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Items: 1 to 50 of 63

1.

Immunometabolism of Phagocytes and Relationships to Cardiac Repair.

Zhang S, Bories G, Lantz C, Emmons R, Becker A, Liu E, Abecassis MM, Yvan-Charvet L, Thorp EB.

Front Cardiovasc Med. 2019 Apr 11;6:42. doi: 10.3389/fcvm.2019.00042. eCollection 2019. Review.

2.

Metabolism Plays a Key Role during Macrophage Activation.

Stunault MI, Bories G, Guinamard RR, Ivanov S.

Mediators Inflamm. 2018 Dec 10;2018:2426138. doi: 10.1155/2018/2426138. eCollection 2018. Review.

3.

Macrophages sensing oxidized DAMPs reprogram their metabolism to support redox homeostasis and inflammation through a TLR2-Syk-ceramide dependent mechanism.

Serbulea V, Upchurch CM, Ahern KW, Bories G, Voigt P, DeWeese DE, Meher AK, Harris TE, Leitinger N.

Mol Metab. 2018 Jan;7:23-34. doi: 10.1016/j.molmet.2017.11.002. Epub 2017 Nov 7.

4.

Macrophage metabolism in atherosclerosis.

Bories GFP, Leitinger N.

FEBS Lett. 2017 Oct;591(19):3042-3060. doi: 10.1002/1873-3468.12786. Epub 2017 Sep 7. Review.

5.

Liver X receptor activation stimulates iron export in human alternative macrophages.

Bories G, Colin S, Vanhoutte J, Derudas B, Copin C, Fanchon M, Daoudi M, Belloy L, Haulon S, Zawadzki C, Jude B, Staels B, Chinetti-Gbaguidi G.

Circ Res. 2013 Nov 8;113(11):1196-205. doi: 10.1161/CIRCRESAHA.113.301656. Epub 2013 Sep 13.

6.

Assessment of an automated in vitro basal cytotoxicity test system based on metabolically-competent cells.

Rodrigues RM, Bouhifd M, Bories G, Sacco MG, Gribaldo L, Fabbri M, Coecke S, Whelan MP.

Toxicol In Vitro. 2013 Mar;27(2):760-7. doi: 10.1016/j.tiv.2012.12.004. Epub 2012 Dec 20.

PMID:
23261643
7.

Human adipose tissue macrophages display activation of cancer-related pathways.

Mayi TH, Daoudi M, Derudas B, Gross B, Bories G, Wouters K, Brozek J, Caiazzo R, Raverdi V, Pigeyre M, Allavena P, Mantovani A, Pattou F, Staels B, Chinetti-Gbaguidi G.

J Biol Chem. 2012 Jun 22;287(26):21904-13. doi: 10.1074/jbc.M111.315200. Epub 2012 Apr 17.

8.

Automation of an in vitro cytotoxicity assay used to estimate starting doses in acute oral systemic toxicity tests.

Bouhifd M, Bories G, Casado J, Coecke S, Norlén H, Parissis N, Rodrigues RM, Whelan MP.

Food Chem Toxicol. 2012 Jun;50(6):2084-96. doi: 10.1016/j.fct.2012.03.046. Epub 2012 Mar 21.

PMID:
22465836
9.

Impaired alternative macrophage differentiation of peripheral blood mononuclear cells from obese subjects.

Bories G, Caiazzo R, Derudas B, Copin C, Raverdy V, Pigeyre M, Pattou F, Staels B, Chinetti-Gbaguidi G.

Diab Vasc Dis Res. 2012 Jul;9(3):189-95. doi: 10.1177/1479164111430242. Epub 2011 Dec 22.

10.

Human atherosclerotic plaque alternative macrophages display low cholesterol handling but high phagocytosis because of distinct activities of the PPARγ and LXRα pathways.

Chinetti-Gbaguidi G, Baron M, Bouhlel MA, Vanhoutte J, Copin C, Sebti Y, Derudas B, Mayi T, Bories G, Tailleux A, Haulon S, Zawadzki C, Jude B, Staels B.

Circ Res. 2011 Apr 15;108(8):985-95. doi: 10.1161/CIRCRESAHA.110.233775. Epub 2011 Feb 24.

11.

Contributions of the response regulators Ssk1p and Skn7p in the pseudohyphal development, stress adaptation, and drug sensitivity of the opportunistic yeast Candida lusitaniae.

Ruprich-Robert G, Chapeland-Leclerc F, Boisnard S, Florent M, Bories G, Papon N.

Eukaryot Cell. 2008 Jun;7(6):1071-4. doi: 10.1128/EC.00066-08. Epub 2008 Apr 11.

12.

Enzyme immunoassay for a urinary metabolite of 4-hydroxynonenal as a marker of lipid peroxidation.

Guéraud F, Peiro G, Bernard H, Alary J, Créminon C, Debrauwer L, Rathahao E, Drumare MF, Canlet C, Wal JM, Bories G.

Free Radic Biol Med. 2006 Jan 1;40(1):54-62. Epub 2005 Sep 2.

PMID:
16337879
13.

Identification of novel urinary metabolites of the lipid peroxidation product 4-hydroxy-2-nonenal in rats.

Alary J, Debrauwer L, Fernandez Y, Paris A, Cravedi JP, Dolo L, Rao D, Bories G.

Chem Res Toxicol. 1998 Nov;11(11):1368-76.

PMID:
9815199
14.

Metabolism of clenbuterol in rats.

Zalko D, Debrauwer L, Bories G, Tulliez J.

Drug Metab Dispos. 1998 Sep;26(9):891-9.

PMID:
9733668
15.

1,4-Dihydroxynonene mercapturic acid, the major end metabolite of exogenous 4-hydroxy-2-nonenal, is a physiological component of rat and human urine.

Alary J, Debrauwer L, Fernandez Y, Cravedi JP, Rao D, Bories G.

Chem Res Toxicol. 1998 Feb;11(2):130-5.

PMID:
9511904
16.

Evidence for a new and major metabolic pathway clenbuterol involving in vivo formation of an N-hydroxyarylamine.

Zalko D, Debrauwer L, Bories G, Tulliez J.

Chem Res Toxicol. 1997 Feb;10(2):197-204.

PMID:
9049431
17.

Chloramphenicol oxamylethanolamine as an end product of chloramphenicol metabolism in rat and humans: evidence for the formation of a phospholipid adduct.

Cravedi JP, Perdu-Durand E, Baradat M, Alary J, Debrauwer L, Bories G.

Chem Res Toxicol. 1995 Jul-Aug;8(5):642-8.

PMID:
7548746
18.

Mercapturic acid conjugates as urinary end metabolites of the lipid peroxidation product 4-hydroxy-2-nonenal in the rat.

Alary J, Bravais F, Cravedi JP, Debrauwer L, Rao D, Bories G.

Chem Res Toxicol. 1995 Jan-Feb;8(1):34-9.

PMID:
7703364
19.

Evidence for new metabolic pathways of chloramphenicol in the duck.

Cravedi JP, Baradat M, Debrauwer L, Alary J, Tulliez J, Bories G.

Drug Metab Dispos. 1994 Jul-Aug;22(4):578-83.

PMID:
7956733
20.

Metabolism of chloramphenicol: a story of nearly 50 years.

Bories GF, Cravedi JP.

Drug Metab Rev. 1994;26(4):767-83. Review. No abstract available.

PMID:
7875065
21.

[Current trends in the field of animal husbandry].

Bories G.

Bull Acad Natl Med. 1992 Nov;176(8):1305-15; discussion 1316. French.

PMID:
1300228
22.

Evidence for glucuronidation and sulfation of zeranol and metabolites (taleranol and zearalanone) by rat and pig hepatic subfractions.

Bories GF, Perdu-Durand EF, Sutra JF, Tulliez JE.

Drug Metab Dispos. 1991 Jan-Feb;19(1):140-3.

PMID:
1673387
23.

Profiling of free and conjugated [3H]zeranol metabolites in pig plasma.

Bories G, Suarez AF.

J Chromatogr. 1989 Apr 7;489(1):191-7.

PMID:
2745648
24.

New aspects of metabolic conjugation of chloramphenicol.

Wal JM, Peleran JC, Perdu E, Rao D, Bories G.

Drug Metab Dispos. 1988 Jul-Aug;16(4):635-9.

PMID:
2903035
25.
26.

[3H]chloramphenicol metabolism in human volunteer: oxamic acid as a new major metabolite.

Corpet DE, Bories GF.

Drug Metab Dispos. 1987 Nov-Dec;15(6):925-7. No abstract available.

PMID:
2893723
28.

Bioautographic method for evaluation of glycopeptide actaplanin in milk.

Bories GF, Baradat MM, Corpet DE.

J Assoc Off Anal Chem. 1986 Nov-Dec;69(6):938-40.

PMID:
3100501
29.

Gas chromatographic determination and mass spectrometric confirmation of traces of indole and 3-methylindole (skatole) in pig back fat.

Peleran JC, Bories GF.

J Chromatogr. 1985 May 24;324(2):469-74. No abstract available.

PMID:
4008558
30.

Growth reduction in trout induced by naphthenic and isoprenoid hydrocarbons (Dodecylcyclohexane and pristane).

Luquet P, Cravedi JP, Tulliez J, Bories G.

Ecotoxicol Environ Saf. 1984 Jun;8(3):219-26.

PMID:
6734499
31.

Liquid chromatographic determination and mass spectrometric confirmation of chloramphenicol residues in animal tissues.

Bories GS, Peleran JC, Wal JM.

J Assoc Off Anal Chem. 1983 Nov;66(6):1521-6.

PMID:
6643367
32.

Comparative metabolism of chloramphenicol in germfree and conventional rats.

Wal JM, Corpet DE, Peleran JC, Bories GF.

Antimicrob Agents Chemother. 1983 Jul;24(1):89-94.

33.
34.

Metabolic fate and pharmacokinetics of tissue residues of the anticoccidial drug robenidine in the rabbit. Incidence of coprophagy on its bioavailability.

Tulliez JE, Durand EF, Bories GF.

J Agric Food Chem. 1982 Nov-Dec;30(6):1071-5. No abstract available.

PMID:
6890962
35.

[Labelled molecules and relay toxicity].

Bories G, Scheid JP.

Toxicol Eur Res. 1982 Sep;4(5):257-63. French. No abstract available.

PMID:
7164092
36.

In vitro penicillin aminolysis: application to a radioimmunoassay of trace amounts of penicillin.

Wal JM, Bories GF.

Anal Biochem. 1981 Jul 1;114(2):263-7. No abstract available.

PMID:
7304915
37.

Identification of chloramphenicol oxamic acid as a new major metabolite of chloramphenicol in rats.

Wal JM, Peleran JC, Bories GF.

FEBS Lett. 1980 Sep 22;119(1):38-42. No abstract available.

38.

High-performance liquid chromatographic determination of Olaquindox in feeds.

Bories GF.

J Chromatogr. 1979 Apr 21;172:505-8. No abstract available.

PMID:
548542
39.
40.
42.

[Rapid and dose sensitive high pressure liquid chromatography of chloramphenicol in serum].

Wal JM, Peleran JC, Bories G.

J Chromatogr. 1978 May 1;145(3):502-6. French. No abstract available.

PMID:
659540
43.

Metabolism of a n-paraffin, heptadecane, in rats.

Tulliez JE, Bories GF.

Lipids. 1978 Feb;13(2):110-5.

PMID:
634042
44.

[Survey of contamination of food by 3,4-benzopyrene. II. Application to the study of smoked foods].

Bories G, Tchimbakala A, Tchimbakala E.

Ann Nutr Aliment. 1978;32(4):811-7. French. No abstract available.

PMID:
736387
46.

A versatile method for the determination of normal paraffins in foods.

Bories GF, Tulliez JE.

J Sci Food Agric. 1977 Nov;28(11):996-9. No abstract available.

PMID:
592752
47.
48.

Fate of tritium in calves subcutaneously implanted with H-diethylstilbestrol.

Bories GF, Ferrando R, Woirhaye J, Peleran JC, Valette JP.

J Anim Sci. 1977 Apr;44(4):680-6. No abstract available.

PMID:
853025
49.

[Course of the level of aliphatic and naphtenic hydrocarbons and of 3,4-benzopyrene in mussels taken in a coast area polluted by a fuel spill].

Bories G, Tulliez J, Peltier JC, Fleckinger R.

C R Acad Hebd Seances Acad Sci D. 1976 May 3;282(17):1641-4. French.

PMID:
820468
50.

Radioimmunoassay of penicilloyl groups in biological fluids.

Wal JM, Bories G, Mamas S, Dray F.

FEBS Lett. 1975 Sep 1;57(1):9-13. No abstract available.

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