Genetic analysis of cholesterol gallstone formation: Searching for Lith (gallstone) genes

Wang, David Q.–H.; Afdhal, Nezam H.

doi:10.1007/s11894-004-0042-1

Cited by 67 publications

(55 citation statements)

References 87 publications

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“…However, lack of a significant change in hepatic SHP content between genotypes argues against involvement of SHP-dependent pathways in CYP7A1 repression. 4 Alternately, PKC␤ directly phosphorylates nuclear receptors (LXR, FXR, and PPAR␣) and/or the transcription factor SREBP-1c and suppresses CYP7A1 transcription, which is in line with earlier reports showing the ability of PKCs to phosphorylate and modify the above transcription factors (59 -63). The absence of changes in LXR (ABCG5/8) or FXR (ABCB11) target genes argues against a mechanism involving these transcriptional regulators.…”

Section: Discussionsupporting

confidence: 88%

“…Approximately 12% of individuals in the United States are affected by gallstones with more than 750,000 cholecystectomies being performed each year (1,2). The pathogenesis of gallstone disease is multifactorial, involving interactions between genetic and environmental factors that result in bile supersaturation, gallbladder hypomotility, and precipitation/nucleation of cholesterol microcrystals (3,4). Obesity, aging, estrogen treatment, and diabetes are consistently associated with a higher risk of gallstones (5,6).…”

mentioning

confidence: 99%

“…The signaling mechanisms that link changes in the triglyceride (TG) 3 content of the body and impaired glucose metabolism to cholesterol gallstone formation are unknown, but our knowledge is rapidly expanding. Systemic genomewide scans in mice from experimental crosses of inbred mouse strains have mapped the "Lith" loci to increased gallstone susceptibility (3,4). A growing number of genetic variants in some of these genes have been linked to human gallstone disease (10).…”

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confidence: 99%

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Disruption of the Murine Protein Kinase Cβ Gene Promotes Gallstone Formation and Alters Biliary Lipid and Hepatic Cholesterol Metabolism

Huang¹,

Bansode

Rowland

et al. 2011

Journal of Biological Chemistry

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The protein kinase C (PKC) family of Ca 2؉ and/or lipid-activated serine-threonine protein kinases is implicated in the pathogenesis of obesity and insulin resistance. We recently reported that protein kinase C␤ (PKC␤), a calcium-, diacylglycerol-, and phospholipid-dependent kinase, is critical for maintaining whole body triglyceride homeostasis. We now report that PKC␤ deficiency has profound effects on murine hepatic cholesterol metabolism, including hypersensitivity to diet-induced gallstone formation. The incidence of gallstones increased from 9% in control mice to 95% in PKC␤ ؊/؊ mice. Gallstone formation in the mutant mice was accompanied by hyposecretion of bile acids with no alteration in fecal bile acid excretion, increased biliary cholesterol saturation and hydrophobicity indices, as well as hepatic p42/44 MAPK activation, all of which enhance susceptibility to gallstone formation. Lithogenic diet-fed PKC␤ ؊/؊ mice also displayed decreased expression of hepatic cholesterol-7␣-hydroxylase (CYP7A1) and sterol 12␣-hydroxylase (CYP8b1). Finally, feeding a modified lithogenic diet supplemented with milk fat, instead of cocoa butter, both increased the severity of and shortened the interval for gallstone formation in PKC␤ ؊/؊ mice and was associated with dramatic increases in cholesterol saturation and hydrophobicity indices. Taken together, the findings reveal a hitherto unrecognized role of PKC␤ in fine tuning diet-induced cholesterol and bile acid homeostasis, thus identifying PKC␤ as a major physiological regulator of both triglyceride and cholesterol homeostasis.

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Section: Discussionsupporting

confidence: 88%

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confidence: 99%

mentioning

confidence: 99%

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Disruption of the Murine Protein Kinase Cβ Gene Promotes Gallstone Formation and Alters Biliary Lipid and Hepatic Cholesterol Metabolism

Huang¹,

Bansode

Rowland

et al. 2011

Journal of Biological Chemistry

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“…On chow, the APO-B100 deficiency in S tudies in humans and inbred mice have demonstrated that a complex genetic basis determines the individual and strain predisposition to develop cholesterol gallstones in response to environmental factors. 1 The primary pathophysiological defect involved in cholesterol gallstone formation is increased biliary secretion of cholesterol from the liver, which produces bile supersaturated with cholesterol. 2 Subsequently, biliary cholesterol precipitates as "anhydrous" and monohydrate crystals, which grow and agglomerate toward the formation of macroscopic stones in the gallbladder.…”

mentioning

confidence: 99%

“…1 The primary pathophysiological defect involved in cholesterol gallstone formation is increased biliary secretion of cholesterol from the liver, which produces bile supersaturated with cholesterol. 2 Subsequently, biliary cholesterol precipitates as "anhydrous" and monohydrate crystals, which grow and agglomerate toward the formation of macroscopic stones in the gallbladder.…”

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confidence: 99%

Reduced Susceptibility to Cholesterol Gallstone Formation in Mice That Do Not Produce Apolipoprotein B48 in the Intestine *

Wang

2005

Hepatology

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It has been found that polymorphisms in the apolipoprotein (APO)-B gene are associated with cholesterol gallstones in humans. We hypothesized that APO-B plays a major regulatory role in the response of biliary cholesterol secretion to high dietary cholesterol and contributes to cholesterol gallstone formation. In the present study, we investigated whether lack of expression of intestinal Apob48 or Apob100 reduces susceptibility to cholesterol gallstones by decreasing intestinal absorption and biliary secretion of cholesterol in male mice homozygous for an "APO-B48 only" allele (Apob 48/48 ), an "APO-B100 only" allele (Apob 100/100 ), or a wild-type APO-B allele (Apob ؉/؉ ) before and during an 8-week lithogenic diet. We found that cholesterol absorption was significantly decreased as a result of the APO-B48 deficiency in Apob 100/100 mice compared with wild-type and Apob 48/48 mice, regardless of whether chow or the lithogenic diet was administered. Consequently, hepatic cholesterol synthesis was significantly increased in Apob 100/ 100 mice compared with wild-type and Apob 48/48 mice. On chow, the APO-B100 deficiency in S tudies in humans and inbred mice have demonstrated that a complex genetic basis determines the individual and strain predisposition to develop cholesterol gallstones in response to environmental factors. 1 The primary pathophysiological defect involved in cholesterol gallstone formation is increased biliary secretion of cholesterol from the liver, which produces bile supersaturated with cholesterol. 2 Subsequently, biliary cholesterol precipitates as "anhydrous" and monohydrate crystals, which grow and agglomerate toward the formation of macroscopic stones in the gallbladder. Biliary cholesterol is mostly derived from circulating lipoproteins, which originate from the hepatic uptake of plasma high-density lipoprotein (HDL) and chylomicron remnants. [3][4][5][6][7][8] Thus, the potential interrelationship between lipoprotein metabolism-related genes and cholesterol gallstones requires further investigation. In particular, it has been found that polymorphisms in the apolipoprotein (APO)-B gene are associated with cholesterol gallstones in humans. 9-12 Therefore, we hypothesized that APO-B plays a major regulatory role in the response of biliary cholesterol secretion to high dietary cholesterol and contributes to the formation of cholesterol gallstones. APO-B has two different isoforms, APO-B48 and APO-B100, and plays a particularly critical role in the Abbreviations: APO, apolipoprotein; HDL, VLDL, LDL, mRNA, messenger RNA.

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Gallstones

Portincasa¹,

Wang²

2015

Yamada' S Textbook of Gastroenterology

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Genetic analysis of cholesterol gallstone formation: Searching for Lith (gallstone) genes

Cited by 67 publications

References 87 publications

Disruption of the Murine Protein Kinase Cβ Gene Promotes Gallstone Formation and Alters Biliary Lipid and Hepatic Cholesterol Metabolism

Disruption of the Murine Protein Kinase Cβ Gene Promotes Gallstone Formation and Alters Biliary Lipid and Hepatic Cholesterol Metabolism

Reduced Susceptibility to Cholesterol Gallstone Formation in Mice That Do Not Produce Apolipoprotein B48 in the Intestine *

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