THE SOURCE OF BRAIN ADENOSINE OUTFLOW DURING ISCHEMIA AND ELECTRICAL-STIMULATION

被引:32
作者
LATINI, S [1 ]
CORSI, C [1 ]
PEDATA, F [1 ]
PEPEU, G [1 ]
机构
[1] UNIV FLORENCE,DEPT PRECLIN & CLIN PHARMACOL,I-50134 FLORENCE,ITALY
来源
NEUROCHEMISTRY INTERNATIONAL | 1995年 / 27卷 / 03期
关键词
D O I
10.1016/0197-0186(95)00042-7
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
Adenosine outflow and adenosine and adenine nucleotide content of hippocampal slices were evaluated under two different experimental conditions: ischemia-like conditions and electrical stimulation (10 Hz). Five minutes of ischemia-like conditions brought about an 8-fold increase in adenosine outflow in the following 5 min during reperfusion, and a 2-fold increase in adenosine content, a 43% decrease in ATP, a 72% increase in AMP and a 30% decrease in energy charge (EC) at the end of the ischemic period. After 10 min of reperfusion ATP, AMP and EC returned to control values, while the adenosine content was further increased. Five minutes of electrical stimulation brought about an 8-fold increase in adenosine outflow that peaked 5 min after the end of stimulation, a 4-fold increase in adenosine content and an 18% decrease in tissue EC at the end of stimulation. After 10 min of rest conditions the adenosine content and EC returned to basal values. The origin of extracellular adenosine from S-adenosylhomocysteine (SAH) was examined under the two different experimental conditions. The SAH hydrolase inhibitor, adenosine-2,3-dialdehyde (10 mu M), does not significantly modify the adenosine outflow evoked by electrical stimulation or ischemia-like conditions. This finding excludes a significant contribution by the transmethylation pathway to adenosine extracellular accumulation evoked by an electrical or ischemic stimulus, and confirms that the most likely source of adenosine is from AMP dephosphorylation.
引用
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页码:239 / 244
页数:6
相关论文
共 25 条
[1]   ENERGY CHARGE OF ADENYLATE POOL AS A REGULATORY PARAMETER . INTERACTION WITH FEEDBACK MODIFIERS [J].
ATKINSON, DE .
BIOCHEMISTRY, 1968, 7 (11) :4030-&
[2]  
BARTEL RL, 1984, MOL PHARMACOL, V25, P418
[3]   CONTRIBUTION OF S-ADENOSYLHOMOCYSTEINE TO CARDIAC ADENOSINE FORMATION [J].
DEUSSEN, A ;
LLOYD, HGE ;
SCHRADER, J .
JOURNAL OF MOLECULAR AND CELLULAR CARDIOLOGY, 1989, 21 (08) :773-782
[4]   LEVELS OF ADENOSINE AND ADENINE-NUCLEOTIDES IN SLICES OF RAT HIPPOCAMPUS [J].
FREDHOLM, BB ;
DUNWIDDIE, TV ;
BERGMAN, B ;
LINDSTROM, K .
BRAIN RESEARCH, 1984, 295 (01) :127-136
[5]   EXTRACELLULAR ADENOSINE, INOSINE, HYPOXANTHINE, AND XANTHINE IN RELATION TO TISSUE NUCLEOTIDES AND PURINES IN RAT STRIATUM DURING TRANSIENT ISCHEMIA [J].
HAGBERG, H ;
ANDERSSON, P ;
LACAREWICZ, J ;
JACOBSON, I ;
BUTCHER, S ;
SANDBERG, M .
JOURNAL OF NEUROCHEMISTRY, 1987, 49 (01) :227-231
[6]   RELEASE OF PURINES, NORADRENALINE, AND GABA FROM RAT HIPPOCAMPAL SLICES BY FIELD STIMULATION [J].
JONZON, B ;
FREDHOLM, BB .
JOURNAL OF NEUROCHEMISTRY, 1985, 44 (01) :217-224
[7]   THE TRANSMETHYLATION PATHWAY AS A SOURCE FOR ADENOSINE IN THE ISOLATED GUINEA-PIG HEART [J].
LLOYD, HGE ;
DEUSSEN, A ;
WUPPERMANN, H ;
SCHRADER, J .
BIOCHEMICAL JOURNAL, 1988, 252 (02) :489-494
[8]   INTRACELLULAR FORMATION AND RELEASE OF ADENOSINE FROM RAT HIPPOCAMPAL SLICES EVOKED BY ELECTRICAL-STIMULATION OR ENERGY DEPLETION [J].
LLOYD, HGE ;
LINDSTROM, K ;
FREDHOLM, BB .
NEUROCHEMISTRY INTERNATIONAL, 1993, 23 (02) :173-185
[9]  
LLOYD HGE, 1987, TOPICS PERSPECTIVES, P199
[10]  
LOWRY OH, 1951, J BIOL CHEM, V193, P265
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