F.M. Konikoff scite author profile

Precipitation of cholesterol in gallbladder bile is believed to produce platelike cholesterol monohydrate crystals directly. We report complementary time-lapse microscopic studies of cholesterol crystallization from model bile that reveal initial assembly offilamentous cholesterol crystals covered by a monomolecular layer of lecithin. Over a few days, the filaments evolved through needle, helical, and tubular microstructures to form classical platelike cholesterol monohydrate crystals. Similar crystallization phenomena were observed in human gallbladder biles from cholesterol but not pigment stone patients. Synchrotron x-ray diffraction of the earliest filaments suggested a cholesterol monohydrate polymorph or admixture with an anhydrous cholesterol precursor. However, density gradient centrifugation of filamentous crystals revealed that their density was 1.032 g / ml, consistent with anhydrous cholesterol. Conventional x-ray diffraction of transitional crystalline forms was consistent with pure cholesterol monohydrate crystals, as were the equilibrium platelike crystals. These novel findings suggest that crystalline cholesterol in bile may not be completely mature or hydrated initially, but undergoes a series of transformations to become thermodynamically stable monohydrate plates. These observations have important implications for understanding the control of cholesterol crystallization in bile, as well as explaining putative crystal cytotoxicity during gallstone formation. (J. Clin. Invest. 1992. 90:1155-1160

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Phospholipid molecular species influence crystal habits and transition sequences of metastable intermediates during cholesterol crystallization from bile salt-rich model bile.

Konikoff¹,

Cohen²,

Carey³

1994

Journal of Lipid Research

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Prevention of cholesterol crystallization in bile using phospholipid derivatives and fatty acid bile acid conjugates

Konikoff¹,

Goldiner²,

Sömjen³

et al. 2000

Journal of Hepatology

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Direct visualization of supra-molecular lipid aggregates during cholesterol crystallization in bile

Konikoff¹,

Kaplun²,

Rubin³

et al. 1995

Gastroenterology

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Fatty acid bile acid conjugates (FABACS) verhindern die Entstehung einer Fettleber durch eine Änderung der Expression hepatischer Lipidtransporter

Klass¹,

Konikoff²,

Gilat³

et al. 2004

Z Gastroenterol

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F.M. Konikoff

Filamentous, helical, and tubular microstructures during cholesterol crystallization from bile. Evidence that cholesterol does not nucleate classic monohydrate plates.

Phospholipid molecular species influence crystal habits and transition sequences of metastable intermediates during cholesterol crystallization from bile salt-rich model bile.

Prevention of cholesterol crystallization in bile using phospholipid derivatives and fatty acid bile acid conjugates

Direct visualization of supra-molecular lipid aggregates during cholesterol crystallization in bile

Fatty acid bile acid conjugates (FABACS) verhindern die Entstehung einer Fettleber durch eine Änderung der Expression hepatischer Lipidtransporter

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