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Items: 1 to 20 of 137

1.

Soya protein stimulates bile acid excretion by the liver and intestine through direct and indirect pathways influenced by the presence of dietary cholesterol.

Arellano-Martínez GL, Granados O, Palacios-González B, Torres N, Medina-Vera I, Tovar AR.

Br J Nutr. 2014 Jun 28;111(12):2059-66. doi: 10.1017/S0007114514000361.

PMID:
24666631
3.

Constitutive androstane receptor activation stimulates faecal bile acid excretion and reverse cholesterol transport in mice.

Sberna AL, Assem M, Gautier T, Grober J, Guiu B, Jeannin A, Pais de Barros JP, Athias A, Lagrost L, Masson D.

J Hepatol. 2011 Jul;55(1):154-61. doi: 10.1016/j.jhep.2010.10.029.

PMID:
21145854
4.

Delineation of biochemical, molecular, and physiological changes accompanying bile acid pool size restoration in Cyp7a1(-/-) mice fed low levels of cholic acid.

Jones RD, Repa JJ, Russell DW, Dietschy JM, Turley SD.

Am J Physiol Gastrointest Liver Physiol. 2012 Jul 15;303(2):G263-74. doi: 10.1152/ajpgi.00111.2012.

6.

Dietary soy protein isolate and its undigested high molecular fraction upregulate hepatic ATP-binding cassette transporter G5 and ATP-binding cassette transporter G8 mRNA and increase biliary secretion of cholesterol in rats.

Ikeda I, Kudo M, Hamada T, Nagao K, Oshiro Y, Kato M, Sugawara T, Yamahira T, Ito H, Tamaru S, Sato M, Imaizumi K, Nagaoka S, Yanagita T.

J Nutr Sci Vitaminol (Tokyo). 2009 Jun;55(3):252-6.

8.

Overexpression of cholesterol 7α-hydroxylase promotes hepatic bile acid synthesis and secretion and maintains cholesterol homeostasis.

Li T, Matozel M, Boehme S, Kong B, Nilsson LM, Guo G, Ellis E, Chiang JY.

Hepatology. 2011 Mar;53(3):996-1006. doi: 10.1002/hep.24107.

9.

Abcg5/8 independent biliary cholesterol excretion in Atp8b1-deficient mice.

Groen A, Kunne C, Jongsma G, van den Oever K, Mok KS, Petruzzelli M, Vrins CL, Bull L, Paulusma CC, Oude Elferink RP.

Gastroenterology. 2008 Jun;134(7):2091-100. doi: 10.1053/j.gastro.2008.02.097.

PMID:
18466903
10.

The hypocholesterolemic activity of Momordica charantia fruit is mediated by the altered cholesterol- and bile acid-regulating gene expression in rat liver.

Matsui S, Yamane T, Takita T, Oishi Y, Kobayashi-Hattori K.

Nutr Res. 2013 Jul;33(7):580-5. doi: 10.1016/j.nutres.2013.05.002.

PMID:
23827133
11.

Influence of dietary sugar on cholesterol and bile acid metabolism in the rat: Marked reduction of hepatic Abcg5/8 expression following sucrose ingestion.

Apro J, Beckman L, Angelin B, Rudling M.

Biochem Biophys Res Commun. 2015 Jun 12;461(4):592-7. doi: 10.1016/j.bbrc.2015.04.070.

PMID:
25912874
12.
14.

Abcg5/Abcg8-independent pathways contribute to hepatobiliary cholesterol secretion in mice.

Plösch T, van der Veen JN, Havinga R, Huijkman NC, Bloks VW, Kuipers F.

Am J Physiol Gastrointest Liver Physiol. 2006 Sep;291(3):G414-23.

15.

Mouse organic solute transporter alpha deficiency alters FGF15 expression and bile acid metabolism.

Lan T, Rao A, Haywood J, Kock ND, Dawson PA.

J Hepatol. 2012 Aug;57(2):359-65. doi: 10.1016/j.jhep.2012.03.025.

16.

Overexpression of ABCG5 and ABCG8 promotes biliary cholesterol secretion and reduces fractional absorption of dietary cholesterol.

Yu L, Li-Hawkins J, Hammer RE, Berge KE, Horton JD, Cohen JC, Hobbs HH.

J Clin Invest. 2002 Sep;110(5):671-80.

17.

Atorvastatin induces bile acid-synthetic enzyme Cyp7a1 by suppressing FXR signaling in both liver and intestine in mice.

Fu ZD, Cui JY, Klaassen CD.

J Lipid Res. 2014 Dec;55(12):2576-86. doi: 10.1194/jlr.M053124.

18.

Scavenger receptor class B type I mediates biliary cholesterol secretion independent of ATP-binding cassette transporter g5/g8 in mice.

Wiersma H, Gatti A, Nijstad N, Oude Elferink RP, Kuipers F, Tietge UJ.

Hepatology. 2009 Oct;50(4):1263-72. doi: 10.1002/hep.23112.

PMID:
19637290
19.

Endotoxin down-regulates ABCG5 and ABCG8 in mouse liver and ABCA1 and ABCG1 in J774 murine macrophages: differential role of LXR.

Khovidhunkit W, Moser AH, Shigenaga JK, Grunfeld C, Feingold KR.

J Lipid Res. 2003 Sep;44(9):1728-36.

20.

Studies on LXR- and FXR-mediated effects on cholesterol homeostasis in normal and cholic acid-depleted mice.

Wang J, Einarsson C, Murphy C, Parini P, Björkhem I, Gåfvels M, Eggertsen G.

J Lipid Res. 2006 Feb;47(2):421-30.

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