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Lancet (London, England) Jan 1989
Topics: Adult; Bezafibrate; Female; Headache; Humans; Hyperlipoproteinemia Type II; Time Factors
PubMed: 2563081
DOI: 10.1016/s0140-6736(89)91181-1 -
Neurotherapeutics : the Journal of the... Apr 2022Leigh syndrome (LS) is one of the most common mitochondrial encephalopathy diseases in infants. To date, there is still an absence of effective therapy. Bezafibrate...
Leigh syndrome (LS) is one of the most common mitochondrial encephalopathy diseases in infants. To date, there is still an absence of effective therapy. Bezafibrate (BEZ), a pan-peroxisome proliferator-activated receptor (PPAR) agonist, ameliorates the phenotype of the mouse model of mitochondrial disease via an unclear mechanism. Here, we applied it to Ndufs4 knockout (KO) mice, a widely used LS animal model, to observe the therapeutic effects and metabolic changes associated with BEZ treatment to explore the therapeutic strategies for mitochondrial diseases. Administration of BEZ significantly enhances survival and attenuates disease progression in Ndufs4 KO mice. Decreased oxidative stress and stunted growth were also observed. As a PPAR agonist, we did not find mitochondrial biogenesis or enhanced metabolism upon BEZ treatment. On the contrary, mice with dietary BEZ showed daily torpor bouts and lower metabolic rates. We speculate that activating energy-saving metabolism in mice may be associated with the therapeutic effects of BEZ, but the exact mechanism of action requires further study.
Topics: Animals; Bezafibrate; Disease Models, Animal; Electron Transport Complex I; Hypoglycemic Agents; Mice; Mice, Knockout; Mitochondrial Encephalomyopathies; Peroxisome Proliferator-Activated Receptors; Torpor
PubMed: 35334081
DOI: 10.1007/s13311-022-01216-9 -
Methods in Enzymology 1994
Review
Topics: 2,3-Diphosphoglycerate; Allosteric Regulation; Allosteric Site; Bezafibrate; Chlorides; Crystallography, X-Ray; Diphosphoglyceric Acids; Drug Synergism; Erythrocyte Membrane; Erythrocytes; Hemoglobins; Humans; Oxygen; Oxyhemoglobins; Protein Binding; Protein Conformation; Serum Albumin; Structure-Activity Relationship
PubMed: 8057877
DOI: 10.1016/0076-6879(94)32062-4 -
Bezafibrate-mizoribine interaction: Involvement of organic anion transporters OAT1 and OAT3 in rats.European Journal of Pharmaceutical... Jan 2016A patient with rheumatoid arthritis developed rhabdomyolysis while undergoing treatment with mizoribine concomitantly with bezafibrate. The symptoms rapidly disappeared...
A patient with rheumatoid arthritis developed rhabdomyolysis while undergoing treatment with mizoribine concomitantly with bezafibrate. The symptoms rapidly disappeared and laboratory test results normalized when she discontinued the two drugs. The purpose of the present study was to elucidate the transporter-mediated molecular pharmacokinetic mechanisms of drug-drug interactions between bezafibrate and mizoribine. Comparing bezafibrate-mizoribine group with bezafibrate group, the Tmax and Cmax of bezafibrate were essentially unchanged in rats. The AUC of bezafibrate was significantly increased and t1/2β was prolonged markedly with an obviously reduction in plasma clearance and cumulative urinary excretion. The changes were similar to oral studies following intravenous co-administration. In rat kidney slices, the uptake of bezafibrate was markedly inhibited by p-aminohippurate, benzylpenicillin and probenecid but not by tetraethyl ammonium. Mizoribine not only decreased the uptake of bezafibrate, but also inhibited the uptake of p-aminohippurate and benzylpenicillin. The uptakes of bezafibrate and mizoribine were significantly higher compared to vector-HEK293 cells. The uptakes of bezafibrate and mizoribine in highest concentration were increased 1.63 and 1.46 folds in hOAT1-transfected cells, 1.43 and 1.24 folds in hOAT3-transfected cells, respectively. The Km values of bezafibrate uptake by hOAT1/3hOAT1-/hOAT3-HEK293 K293 cells were increased 1.68 fold in hOAT1-HEK293 cell and 2.12 fold in hOAT3-HEK293 cell in the presence of mizoribine with no change of Vmax. It indicated that mizoribine could inhibit the uptake of bezafibrate by hOAT1/3-HEK293 cells in a competitive way. In conclusion, OAT1 and OAT3 are the target transporters of drug-drug interactions between bezafibrate and mizoribine in pharmacokinetic aspects.
Topics: Animals; Bezafibrate; Drug Interactions; HEK293 Cells; Humans; In Vitro Techniques; Kidney; Male; Organic Anion Transport Protein 1; Organic Anion Transporters, Sodium-Independent; Rats, Wistar; Ribonucleosides
PubMed: 26474691
DOI: 10.1016/j.ejps.2015.10.008 -
PloS One 2012X-linked adrenoleukodystrophy (X-ALD) is caused by mutations in the ABCD1 gene and is characterized by impaired beta-oxidation of very-long-chain fatty acids (VLCFA) and... (Clinical Trial)
Clinical Trial
UNLABELLED
X-linked adrenoleukodystrophy (X-ALD) is caused by mutations in the ABCD1 gene and is characterized by impaired beta-oxidation of very-long-chain fatty acids (VLCFA) and subsequent VLCFA accumulation in tissues. In adulthood X-ALD most commonly manifests as a gradually progressive myelopathy, (adrenomyeloneuropathy; AMN) without any curative or disease modifying treatments. We recently showed that bezafibrate (BF), a drug used for the treatment of hyperlipidaemia, reduces VLCFA accumulation in X-ALD fibroblasts by inhibiting ELOVL1, an enzyme involved in the VLCFA synthesis. We therefore designed a proof-of-principal clinical trial to determine whether BF reduces VLCFA levels in plasma and lymphocytes of X-ALD patients. Ten males with AMN were treated with BF for 12 weeks at a dose of 400 mg daily, followed by 12 weeks of 800 mg daily. Every 4 weeks patients were evaluated for side effects and blood samples were taken for analysis. Adherence was good as indicated by a clear reduction in triglycerides. There was no reduction in VLCFA in either plasma or lymphocytes. Plasma levels of BF did not exceed 25 µmol/L. We concluded that BF, at least in the dose given, is unable to lower VLCFA levels in plasma or lymphocytes in X-ALD patients. It is unclear whether this is due to the low levels of BF reached in plasma. Our future work is aimed at the identification of highly-specific inhibitors of ELOVL1 that act at much lower concentrations than BF and are well tolerated. BF appears to have no therapeutic utility in X-ALD.
TRIAL REGISTRATION
ClinicalTrials.gov NCT01165060.
Topics: Adrenoleukodystrophy; Bezafibrate; Humans; Hypolipidemic Agents; Male; Treatment Outcome
PubMed: 22911730
DOI: 10.1371/journal.pone.0041013 -
European Heart Journal Dec 1996Current experience from coronary angiographic trials using different treatment regimens such as lifestyle changes, resins, nicotinic acid and statins, shows that... (Clinical Trial)
Clinical Trial Randomized Controlled Trial Review
Current experience from coronary angiographic trials using different treatment regimens such as lifestyle changes, resins, nicotinic acid and statins, shows that progression of atheroma can be retarded, and that regression can sometimes be induced, by a marked lowering of LDL-cholesterol. Young post-myocardial infarction patients, however, usually exhibit a multiplicity of metabolic risk factors with dyslipidaemias, predominantly hypertriglyceridaemia, and disturbances of glucose-insulin homeostasis and of the haemostatic system. These factors, together coupled with coronary angiographic data showing that the degree of dyslipidaemia is related to the extent and degree of coronary atherosclerosis, and the fact that rapid progression of coronary atherosclerosis was foreseen in this group of patients, resulted in the initiation of the Bezafibrate Coronary Atherosclerosis Intervention Trial (BECAIT) in 1985. BECAIT was a 5-year, double-blind, placebo-controlled study of bezafibrate (200 mg three times daily) and dietary intervention in dyslipidaemic male survivors of myocardial infarction below 45 years of age. The angiographic analysis included 81 patients (42 bezafibrate and 39 placebo) who underwent baseline and at least one post-treatment angiogram, at 2 and 5 years. Changes in mean minimum lumen diameter indicated that there was 0.13 mm less (95% Cl: 0.10; 0.15) disease progression in focal lesions in the bezafibrate group than in the placebo group (P = 0.049). Parallel, but non-statistically significant, treatment effects were observed for mean segment diameter and percent stenosis. Three patients treated with bezafibrate and 11 patients in the placebo group suffered coronary events during the course of the trial (P = 0.02 logrank test). The angiographic effects of bezafibrate were accompanied by statistically significant reductions in serum cholesterol and triglycerides. Furthermore, plasma fibrinogen levels were significantly reduced and HDL-cholesterol concentration increased but there was no net change in LDL-cholesterol. These findings show that bezafibrate slowed the progression of focal coronary atherosclerosis to a degree that is comparable to that achieved with the statins in angiographic trials such as MAAS and REGRESS. Bezafibrate also reduced the occurrence of coronary events in young post-infarction victims. Like BECAIT, analyses of data from the NHLBI type II study, CLAS, POSCH and MARS provide evidence for the role of triglyceride-rich lipoproteins in the progression of coronary artery disease. Retardation of progression of atherosclerosis and a reduction in coronary events is, therefore, possible without reducing LDL-cholesterol.
Topics: Adult; Bezafibrate; Coronary Angiography; Coronary Artery Disease; Diet, Atherogenic; Double-Blind Method; Humans; Hypolipidemic Agents; Male; Middle Aged; Risk Factors; Survival Rate; Treatment Outcome
PubMed: 8960446
DOI: 10.1093/eurheartj/17.suppl_f.37 -
Human Molecular Genetics Jan 2019Glucose-6-phosphatase α (G6Pase) deficiency, also known as von Gierke's Disease or Glycogen storage disease type Ia (GSD Ia), is characterized by decreased ability of...
Glucose-6-phosphatase α (G6Pase) deficiency, also known as von Gierke's Disease or Glycogen storage disease type Ia (GSD Ia), is characterized by decreased ability of the liver to convert glucose-6-phosphate to glucose leading to glycogen accumulation and hepatosteatosis. Long-term complications of GSD Ia include hepatic adenomas and carcinomas, in association with the suppression of autophagy in the liver. The G6pc-/- mouse and canine models for GSD Ia were treated with the pan-peroxisomal proliferator-activated receptor agonist, bezafibrate, to determine the drug's effect on liver metabolism and function. Hepatic glycogen and triglyceride concentrations were measured and western blotting was performed to investigate pathways affected by the treatment. Bezafibrate decreased liver triglyceride and glycogen concentrations and partially reversed the autophagy defect previously demonstrated in GSD Ia models. Changes in medium-chain acyl-CoA dehydrogenase expression and acylcarnintine flux suggested that fatty acid oxidation was increased and fatty acid synthase expression associated with lipogenesis was decreased in G6pc-/- mice treated with bezafibrate. In summary, bezafibrate induced autophagy in the liver while increasing fatty acid oxidation and decreasing lipogenesis in G6pc-/- mice. It represents a potential therapy for glycogen overload and hepatosteatosis associated with GSD Ia, with beneficial effects that have implications for non-alcoholic fatty liver disease.
Topics: Animals; Autophagy; Bezafibrate; Disease Models, Animal; Dogs; Glucose; Glucose-6-Phosphatase; Glucose-6-Phosphate; Glycogen; Glycogen Storage Disease Type I; Lipid Metabolism; Liver; Mice; Mice, Knockout; Triglycerides
PubMed: 30256948
DOI: 10.1093/hmg/ddy343 -
Naunyn-Schmiedeberg's Archives of... Dec 2023In pulmonary fibrosis, the proliferation of fibroblasts and their differentiation into myofibroblasts is often caused by tissue damage, such as oxidative damage caused...
In pulmonary fibrosis, the proliferation of fibroblasts and their differentiation into myofibroblasts is often caused by tissue damage, such as oxidative damage caused by reactive oxygen species, which leads to progressive rupture and thus destruction of the alveolar architecture, resulting in cell proliferation and tissue remodeling. Bezafibrate (BZF) is an important member of the peroxisome proliferator-activated receptor (PPARs) family agonists, used in clinical practice as antihyperlipidemic. However, the antifibrotic effects of BZF are still poorly studied. The objective of this study was to evaluate the effects of BZF on pulmonary oxidative damage in lung fibroblast cells. MRC-5 cells were treated with hydrogen peroxide (HO) to induce oxidative stress activation and BZF treatment was administered at the same moment as HO induction. The outcomes evaluated were cell proliferation and cell viability; oxidative stress markers such as reactive oxygen species (ROS), catalase (CAT) levels and thiobarbituric acid reactive substances (TBARS); col-1 and α-SMA mRNA expression and cellular elasticity through Young's modulus analysis evaluated by atomic force microscopy (AFM). The HO-induced oxidative damage decreased the cell viability and increased ROS levels and decreased CAT activity in MRC-5 cells. The expression of α-SMA and the cell stiffness increased in response to HO treatment. Treatment with BZF decreased the MRC-5 cell proliferation, ROS levels, reestablished CAT levels, decreased the mRNA expression of type I collagen protein (col-1) and α-smooth muscle actin (α-SMA), and cellular elasticity even with HO induction. Our results suggest that BZF has a potential protective effect on H2O2-induced oxidative stress. These results are based on an in vitro experiment, derived from a fetal lung cell line and may emerge as a possible new therapy for the treatment of pulmonary fibrosis.
Topics: Humans; Hydrogen Peroxide; Reactive Oxygen Species; Bezafibrate; Pulmonary Fibrosis; Lung; Oxidative Stress; Fibroblasts; RNA, Messenger
PubMed: 37358795
DOI: 10.1007/s00210-023-02595-2 -
Molecular Neurobiology Jan 2019Non-ketotic hyperglycinemia (NKH) is a severe neurological disorder caused by defects in glycine (GLY) catabolism and characterized by a high cerebrospinal fluid/plasma...
Non-ketotic hyperglycinemia (NKH) is a severe neurological disorder caused by defects in glycine (GLY) catabolism and characterized by a high cerebrospinal fluid/plasma GLY ratio. Treatment is often ineffective and limited to the control of symptoms and detoxification of GLY. In the present work, we investigated the in vivo effects of GLY intracerebroventricular administration on oxidative stress parameters in rat striatum, cerebral cortex, and hippocampus. In vitro effects of GLY were also evaluated in striatum. The effects of bezafibrate (BEZ), a potential neuroprotective agent, on the possible alterations caused by GLY administration were further evaluated. Our in vivo results showed that GLY increased the activities of the antioxidant enzymes superoxide dismutase (SOD), glutathione peroxidase (GPx), glutathione reductase (GR), and glucose-6-phosphate dehydrogenase (G6PDH) in striatum. Furthermore, GLY decreased the concentrations of total glutathione and reduced glutathione (GSH), as well as GSH/oxidized glutathione ratio in vivo in hippocampus. In vitro data also showed that GLY induced lipid peroxidation and decreased GSH in striatum. Regarding the effects of BEZ, we found that GLY-induced increase of GPx, SOD, and GR activities was attenuated or prevented by this compound. However, BEZ did not alter GLY-induced decrease of GSH in hippocampus. We hypothesize that GLY-induced increase of the activities of antioxidant enzymes in striatum occurs as a mechanism to avoid accumulation of reactive oxygen species and consequent oxidative damage. Furthermore, since BEZ prevented GLY-induced alterations, it might be considered as an adjuvant therapy for NKH.
Topics: Animals; Antioxidants; Bezafibrate; Corpus Striatum; Glutathione; Glycine; Injections, Intraventricular; Malondialdehyde; Rats, Wistar
PubMed: 29675575
DOI: 10.1007/s12035-018-1074-0 -
Vascular Health and Risk Management 2008Low-density lipoprotein-cholesterol (LDL-C) is a well established coronary heart disease (CHD) risk factor. However, the ability of this metabolic risk factor alone to... (Review)
Review
Low-density lipoprotein-cholesterol (LDL-C) is a well established coronary heart disease (CHD) risk factor. However, the ability of this metabolic risk factor alone to identify individuals at rigk for future CHD events is limited. The raised triglycerides-low high-density lipoprotein-cholesterol (HDL-C) dyslipidaemia was shown to be an important cardiovascular risk factor independently of LDL-C levels. Fibric acid derivatives (fibrates) have been used in clinical practice for more than 2 decades as a class of agents known to decrease triglyceride levels while substantially increasing HDL-C levels. Through peroxisome proliferator-activated alpha-receptors, fibrates have a significant impact on the synthesis of several apolipoproteins and enzymes of lipoprotein metabolism as well as on the expression of several genes involved in fibrinolysis and inflammation. Data from recent primary and secondary prevention clinical trials demonstrate the efficacy of fibrate therapy in patients with the raised triglycerides-low HDL-C dyslipidaemia. This review summarizes current data regarding mechanism of action and the metbolic effects of fibrates, as well as results from major clinical trials on the efficacy of this mode of lipid lowering therapy. In addition, recent data from subgroup analyses of the Bezafibrate Infarction Prevention trial, demonstrating several important metabolic and long-term cardiovascular effects of bezafibrate therapy, are detailed.
Topics: Bezafibrate; Cardiovascular Diseases; Cholesterol, HDL; Clinical Trials as Topic; Dyslipidemias; Humans; Hypolipidemic Agents; Primary Prevention
PubMed: 18629356
DOI: 10.2147/vhrm.2008.04.01.131