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Query: UMLS:C0019204 (
hepatocellular carcinoma
)
71,386
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Choline is required to make certain phospholipids which are essential components of all membranes. It is a precursor for biosynthesis of the neurotransmitter acetylcholine and also is an important source of labile methyl groups. Much attention has been given to the effect of supplemental choline upon brain function, i.e., enhancement of acetylcholine synthesis and release. In addition, choline supplements administered to rats in utero or shortly after birth permanently after brain function. The mechanisms for this effect is unknown and under investigation at this time. Healthy humans fed diets deficient in choline, and humans fed parenterally have decreased plasma choline concentrations and develop liver dysfunction that is similar to that seen in choline-deficient animals. In experimental animals, fatty liver occurs in
choline deficiency
because phosphatidylcholine synthesis is required for very low-density lipoprotein secretion. This accumulation of lipids in liver may explain why choline-deficient rats spontaneously develop
hepatocarcinoma
. We found that
choline deficiency
was associated with the accumulation of 1,2-diacylglycerol, an activator of protein kinase C. Several lines of evidence indicate that cancers might develop secondary to abnormalities in protein kinase C-mediated signal transduction.
...
PMID:Choline: an important nutrient in brain development, liver function and carcinogenesis. 145 45
New information on the pathologic effects of a choline deficient diet in the rat, in relation to the biochemical events, has led to a new understanding and orientation of the pathogenesis of both acute and chronic consequences in the liver. The biochemical pathology of
choline deficiency
is quite different than that of methyl group (lipotrope) deficiency. These studies in our laboratory and elsewhere are generating new insights and hypotheses concerning the genesis of hepatocyte necrosis and
hepatocellular carcinoma
in the rat fed a choline deficient diet.
...
PMID:Liver biochemical pathology of choline deficiency and of methyl group deficiency: a new orientation and assessment. 759 41
Rats fed a choline deficient diet develop foci of enzyme-altered hepatocytes with subsequent formation of hepatic tumors. This is the only nutritional deficiency that, in itself, causes cancer. We suggested that carcinogenesis is triggered, in part, because of abnormalities in cell signals which regulate cell proliferation and cell death. Because choline deficient rats develop fatty liver (choline is needed for hepatic secretion of certain lipoproteins), we examined whether an important lipid second messenger involved in proliferative signaling, 1,2-sn-diacylglycerol, accumulated in liver and resulted in the prolonged activation of protein kinase C. We observed that 1,2-sn-diacylglycerol accumulated in the plasma membrane from the non-tumor portion of livers of rats fed a choline deficient diet, and that unsaturated free fatty acids, another activator of protein kinase C, also accumulated in deficient livers. Protein kinase C in the hepatic plasma membrane and nucleus of choline deficient rats was elevated for months; this is the only model system which exhibits such prolonged activation of protein kinase C. Premalignant, abnormal hepatic foci were detected only in the deficient rats, and 15% of deficient rats (none of the controls) had
hepatocellular carcinoma
at 1 year on the diet. In rats, an early event in
choline deficiency
is an increase in the rate of cell death. In liver from choline deficient rats, we observed an increase in the numbers of liver cells with fragmented DNA (characteristic of programmed cell death; apoptosis). We used a cell culture model (immortalized rat hepatocytes) to study the effects of
choline deficiency
on apoptosis. Liver cells grown in a choline deficient medium became depleted of choline, accumulated triacylglycerol and 1,2-sn-diacylglycerol, and had increased DNA fragmentation and other morphologic and biochemical changes associated with apoptosis. This model has great potential as a tool for studying the underlying link between
choline deficiency
and the regulation of the balance between cell proliferation and cell death. We suggest that
choline deficiency
altered the cell proliferation signals mediated by protein kinase C within liver, and altered cell apoptosis. These changes in cell signaling may be the triggering events which result in hepatic carcinogenesis.
...
PMID:Choline and hepatocarcinogenesis in the rat. 764 29
Rats fed a choline-deficient diet develop foci of enzyme-altered hepatocytes with subsequent formation of hepatic tumors. They also develop fatty livers, because choline is needed for hepatic secretion of lipoproteins. We have previously reported that 1,2-sn-diradylglycerol accumulates in the livers of rats fed a choline-deficient diet for 1-27 weeks, and that protein kinase C activity in the hepatic plasma membrane is elevated during that time (da Costa et al., J. Biol. Chem., 268, 2100-2105, 1993). In the present study, we examined the changes that occur in rat liver at 52 weeks of
choline deficiency
and determined whether these changes were reversible when choline was returned to the diet of the deficient animals for 1 or 16 weeks. At 52 weeks, non-tumor liver samples from the experimental animals had increased 1,2-sn-diradylglycerol concentrations in the lipid droplets compared with control animals. Plasma membrane 1,2-sn-diradylglycerol levels in the liver did not differ between the two groups, but an age-related increase in membrane 1,2-sn-diradylglycerol concentrations was observed. Unsaturated free fatty acids, another activator of protein kinase C, accumulated in the deficient livers. Protein kinase C activity associated with the plasma membrane remained significantly elevated at 52 weeks in deficient livers. Hepatic foci expressing gamma-glutamyltranspeptidase were detected only in the deficient rats (0.83% of liver volume) and 15% of these rats had
hepatocellular carcinoma
at 1 year on the diet. At 53 weeks (1 week after choline was returned to the deficient group), 1,2-sn-diradylglycerol concentrations in the lipid droplets and hepatic free fatty acids had dropped to control levels. By 68 weeks (16 weeks of re-feeding choline), the membrane protein kinase C activity had returned to normal. At this time, 14% of the experimental animals had
hepatocellular carcinoma
. We suggest that
choline deficiency
altered the protein kinase C-mediated signal transduction within liver and this contributed to hepatic carcinogenesis in these animals.
...
PMID:Effects of prolonged (1 year) choline deficiency and subsequent re-feeding of choline on 1,2-sn-diradylglycerol, fatty acids and protein kinase C in rat liver. 785 65
Choline deficiency
, via deprivation of labile methyl groups, is associated with a greatly increased incidence of
hepatocarcinoma
in experimental animals. This dietary deficiency also causes fatty liver, because choline is needed for hepatic secretion of lipoproteins. We hypothesized that fatty liver might be associated with the accumulation of 1,2-sn-diradylglycerol and subsequent activation of protein kinase C. Several lines of evidence indicate that cancers might develop secondary to abnormalities in protein kinase C-mediated signal transduction. We observed that rats fed a choline-deficient diet for 1, 6, or 27 weeks had increased hepatic concentrations of 1,2-diradylglycerol. At 1 and 6 weeks, hepatic plasma membrane from choline-deficient rats had increased concentrations of 1,2-sn-diacylglycerol and 1-alkyl, 2-acylglycerol, with the latter accounting for 20-26% of membrane 1,2-sn-diradylglycerol (as compared with only 2-5% in controls). Protein kinase C activity was increased in hepatic plasma membrane at 1 week of
choline deficiency
. By Western blotting there was an increase in the amount of protein kinase C zeta and a decrease in the amount of protein kinase C delta in liver at 1 week. By 6 weeks of
choline deficiency
, hepatic plasma membrane and cytosolic protein kinase C (PKC) activities were increased significantly, with increased amounts of hepatic plasma membrane protein kinase C alpha, and delta detected by Western blotting. Glycogen synthase activity in liver was diminished after 1 week of
choline deficiency
; this enzyme is inhibited by PKC-mediated phosphorylation. We suggest that
choline deficiency
perturbed PKC-mediated transmembrane signaling within liver and that this contributed to the development of hepatic cancer in these animals.
...
PMID:Accumulation of 1,2-sn-diradylglycerol with increased membrane-associated protein kinase C may be the mechanism for spontaneous hepatocarcinogenesis in choline-deficient rats. 842 Sep 80
Removal of choline from the diet results in accumulation of triglycerides in the liver, and chronic dietary deficiency produces a non-genotoxic model of
hepatocellular carcinoma
. An early event in
choline deficiency
is the appearance of oxidized lipid, DNA and protein, suggesting that increased oxidative stress may facilitate neoplasia in the choline deficient liver. In this study, we find that mitochondria isolated from rats fed a choline-deficient, L-amino acid defined diet (CDAA) demonstrate impaired respiratory function, particularly in regard to complex I-linked (NADH-dependent) respiration. This impairment in mitochondrial electron transport occurs coincidentally with alterations in phosphatidylcholine metabolism as indicated by an increased ratio of long-chain to short-chain mitochondrial phosphatidylcholine. Moreover, hydrogen peroxide (H(2)O(2)) generation is significantly increased in mitochondria isolated from CDAA rats compared with mitochondrial from normal rats, and the NADH-specific yield of H(2)O(2) is increased by at least 2.5-fold. These findings suggest an explanation for the rapid onset of oxidative stress and energy compromise in the
choline deficiency
model of
hepatocellular carcinoma
and indicate that dietary choline withdrawal may be a useful paradigm for the study of mitochondrial pathophysiology in carcinogenesis.
...
PMID:Dietary choline restriction causes complex I dysfunction and increased H(2)O(2) generation in liver mitochondria. 1078 22
Choline deficiency
(CD) is involved in
hepatocellular carcinoma
and CD-induced apoptosis may be implicated in cellular malignant transformation. In this report, we studied the effects of
choline deficiency
on generation of reactive oxygen species (ROS) using the fluorescent probe dichlorodihydrofluorescein diacetate and the possible role of ROS on CD-induced apoptosis in cultured CWSV-1 cells, an immortalized rat hepatocyte. This cell line is reported to become tumorigenic by step-wise culturing in lower levels of choline. Our data demonstrate that CD induces a time- and dose-dependent increase in ROS in CWSV-1 cells. The increase in ROS production may be related to dysfunction of the mitochondrial respiratory chain. Our data also demonstrated that ROS generation occurred before CD-induced apoptosis, suggesting ROS may play a key role in signaling CD-induced apoptosis in CWSV-1 cells.
...
PMID:Reactive oxygen species in choline deficiency-induced apoptosis in rat hepatocytes. 1533 24
