Developmental expression of elements of hepatic cholesterol metabolism in the rat

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Developmental expression of elements of hepatic cholesterol metabolism in the rat

JL Smith, SR Lear and SK Erickson
Department of Medicine, University of California, San Francisco, USA.

The expression of several key enzymes and receptors of rat hepatic cholesterol metabolism was studied during development. Among major findings were: acyl coenzyme A:cholesterol acyltransferase, the cholesteryl ester hydrolases, cholesterol-7 alpha-hydroxylase and the alpha 2-macroglobulin receptor (LRP) were very low in fetal livers, but all were induced shortly before birth, suggesting that these elements are important for extrauterine life. Although the other elements continued to increase, by day 6 of postnatal life, cholesterol-7 alpha- hydroxylase had reached undetectable levels. It reappeared by day 12 of suckling, placing it in the group of late-appearing activities necessary for the fully mature hepatic phenotype. Changes in acyl coenzyme A:cholesterol acyltransferase activity appeared due predominantly to changes in amount of active protein. The cholesteryl ester hydrolase (CEH) activities all showed different developmental patterns, suggesting that each was a unique activity. The bile salt- dependent CEH activity was much higher in the suckling period than in the adult where it was almost undetectable, suggesting that this CEH may have its major importance in the suckling period of development. Low density lipoprotein receptors exhibited a pattern very different from that of the alpha 2-macroglobulin receptors and did not show consistent correlation with any other elements. At some developmental time points, the relationships amongst the elements differed significantly from the adult pattern. These studies provide for the first time an integrated picture of developmental expression of key elements of hepatic cholesterol metabolism and set the stage for further studies on their modes of regulation.
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				T. M. Lewin, S. Wang, C. A. Nagle, C. G. Van Horn, and R. A. Coleman Mitochondrial glycerol-3-phosphate acyltransferase-1 directs the metabolic fate of exogenous fatty acids in hepatocytes Am J Physiol Endocrinol Metab, May 1, 2005; 288(5): E835 - E844. [Abstract] [Full Text] [PDF]

				L. Yao and L. A. Woollett Adult sterol metabolism is not affected by a positive sterol balance in the neonatal Golden Syrian hamster Am J Physiol Regulatory Integrative Comp Physiol, March 1, 2005; 288(3): R561 - R566. [Abstract] [Full Text] [PDF]

				S. K. Erickson, S. R. Lear, S. Deane, S. Dubrac, S. L. Huling, L. Nguyen, J. S. Bollineni, S. Shefer, H. Hyogo, D. E. Cohen, et al. Hypercholesterolemia and changes in lipid and bile acid metabolism in male and female cyp7A1-deficient mice J. Lipid Res., May 1, 2003; 44(5): 1001 - 1009. [Abstract] [Full Text] [PDF]

				M. Norlin Expression of key enzymes in bile acid biosynthesis during development: CYP7B1-mediated activities show tissue-specific differences J. Lipid Res., May 1, 2002; 43(5): 721 - 731. [Abstract] [Full Text] [PDF]

				J. Férézou, M. Combettes-Souverain, M. Souidi, J. L. Smith, N. Boehler, F. Milliat, E. Eckhardt, G. Blanchard, M. Riottot, C. Sérougne, et al. Cholesterol, bile acid, and lipoprotein metabolism in two strains of hamster, one resistant, the other sensitive (LPN) to sucrose-induced cholelithiasis J. Lipid Res., December 1, 2000; 41(12): 2042 - 2054. [Abstract] [Full Text]

				J. A. McConihay, A. M. Honkomp, N. A. Granholm, and L. A. Woollett Maternal high density lipoproteins affect fetal mass and extra-embryonic fetal tissue sterol metabolism in the mouse J. Lipid Res., March 1, 2000; 41(3): 424 - 432. [Abstract] [Full Text]

				G. J. Schroepfer Jr. Oxysterols: Modulators of Cholesterol Metabolism and Other Processes Physiol Rev, January 1, 2000; 80(1): 361 - 554. [Abstract] [Full Text] [PDF]

				W. Shi, K. F. Swan, S. R. Lear, J. S. O'Neil, S. K. Erickson, and M. C. Henson Regulation of Pathways Determining Cholesterol Availability in the Baboon Placenta with Advancing Gestation Biol Reprod, December 1, 1999; 61(6): 1499 - 1505. [Abstract] [Full Text]

				N. Boehler, M. Riottot, J. Férézou, M. Souidi, F. Milliat, C. Sérougne, J. L. Smith, and C. Lutton Antilithiasic effect of �-cyclodextrin in LPN hamster: comparison with cholestyramine J. Lipid Res., April 1, 1999; 40(4): 726 - 734. [Abstract] [Full Text]

				M. Crestani, A. Sadeghpour, D. Stroup, G. Galli, and J. Y. L. Chiang Transcriptional activation of the cholesterol 7{alpha}-hydroxylase gene (CYP7A) by nuclear hormone receptors J. Lipid Res., November 1, 1998; 39(11): 2192 - 2200. [Full Text]

				J. L. Smith, S. R. Lear, T. M. Forte, W. Ko, M. Massimi, and S. K. Erickson Effect of pregnancy and lactation on lipoprotein and cholesterol metabolism in the rat J. Lipid Res., November 1, 1998; 39(11): 2237 - 2249. [Abstract] [Full Text]

				S. Cases, S. J. Smith, Y.-W. Zheng, H. M. Myers, S. R. Lear, E. Sande, S. Novak, C. Collins, C. B. Welch, A. J. Lusis, et al. Identification of a gene encoding an acyl CoA:diacylglycerol acyltransferase, a key enzyme in triacylglycerol synthesis PNAS, October 27, 1998; 95(22): 13018 - 13023. [Abstract] [Full Text] [PDF]

				S. Cases, S. Novak, Y.-W. Zheng, H. M. Myers, S. R. Lear, E. Sande, C. B. Welch, A. J. Lusis, T. A. Spencer, B. R. Krause, et al. ACAT-2, A Second Mammalian Acyl-CoA:Cholesterol Acyltransferase. ITS CLONING, EXPRESSION, AND CHARACTERIZATION J. Biol. Chem., October 9, 1998; 273(41): 26755 - 26764. [Abstract] [Full Text] [PDF]

				A. K. Hatzopoulos, A. Rigotti, R. D. Rosenberg, and M. Krieger Temporal and spatial pattern of expression of the HDL receptor SR-BI during murine embryogenesis J. Lipid Res., March 1, 1998; 39(3): 495 - 508. [Abstract] [Full Text]

				K. L. Wyne and L. A. Woollett Transport of maternal LDL and HDL to the fetal membranes and placenta of the Golden Syrian hamster is mediated by receptor-dependent and receptor-independent processes J. Lipid Res., March 1, 1998; 39(3): 518 - 530. [Abstract] [Full Text]

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Developmental expression of elements of hepatic cholesterol metabolism in the rat