about
Linking epigenetics to lipid metabolism: focus on histone deacetylases.Disruption of the gene encoding 3beta-hydroxysterol Delta-reductase (Tm7sf2) in mice does not impair cholesterol biosynthesis.LXR (liver X receptor) and HNF-4 (hepatocyte nuclear factor-4): key regulators in reverse cholesterol transport.Inhibition of class I histone deacetylases unveils a mitochondrial signature and enhances oxidative metabolism in skeletal muscle and adipose tissueBile acids and their signaling pathways: eclectic regulators of diverse cellular functions.The pharmacological exploitation of cholesterol 7alpha-hydroxylase, the key enzyme in bile acid synthesis: from binding resins to chromatin remodelling to reduce plasma cholesterol.LT175 is a novel PPARα/γ ligand with potent insulin-sensitizing effects and reduced adipogenic properties.Sterol-protein interactions in cholesterol and bile acid synthesis.When food meets man: the contribution of epigenetics to health.The sirtuin class of histone deacetylases: regulation and roles in lipid metabolism.Lipids in the nervous system: from biochemistry and molecular biology to patho-physiology.Enterodiol and enterolactone modulate the immune response by acting on nuclear factor-kappaB (NF-kappaB) signaling.Olive oil phenols modulate the expression of metalloproteinase 9 in THP-1 cells by acting on nuclear factor-kappaB signaling.Study of 1,4-dihydropyridine structural scaffold: discovery of novel sirtuin activators and inhibitors.Diabetes-induced myelin abnormalities are associated with an altered lipid pattern: protective effects of LXR activation.Regulation of the hamster cholesterol 7 alpha-hydroxylase gene (CYP7A): prevalence of negative over positive transcriptional control.Identification and characterization of cis-acting elements conferring insulin responsiveness on hamster cholesterol 7alpha-hydroxylase gene promoter.Insights in the regulation of cholesterol 7alpha-hydroxylase gene reveal a target for modulating bile acid synthesis.Expression of sterol 27-hydroxylase in glial cells and its regulation by liver X receptor signaling.The negative effects of bile acids and tumor necrosis factor-alpha on the transcription of cholesterol 7alpha-hydroxylase gene (CYP7A1) converge to hepatic nuclear factor-4: a novel mechanism of feedback regulation of bile acid synthesis mediated bySuppression of bile acid synthesis, but not of hepatic cholesterol 7alpha-hydroxylase expression, by obstructive cholestasis in humans.Effect of natural and structurally modified bile acids on cholesterol metabolizing enzymes in rat liver microsomes. II.Plasma oxysterols in normal and cholestatic children as indicators of the two pathways of bile acid synthesis.Coordinated control of cholesterol catabolism to bile acids and of gluconeogenesis via a novel mechanism of transcription regulation linked to the fasted-to-fed cycle.A minimally invasive technique for the evaluation of the regulatory steps of the two major pathways of bile acid synthesis.Decreased hepatic expression of PPAR-gamma coactivator-1 in cholesterol cholelithiasis.Attenuation of diet-induced obesity and induction of white fat browning with a chemical inhibitor of histone deacetylases.Gender-related metabolomics and lipidomics: From experimental animal models to clinical evidence.Zc3h10 is a novel mitochondrial regulator.Strawberry tannins inhibit IL-8 secretion in a cell model of gastric inflammation.Olive oil phenolic extract regulates interleukin-8 expression by transcriptional and posttranscriptional mechanisms in Caco-2 cells.Minor Components of Olive Oil Modulate Proatherogenic Adhesion Molecules Involved in Endothelial ActivationLack of Sterol Regulatory Element Binding Factor-1c Imposes Glial Fatty Acid Utilization Leading to Peripheral NeuropathyNeuroactive steroid treatment modulates myelin lipid profile in diabetic peripheral neuropathyA bio-guided approach for the development of a chestnut-based proanthocyanidin-enriched nutraceutical with potential anti-gastritis propertiesChanges in classic and alternative pathways of bile acid synthesis in chronic liver diseasePlasma lipoproteins and cholesterol metabolism in Yoshida rats: An animal model of spontaneous hyperlipemiaEffect of natural and structurally modified bile acids on cholesterol metabolizing enzymes in rat liver microsomesThe effect of etofibrate on cholesterol and bile acid metabolism in the hamsterEffect of tauroursodeoxycholate feeding, with or without taurine supplementation on hepatic bile acids and cholesterol metabolism in the hamster
P50
Q34308013-DB02CEDC-0018-4034-914D-AE86A94EDB9BQ34657138-20EA2BC0-B749-4710-8D1E-7B2336E3361FQ35641313-BD782AAD-D505-43EB-9B94-D0A54F766340Q36635336-3F65C552-9C40-4105-B5D4-077BFAB56CF5Q36944770-B9DFFC30-6773-4044-A1D6-1673C5E5E14BQ36980922-698C9972-A93F-466B-9DFA-5A139FA0D25EQ37622614-A20B4852-E239-4170-820E-7138437F829DQ37705131-55B574DA-DAF8-4A8B-A896-7343A4CCE111Q37976694-8BCD2889-4583-4934-A203-501908BB62CAQ38184501-BA2ABF31-5429-42C7-B355-792B7DBE5685Q38242620-D587F4C8-370F-4819-9ABA-5E594CE367F2Q39707084-9D4EE1AA-6B13-4BBD-84EA-B9D606E19A2DQ39747842-114D182F-0A69-46D8-9A88-1CBB11ECE6EEQ39815436-D2424075-53D7-4211-9227-6D5BD00663F8Q40756119-D1F9EF8C-229A-4873-A9E9-A29F6554BF3FQ41166569-BB86BBE9-1CFB-4699-814D-0B023483C8DFQ42485304-5428EB33-3A73-4292-AEA3-11F3536D06ABQ42516435-3A854B1E-BBB9-4563-A540-EED7AF62195DQ43295800-504EDEDB-5E71-48ED-B6B4-DCCD6AAAD01AQ43636951-FF9BC371-680D-47EA-B81A-980A2F63E101Q43693260-50D4576A-BA40-4FF4-8EC1-5A5249759339Q44059609-6363427B-EFDA-4044-8C6E-933198658F44Q44465577-B2EE667C-DA16-4C26-892F-91578BC0353EQ44514694-4C5BB74F-0C8B-47DF-A61F-E24EA952F91FQ46429728-637B9D0B-CD04-4CEC-8B67-C7D5450BDC51Q46967955-BE2D8EBE-46F5-4CC1-BF3E-B65CEEE2A320Q48264108-A53000B3-B7C8-4688-AF69-CF3A947893F7Q48605461-81A83645-B885-4856-9DF4-DB701096CE08Q51245967-472E15ED-E72B-4688-A02E-7BA9BFE4A51AQ51606101-7D3484F2-A7A4-4E76-9B9E-ADB388EF6C35Q55067000-3136DFE6-D2A5-4183-94FB-C6254F038DD5Q57398837-9E2ABD1A-73A2-4B4C-99D0-B206C423B423Q58874323-AFBB3DC9-8A8C-448A-A5FF-E7EDE362A157Q59526216-BDFF9BC4-5BF2-4DB9-B0D3-B76C9202E412Q60571566-EF0DE173-C09E-453F-9049-9FE45E9F4D60Q60571605-3C865433-5EE7-4781-AC0F-B24E68620817Q60571617-2472F152-69A1-40AF-8867-2CC96721A5B2Q60571619-526387B7-E04F-4E3F-8710-A0F1941BADEBQ60571621-7FE0A308-4DE7-46F7-AF0E-9325879575BBQ60571623-DDA79ACA-2731-406E-9355-660FC1CA2A3C
P50
description
hulumtuese
@sq
researcher
@en
wetenschapper
@nl
հետազոտող
@hy
name
Emma De Fabiani
@ast
Emma De Fabiani
@en
Emma De Fabiani
@es
Emma De Fabiani
@nl
Emma De Fabiani
@sl
type
label
Emma De Fabiani
@ast
Emma De Fabiani
@en
Emma De Fabiani
@es
Emma De Fabiani
@nl
Emma De Fabiani
@sl
prefLabel
Emma De Fabiani
@ast
Emma De Fabiani
@en
Emma De Fabiani
@es
Emma De Fabiani
@nl
Emma De Fabiani
@sl
P1053
B-6936-2015
P106
P1153
56731304400
6701684135
P21
P31
P3829
P496
0000-0003-2406-1468