REGIONAL AND SUBCELLULAR-LOCALIZATION OF LI+ AND OTHER CATIONS IN THE RAT-BRAIN FOLLOWING LONG-TERM LITHIUM ADMINISTRATION

被引:16
作者
LAM, HR [1 ]
CHRISTENSEN, S [1 ]
机构
[1] UNIV COPENHAGEN,DEPT PHARMACOL,DK-1168 COPENHAGEN,DENMARK
来源
JOURNAL OF NEUROCHEMISTRY | 1992年 / 59卷 / 04期
关键词
LONG-TERM LITHIUM ADMINISTRATION; ACCUMULATION; REGIONAL; SUBCELLULAR; SYNAPTOSOME;
D O I
10.1111/j.1471-4159.1992.tb08450.x
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
Rats were given LiCl in their diet (40 mmol/kg dry weight) for at least 3 months to elucidate the regional and subcellular localization of Li+ in the brain as well as the effect of chronic lithium administration on the distribution of other cations. At steady-state the mean concentrations of Li+ were 0.66 mmol/kg wet weight in the whole brain and 0.52 mM in plasma. The tissue/plasma concentration ratio exceeded unity in all anatomical regions. No region showed excessive accumulation of Li+. Whole brain or regional contents of Na+ or K+ were unaffected by lithium treatment. Subcellular Li+ localization was demonstrated in nuclear, crude mitochondrial, and microsomal fractions of whole brain homogenate. Subfractionation of the crude mitochondrial fraction revealed energy-independent intrasynaptosomal and intramitochondrial Li+ and K+ localization at 0-4-degrees-C. Li+ administered in vivo disappeared within 10 min from synaptosomes incubated at 37-degrees-C. Li+ added in vitro at 1 mM attained a synaptosomal steady-state concentration within 30 min at 37-degrees-C. In control rats, synaptosomal concentrations and synaptosomal/medium concentration gradients of cations paralleled their respective in vivo concentrations and gradients. Lithium treatment caused synaptosomal depletion of K+ and Mg2+ and hence probably partial membrane depolarization. Addition of 1 mM Li+ in vitro also caused synaptosomal Mg2+ depletion. The results indicate that Li+ is "accumulated" in brain sediments and synaptosomes following its long-term treatment. The estimated intracellular and intrasynaptosomal Li+ concentrations are lower than predicted by passive distribution according to the Nernst equation, evidencing active extrusion of Li+.
引用
收藏
页码:1372 / 1380
页数:9
相关论文
共 31 条
[1]   DEPOLARIZATION OF BRAIN CORTEX SLICES AND SYNAPTOSOMES BY LITHIUM - DETERMINATION OF K+-EQUILIBRIUM POTENTIAL IN CORTEX SLICES [J].
ADAMVIZI, V ;
BANAYSCHWARTZ, M ;
WAJDA, I ;
LAJTHA, A .
BRAIN RESEARCH, 1987, 410 (02) :257-263
[2]   EFFECTS OF SYSTEMATICALLY ADMINISTERED LITHIUM ON TRYPTOPHAN TRANSPORT AND EXCHANGE IN PLASMA-MEMBRANE VESICLES ISOLATED FROM RAT-BRAIN [J].
ARAGON, MC ;
HERRERO, E ;
GIMENEZ, C .
NEUROCHEMICAL RESEARCH, 1987, 12 (05) :439-444
[3]   MEASUREMENT OF INTRASYNAPTOSOMAL FREE CALCIUM BY USING THE FLUORESCENT INDICATOR QUIN-2 [J].
ASHLEY, RH ;
BRAMMER, MJ ;
MARCHBANKS, R .
BIOCHEMICAL JOURNAL, 1984, 219 (01) :149-158
[4]  
BIRCH NJ, 1973, BIOL PSYCHIAT, V7, P269
[5]   MEMBRANE-POTENTIALS IN PINCHED-OFF PRESYNAPTIC NERVE-TERMINALS MONITORED WITH A FLUORESCENT-PROBE - EVIDENCE THAT SYNAPTOSOMES HAVE POTASSIUM DIFFUSION POTENTIALS [J].
BLAUSTEIN, MP ;
GOLDRING, JM .
JOURNAL OF PHYSIOLOGY-LONDON, 1975, 247 (03) :589-615
[6]   ACCUMULATION OF LITHIUM IN PARTICULATE FRACTION OF RAT-BRAIN FOLLOWING ITS LONG-TERM ADMINISTRATION [J].
CHRISTEN.S .
JOURNAL OF NEUROCHEMISTRY, 1974, 23 (06) :1299-1301
[7]   EFFECT OF LITHIUM ON UPTAKE OF NORADRENALINE BY SYNAPTOSOMES [J].
COLBURN, RW ;
GOODWIN, FK ;
BUNNEY, WE ;
DAVIS, JM .
NATURE, 1967, 215 (5108) :1395-+
[8]  
CRAMMER JL, 1985, METAL IONS NEUROLOGY, P165
[9]   POTASSIUM MOVEMENTS IN RELATION TO SYNAPTOSOMAL MORPHOLOGY [J].
CSILLAG, A ;
HAJOS, F .
JOURNAL OF NEUROCHEMISTRY, 1980, 34 (03) :495-503
[10]   EFFECTS OF DIFFERENTIAL HOUSING ON SUBCELLULAR DISTRIBUTION OF LI+ IN BRAINS OF MICE [J].
DEFEUDIS, FV .
BRAIN RESEARCH, 1972, 43 (02) :686-+
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