcoholic steatohepatitis (NASH). NASH, in particular, is one of the last uncharted white territories in the pharma landscape, and there is a huge medical need and a large potential pharmaceutical market for a NASH pharmacotherapy. Clinical efficacy superior to most other treatment options was shown by FXR agonists such as obeticholic acid (OCA) as they improved various metabolic features including liver steatosis as well as liver inflammation and fibrosis. But OCA's clinical success comes with some major liabilities such as pruritus, high-density lipoprotein cholesterol (HDL

Topics: Chenodeoxycholic Acid; Humans; Ligands; Liver Diseases; Non-alcoholic Fatty Liver Disease; Receptors, Cytoplasmic and Nuclear

Obeticholic acid (OCA), 6α-ethyl-3α,7α-dihydroxy-5-cholan-24-oic acid, is a semisynthetic derivative of the chenodeoxycholic acid (CDCA, 3α,7α-dihydroxy-5-cholan-24-oic acid), a relatively hydrophobic primary bile acid synthesized in the liver from cholesterol. OCA, also known as 6-ethyl-CDCA or INT-747, was originally described by investigators at the Perugia University in 2002 as a selective ligand for the bile acid sensor, farnesoid-X-receptor (FXR). In addition to FXR and similarly to CDCA, OCA also activates GPBAR1/TGR5, a cell membrane G protein-coupled receptor for secondary bile acids. In 2016, based on the results of phase II studies showing efficacy in reducing the plasma levels of alkaline phosphatase, a surrogate biomarker for disease progression in primary biliary cholangitis (PBC), OCA has gained approval as a second-line treatment for PBC patients nonresponsive to UDCA. The use of OCA in PBC patients associates with several side effects, the most common of which is pruritus, whose incidence is dose-dependent and is extremely high when this agent is used as a monotherapy. Additionally, the use of OCA associates with the increased risk for the development of liver failure in cirrhotic PBC patients. Currently, OCA is investigated for its potential in the treatment of nonalcoholic steatohepatitis (NASH). Phase II and III trials have shown that OCA might attenuate the severity of liver fibrosis in patients with NASH, but it has no efficacy in reversing the steatotic component of the disease, while reduces the circulating levels of HDL-C and increases LDL-C. In summary, OCA has been the first-in-class of FXR ligands advanced to a clinical stage and is now entering its third decade of life, highlighting the potential benefits and risk linked to FXR-targeted therapies.

Topics: Chenodeoxycholic Acid; Humans; Liver Diseases; Receptors, Cytoplasmic and Nuclear; Receptors, G-Protein-Coupled

Farnesoid X receptor (FXR), a nuclear receptor mainly expressed in enterohepatic tissues, is a master for bile acid, lipid and glucose homeostasis. Additionally, it acts as a cell protector with unclear mechanism but may be implicated in combating against inflammation, fibrosis and cancers. FXR is thus accepted as a promising target particularly for the enterohepatic diseases, and numerous FXR modulators have been patented and developed.. This review provides an update on the development of FXR modulators for enterohepatic diseases and offers an in-depth perspective on new strategies for the development of novel FXR modulators.. Despite the development of numerous FXR modulators, which culminated in the successful launch of obeticholic acid (OCA), it remains a matter of debate on how the function of FXR should be exploited for therapeutic purposes. The improvement for obesity achieved by either FXR agonists or antagonists is still in confusion. Whether the side effect of pruritus induced by OCA could be exempted for non-steroidal FXR agonists needs further validation. Apart from the development of conventional FXR ligands, emerging evidence support that restoration of FXR protein level may represent a new strategy in targeting FXR for enterohepatic and metabolic diseases.

Topics: Animals; Chenodeoxycholic Acid; Drug Design; Humans; Ligands; Liver Diseases; Metabolic Diseases; Patents as Topic; Receptors, Cytoplasmic and Nuclear

In the long-term course chronic cholestasis regularly leads to fibrotic restructuring and ultimately to functional failure of the liver, independent of the cause. Cholestatic diseases are often clinically asymptomatic. In order to avoid progression, early diagnosis of the underlying disease and a targeted therapy are therefore decisive. The differential diagnoses of chronic cholestasis are broad; therefore, algorithms are of assistance in the diagnostic work-up. A better understanding of the pathogenesis is now leading to the development of new therapeutic agents in addition to ursodeoxycholic acid, which has long been known for its anticholestatic effects. Obeticholic acid and, in the near future, bezafibrate are therapeutic options. The possibilities for genetic diagnostics of unclear cholestasis syndromes improve the understanding of the pathogenesis of many diseases and are being introduced increasingly earlier into the clinical routine.

Topics: Adult; Bezafibrate; Chenodeoxycholic Acid; Cholagogues and Choleretics; Cholestasis; Diagnosis, Differential; Humans; Liver Diseases; Ursodeoxycholic Acid

Autoimmune liver diseases are a group of abnormal autoimmune-mediated inflammatory hepatobiliary injuries, mainly including autoimmune hepatitis(AIH), primary biliary cholangitis(PBC), and primary sclerosing cholangitis (PSC). The diagnosis and treatment of autoimmune liver diseases, an important type of non-viral liver disease, have become a prominent issue in hepatology. In 2016, many new advances have been achieved in the clinical and basic research on autoimmune liver diseases, including the phase 3 clinical trial of obeticholic acid, the proposal of UK-PBC risk score, and the research on gut microbiota associated with PSC. This article reviews the research advances in the diagnosis and treatment of autoimmune liver diseases in 2016.. 自身免疫性肝病是一组由异常自身免疫介导的肝胆炎症性损伤，主要包括自身免疫性肝炎、原发性胆汁性胆管炎及原发性硬化性胆管炎等。作为非病毒性肝病的重要成员，自身免疫性肝病的诊断与治疗日益成为肝病领域的突出问题之一。2016年，自身免疫性肝病在临床和基础研究方面又有了许多新进展，包括奥贝胆酸的临床III期试验，UK-PBC危险评分的提出，以及原发性硬化性胆管炎相关的肠道微生态研究等。现就自身免疫性肝病2016年的诊疗与研究进展进行介绍。.

Topics: Autoimmune Diseases; Biomedical Research; Chenodeoxycholic Acid; Cholangitis; Cholangitis, Sclerosing; Clinical Trials, Phase III as Topic; Hepatitis, Autoimmune; Humans; Liver Cirrhosis, Biliary; Liver Diseases

Topics: Animals; Azepines; Chenodeoxycholic Acid; Cholagogues and Choleretics; Cholestasis; Drug Evaluation, Preclinical; Gastrointestinal Agents; Hepatitis, Autoimmune; Humans; Hypertension, Portal; Indoles; Isoxazoles; Liver Cirrhosis, Alcoholic; Liver Cirrhosis, Biliary; Liver Diseases; Metabolic Syndrome; Non-alcoholic Fatty Liver Disease; Receptors, Cytoplasmic and Nuclear; Ursodeoxycholic Acid

Bile acids are well known for their effects on cholesterol homeostasis and lipid digestion. Since the discovery of bile acid receptors, of which there are farnesoid X receptor (FXR), a nuclear receptor, and the plasma membrane G-protein receptor, as well as Takeda G-protein coupled receptor clone 5, further roles have been elucidated for bile acids including glucose and lipid metabolism as well as inflammation. Additionally, treatment with bile acid receptor agonists has shown a decrease in the amount of atherosclerosis plaque formation and decreased portal vascular resistance and portal hypotension in animal models. Furthermore, rodent models have demonstrated antifibrotic activity using bile acid receptor agonists. Early human data using a FXR agonist, obeticholic acid, have shown promising results with improvement of histological activity and even a reduction of fibrosis. Human studies are ongoing and will provide further information on bile acid receptor agonist therapies. Thus, bile acids and their derivatives have the potential for management of liver diseases and potentially other disease states including diabetes and the metabolic syndrome.

Topics: Animals; Bile Acids and Salts; Chenodeoxycholic Acid; Gastrointestinal Agents; Humans; Liver Diseases; Receptors, G-Protein-Coupled

Primary biliary cholangitis (PBC) is an autoimmune disease characterized by bile duct destruction that can progress to cirrhosis. A liver biopsy substudy was conducted in the PBC obeticholic acid (OCA) International Study of Efficacy (POISE) to determine the long-term effects of OCA on liver damage and fibrosis in patients with PBC. POISE is a phase 3, double-blind, placebo-controlled, randomized trial with a 5-year open-label extension that evaluated 5 to 10 mg OCA daily in patients who were intolerant or unresponsive to ursodeoxycholic acid.. Liver biopsy specimens were collected from 17 patients at time of enrollment in the double-blind phase and after 3 years of OCA treatment. Histologic evaluations were performed by 2 pathologists in a blinded, randomized fashion to determine the effects of OCA on fibrosis and other histologic parameters. Collagen morphometry assessments were performed by automated second harmonic generation and 2-photon excitation microscopy to observe quantitative measures of fibrosis.. From the time of enrollment until 3 years of treatment, most patients had improvements or stabilization in fibrosis (71%), bile duct loss (76%), ductopenia (82%), ductular reaction (82%), interface hepatitis (100%), and lobular hepatitis (94%). Over the 3-year period, we found significant reductions in collagen area ratio (median, -2.1; first quartile, -4.6, third quartile, -0.3; P = .013), collagen fiber density (median, -0.8; first quartile, -2.5; third quartile, 0; P = .021), collagen reticulation index (median, -0.1; first quartile, -0.3; third quartile, 0; P = .008), and fibrosis composite score (median, -1.0; first quartile, -2.5; third quartile, -0.5; P = .002).. A subanalysis of data from the POISE study showed that long-term OCA treatment in patients with PBC is associated with improvements or stabilization of disease features, including ductular injury, fibrosis, and collagen morphometry features (ClinicalTrials.gov no: NCT01473524 and EudraCT no: 2011-004728-36).

Topics: Chenodeoxycholic Acid; Humans; Liver Cirrhosis, Biliary; Liver Diseases; Ursodeoxycholic Acid

The nuclear farnesoid X receptor (FXR) agonist obeticholic acid (OCA) has been developed for the treatment of liver diseases. We aimed to determine whether OCA treatment increases the risk of gallstone formation.. Twenty patients awaiting laparoscopic cholecystectomy were randomized to treatment with OCA (25 mg/day) or placebo for 3 weeks until the day before surgery. Serum bile acids (BAs), the BA synthesis marker C4 (7α-hydroxy-4-cholesten-3-one), and fibroblast growth factor 19 (FGF19) were measured before and after treatment. During surgery, biopsies from the liver and the whole bile-filled gallbladder were collected for analyses of gene expression, biliary lipids and FGF19.. In serum, OCA increased FGF19 (from 95.0 ± 8.5 to 234.4 ± 35.6 ng/L) and decreased C4 (from 31.4 ± 22.8 to 2.8 ± 4.0 nmol/L) and endogenous BAs (from 1,312.2 ± 236.2 to 517.7 ± 178.9 nmol/L; all p <0.05). At surgery, BAs in gallbladder bile were lower in patients that received OCA than in controls (OCA, 77.9 ± 53.6 mmol/L; placebo, 196.4 ± 99.3 mmol/L; p <0.01), resulting in a higher cholesterol saturation index (OCA, 2.8 ± 1.1; placebo, 1.8 ± 0.8; p <0.05). In addition, hydrophobic OCA conjugates accounted for 13.6 ± 5.0% of gallbladder BAs after OCA treatment, resulting in a higher hydrophobicity index (OCA, 0.43 ± 0.09; placebo, 0.34 ± 0.07, p <0.05). Gallbladder FGF19 levels were 3-fold higher in OCA patients than in controls (OCA, 40.3 ± 16.5 ng/L; placebo, 13.5 ± 13.1 ng/ml; p <0.005). Gene expression analysis indicated that FGF19 mainly originated from the gallbladder epithelium.. Our results show for the first time an enrichment of FGF19 in human bile after OCA treatment. In accordance with its murine homolog FGF15, FGF19 might trigger relaxation and filling of the gallbladder which, in combination with increased cholesterol saturation and BA hydrophobicity, would enhance the risk of gallstone development.. Obeticholic acid increased human gallbladder cholesterol saturation and bile acid hydrophobicity, both decreasing cholesterol solubility in bile. Together with increased hepatobiliary levels of fibroblast growth factor 19, our findings suggest that pharmacological activation of the farnesoid X receptor increases the risk of gallstone formation. Clinical trial number: NCT01625026.

Topics: Adult; Bile Acids and Salts; Biopsy; Carrier Proteins; Chenodeoxycholic Acid; Cholestenones; Double-Blind Method; Female; Fibroblast Growth Factors; Gallbladder; Gallstones; Gene Expression; Humans; Liver; Liver Diseases; Male; Middle Aged; Receptors, Cytoplasmic and Nuclear; Treatment Outcome

Topics: Animals; Chenodeoxycholic Acid; Cholestasis; Hep G2 Cells; Humans; Liver; Liver Diseases; MafG Transcription Factor; Male; Mice, Inbred C57BL; Mice, Knockout; NF-E2-Related Factor 2; Rats, Wistar; Receptors, Cytoplasmic and Nuclear

Topics: Antiviral Agents; Blood Coagulation Disorders; Chemical and Drug Induced Liver Injury; Chenodeoxycholic Acid; End Stage Liver Disease; Gastroenterology; Hepatic Encephalopathy; Hepatitis C, Chronic; Humans; Liver Cirrhosis; Liver Cirrhosis, Biliary; Liver Diseases; Non-alcoholic Fatty Liver Disease; Palliative Care

We previously showed that increased asymmetric dimethylarginine (ADMA) biliary excretion occurs during hepatic ischemia/reperfusion (I/R), prompting us to study the effects of the farnesoid X receptor (FXR) agonist obeticholic acid (OCA) on bile, serum and tissue levels of ADMA after I/R.. Male Wistar rats were orally administered 10mg/kg/day of OCA or vehicle for 5 days and were subjected to 60 min partial hepatic ischemia or sham-operated. After a 60 min reperfusion, serum, tissue and bile ADMA levels, liver mRNA and protein expression of ADMA transporters (CAT-1, CAT-2A, CAT-2B, OCT-1, MATE-1), and enzymes involved in ADMA synthesis (protein-arginine-N-methyltransferase-1, PRMT-1) and metabolism (dimethylarginine-dimethylaminohydrolase-1, DDAH-1) were measured.. OCA administration induced a further increase in biliary ADMA levels both in sham and I/R groups, with no significant changes in hepatic ADMA content. A reduction in CAT-1, CAT-2A or CAT-2B transcripts was found in OCA-treated sham-operated rats compared with vehicle. Conversely, OCA administration did not change CAT-1, CAT-2A or CAT-2B expression, already reduced by I/R. However, a marked decrease in OCT-1 and increase in MATE-1 expression was observed. A similar trend occurred with protein expression.. The reduced mRNA expression of hepatic CAT transporters suggests that the increase in serum ADMA levels is probably due to decreased liver uptake of ADMA from the systemic circulation. Conversely, the mechanism involved in further increasing biliary ADMA levels in sham and I/R groups treated with OCA appears to be MATE-1-dependent.

Topics: Animals; Antiporters; Arginine; Biliary Tract; Blotting, Western; Carrier Proteins; Chenodeoxycholic Acid; Liver Diseases; Male; Nitric Oxide Synthase; Organic Cation Transport Proteins; Protein-Arginine N-Methyltransferases; Rats; Rats, Wistar; Real-Time Polymerase Chain Reaction; Receptors, Cytoplasmic and Nuclear; Reperfusion Injury; RNA, Messenger; Up-Regulation

6-ethyl-chedeoxycholic acid (6E-CDCA) is a farnesoid X receptor (FXR) ligand endowed with agonistic activity under development for treatment of cholestatic liver diseases including primary biliary cirrhosis (PBC) and liver-related metabolic disorders including non-alcoholic fatty liver disease (NAFLD) and non-alcoholic steatohepatitis (NASH). FXR is a bile sensor that acts in coordination with other nuclear receptors to regulate essential steps of bile acid uptake, metabolism and excretion. 6E-CDCA has been investigated in preclinical models of cholestasis, liver fibrosis and diet-induced atherosclerosis. In a phase II clinical trial in patients with PBC, 6E-CDCA met the primary endpoint of a reduction in alkaline phosphatase levels but safety data indicated that the drug exacerbated pruritus, one of the main symptoms of PBC, suggesting that 6E-CDCA or FXR are mediators of pruritus in humans. Treatment of patients with diabetes and liver steatosis resulted in amelioration of insulin sensitivity despite a reduction a slight reduction in HDL and increased levels of LDL were observed. These side effects on bile acids and lipid metabolism were all predicted by pre-clinical studies, suggesting that potent FXR ligands hold promise but potential side effects might limit their development.

Topics: Animals; Chenodeoxycholic Acid; Clinical Trials as Topic; Disease Models, Animal; Drug Evaluation, Preclinical; Humans; Hypoglycemic Agents; Liver Diseases; Metabolic Diseases; Receptors, Cytoplasmic and Nuclear