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Query: UMLS:C0038454 (
stroke
)
147,016
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Citicoline, an intermediate in the biosynthesis of phosphatidylcholine (PtdCho), has shown beneficial effects in various CNS injury models and neurodegenerative diseases. PtdCho hydrolysis by phospholipase A(2) (PLA(2)) after cerebral ischemia and reperfusion yields arachidonic acid (ArAc) and lyso-PtdCho. ArAc oxidative metabolism results in formation of reactive oxygen species and lipid peroxides. Lyso-PtdCho could inhibit activity of cytidine triphosphate-
phosphocholine cytidylyltransferase
(the rate-limiting enzyme in PtdCho biosynthesis), resulting in impaired PtdCho synthesis. Citicoline significantly increased glutathione levels and attenuated release of ArAc and the loss of PtdCho, cardiolipin, and sphingomyelin following transient cerebral ischemia. These effects could be explained by an effect of citicoline on PLA(2). Based on these observations, a mechanism has been hypothesized. This Mini-Review summarizes recent experimental data on the effects of citicoline in cerebral ischemia and evaluates several factors that might have hindered efficacy of citicoline in
stroke
clinical trials in the United States. Clinical
stroke
trials of citicoline in Europe and Japan have demonstrated beneficial effects. U.S. trials shown only marginal effects, which might be due to the 24 hr time window, the dose and route of administration, and the stringency of the primary outcome parameters. Recent evaluation of U.S. clinical data suggests that reduction of infarct growth may be a more sensitive measure of the citicoline effect than improvement on the NIH
Stroke
Scale (NIHSS) by > or =7 points. The citicoline neuroprotective mechanism has not been clearly identified, and its potential in
stroke
treatment might still be fully recognized in the United States. The clinical efficacy of citicoline should be examined further in light of the recent phase III
stroke
clinical trials and experimental data for cerebral ischemia.
...
PMID:Citicoline mechanisms and clinical efficacy in cerebral ischemia. 1227 62
Brain phosphatidylcholine (PC) levels are regulated by a balance between synthesis and hydrolysis. Pro-inflammatory cytokines such as tumor necrosis factor-alpha (TNF-alpha) and interleukin-1 (IL-1alpha/beta) activate phospholipase A(2) (PLA(2)) and PC-phospholipase C (PC-PLC) to hydrolyze PC. PC hydrolysis by PLA(2) releases free fatty acids including arachidonic acid, and lyso-PC, an inhibitor of
CTP-phosphocholine cytidylyltransferase
(
CCT
). Arachidonic acid metabolism by cyclooxygenases/lipoxygenases is a significant source of reactive oxygen species. CDP-choline might increase the PC levels by attenuating PLA(2) stimulation and loss of
CCT
activity. TNF-alpha also stimulates proteolysis of
CCT
. TNF-alpha and IL-1beta are induced in brain ischemia and may disrupt PC homeostasis by increasing its hydrolysis (increase PLA(2) and PC-PLC activities) and inhibiting its synthesis (decrease
CCT
activity). The beneficial effects of CDP-choline may result by counteracting TNF-alpha and/or IL-1 mediated events, integrating cytokine biology and lipid metabolism. Re-evaluation of CDP-choline phase III
stroke
clinical trial data is encouraging and future trails are warranted. CDP-choline is non-xenobiotic, safe, well tolerated, and can be considered as one of the agents in multi-drug treatment of
stroke
.
...
PMID:Cytidine 5'-diphosphocholine (CDP-choline) in stroke and other CNS disorders. 1575 28
Cytidine-5'-diphosphocholine (CDP-choline, Citicoline, Somazina) is in clinical use (intravenous administration) for
stroke
treatment in Europe and Japan, while USA phase III
stroke
clinical trials (oral administration) were disappointing. Others showed that CDP-choline liposomes significantly increased brain uptake over the free drug in cerebral ischemia models. Liposomes were formulated as DPPC, DPPS, cholesterol, GM(1) ganglioside; 7/4/7/1.57 molar ratio or 35.8/20.4/35.8/8.0 mol%. GM(1) ganglioside confers long-circulating properties to the liposomes by suppressing phagocytosis. CDP-choline liposomes deliver the agent intact to the brain, circumventing the rate-limiting, cytidine triphosphate:
phosphocholine cytidylyltransferase
in phosphatidylcholine synthesis. Our data show that CDP-choline liposomes significantly ( P < 0.01) decreased cerebral infarction (by 62%) compared to the equivalent dose of free CDP-choline (by 26%) after 1 h focal cerebral ischemia and 24 h reperfusion in spontaneously hypertensive rats. Beneficial effects of CDP-choline liposomes in
stroke
may derive from a synergistic effect between the phospholipid components of the liposomes and the encapsulated CDP-choline.
...
PMID:CDP-choline liposomes provide significant reduction in infarction over free CDP-choline in stroke. 1615 13
