SPHINGOMYELIN CONTENT OF INTESTINAL-CELL MEMBRANES REGULATES CHOLESTEROL ABSORPTION - EVIDENCE FOR PANCREATIC AND INTESTINAL-CELL SPHINGOMYELINASE ACTIVITY

被引：66

作者：

CHEN, H ^{[1
]}

BORN, E ^{[1
]}

MATHUR, SN ^{[1
]}

JOHLIN, FC ^{[1
]}

FIELD, FJ ^{[1
]}

机构：

[1] VET ADM MED CTR,IOWA CITY,IA 52242

来源：

BIOCHEMICAL JOURNAL | 1992年 / 286卷

关键词：

D O I：

10.1042/bj2860771

中图分类号：

Q5 [生物化学]; Q7 [分子生物学];

学科分类号：

071010 ; 081704 ;

摘要：

Micellar cholesterol uptake and secretion were investigated in the human intestinal cell line CaCo-2 following depletion of apical membrane sphingomyelin. The addition of exogenous sphingomyelinase, which hydrolysed 60% of prelabelled sphingomyelin. resulted in a 50% decrease in the uptake of cholesterol from bile salt micelles. The flux of membrane cholesterol into the cell by the hydrolysis of membrane sphingomyelin decreased the rate of cholesterol synthesis by 43% and inhibited hydroxymethylglutaryl-CoA reductase activity by 54%. Moreover, the rate of cholesterol esterification was increased 4-fold. Total cellular cholesterol mass was unchanged by the addition of sphingomyelinase; however, cholesteryl esters increased by 50% and the amount of unesterified cholesterol decreased significantly. The basolateral secretion of cholesterol mass was also decreased following sphingomyelin hydrolysis. Human pancreatic juice was found to contain neutral sphingomyelinase activity which required taurocholate for full expression. The presence of neutral sphingomyelinase activity was also documented in membranes prepared from CaCo-2 cells and in whole homogenates from human duodenal biopsies. The data suggest that the amount of sphingomyelin present in the apical membrane of the intestinal absorptive cell regulates cholesterol uptake from bile salt micelles. Sphingomyelinase activity within intestinal cells and in pancreatic juice could alter the sphingomyelin content of brush-border membranes of small intestinal absorptive cells and thus regulate the amount of cholesterol absorbed by the gut.

引用

页码：771 / 777

页数：7

共 50 条

[31] INTRALUMINAL VERSUS HUMORAL-FACTORS IN INTESTINAL-CELL PROLIFERATION
LI, AKC
JEPPSSON, BW
JAMIESON, CG
BRITISH JOURNAL OF SURGERY, 1982, 69 (10) : 569 - 572
[32] PROGRAMMED CELL-DEATH (APOPTOSIS) DURING INTESTINAL-CELL DIFFERENTIATION
MAHESHWARI, Y
SYKES, D
WEISER, MM
GASTROENTEROLOGY, 1993, 104 (04) : A262 - A262
[33] SHIGA TOXIN - INTESTINAL-CELL RECEPTORS AND PATHOPHYSIOLOGY OF ENTEROTOXIC EFFECTS
KEUSCH, GT
JACEWICZ, M
MOBASSALEH, M
DONOHUEROLFE, A
REVIEWS OF INFECTIOUS DISEASES, 1991, 13 : S304 - S310
[34] EFFECT OF CHEMICAL ABLATION OF MYENTERIC NEURONS ON INTESTINAL-CELL PROLIFERATION
ZUCOLOTO, S
DIAZ, JA
OLIVEIRA, JSM
MUCCILO, G
NETO, VNS
KAJIWARA, JK
CELL AND TISSUE KINETICS, 1988, 21 (04): : 213 - 219
[35] THE ROLE OF VITAMIN-D IN BONE AND INTESTINAL-CELL DIFFERENTIATION
SUDA, T
SHINKI, T
TAKAHASHI, N
ANNUAL REVIEW OF NUTRITION, 1990, 10 : 195 - 211
[36] RELATIVE ROLES OF GASTRIN AND GLUCAGON IN THE CONTROL OF INTESTINAL-CELL PROLIFERATION
FATEMI, SH
CULLAN, GE
CROUSE, DA
SHARP, JG
CELL AND TISSUE KINETICS, 1980, 13 (06): : 685 - 686
[37] SPECIFIC INHIBITOR OF INTESTINAL-CELL PROLIFERATION - ISOLATION FROM RAT INTESTINAL VILLOUS CELLS
MAY, RJ
QUARONI, A
KIRSCH, K
ISSELBACHER, KJ
GASTROENTEROLOGY, 1979, 76 (05) : 1196 - 1196
[38] PRE-ADIPOSE AND INTESTINAL-CELL LINES - FACTS AND PROSPECTIVE
NEGREL, R
SERRERO, G
GRIMALDI, P
RAMPAL, P
AILHAUD, G
ANNALES DE LA NUTRITION ET DE L ALIMENTATION, 1979, 33 (04): : 526 - 527
[39] MATRIX PROTEIN-SYNTHESIS IN HUMAN INTESTINAL-CELL CULTURES
HAHN, U
VONPAPEN, A
SCHUPPAN, D
HAHN, EG
RIECKEN, EO
MADDREY, WC
ZEITSCHRIFT FUR GASTROENTEROLOGIE, 1988, 26 (09): : 524 - 524
[40] DECREASED ACTIVITY OF ACYL-COA - CHOLESTEROL ACYLTRANSFERASE BY INSULIN IN HUMAN INTESTINAL-CELL LINE CACO-2
JIAO, S
MOBERLY, JB
COLE, TG
SCHONFELD, G
DIABETES, 1989, 38 (05) : 604 - 609

← 1 2 3 4 5 →