Interstitial adenosine, inosine, and hypoxanthine are increased after experimental traumatic brain injury in the rat

被引：86

作者：

Bell, MJ

Kochanek, PM

Carcillo, JA

Mi, ZC

Schiding, JK

Wisniewski, SR

Clark, RSB

Dixon, CE

Marion, DW

Jackson, E

机构：

[1] Univ Pittsburgh, Safar Ctr Resuscitat Res, Ctr Clin Pharmacol, Dept Anesthesiol & Crit Care Med, Pittsburgh, PA 15260 USA

[2] Univ Pittsburgh, Safar Ctr Resuscitat Res, Ctr Clin Pharmacol, Dept Pediat, Pittsburgh, PA 15260 USA

[3] Univ Pittsburgh, Safar Ctr Resuscitat Res, Ctr Clin Pharmacol, Dept Pharmacol, Pittsburgh, PA 15260 USA

[4] Univ Pittsburgh, Safar Ctr Resuscitat Res, Ctr Clin Pharmacol, Dept Epidemiol, Pittsburgh, PA 15260 USA

[5] Univ Pittsburgh, Safar Ctr Resuscitat Res, Ctr Clin Pharmacol, Dept Neurosurg, Pittsburgh, PA 15260 USA

来源：

JOURNAL OF NEUROTRAUMA | 1998年 / 15卷 / 03期

关键词：

ATP; cAMP; contusion; head injury; microdialysis; purines;

D O I：

10.1089/neu.1998.15.163

中图分类号：

R4 [临床医学];

学科分类号：

1002 ; 100602 ;

摘要：

Adenosine is a putative neuroprotectant in ischemia, but its role after traumatic brain injury (TBI) is not clear. Metabolites of adenosine, particularly inosine and hypoxanthine, are markers of ischemia and energy failure. Adenosine triphosphate (ATP) breakdown early after injury and metabolism of cyclic adenosine monophosphate (cAMP) are potential sources of adenosine. Further delineation of the magnitude, location, time course, and source of production of adenosine after TBI is needed. We measured adenosine, inosine, and hypoxanthine in brain interstitial fluid after controlled cortical impact (CCI) in the rat. Rats (n = 15) were prepared for TBI induced by CCI. A microdialysis probe was placed in the cortex, and samples were collected every 10 min. After 3 h of equilibration, the catheter was removed, CCI was performed (4 m/sec, depth 2.5 mm), and the catheter was replaced. In the shams, the catheter was removed and replaced without CCI. The injury group included rats (n = 10) subjected to CCI. Within the injury group, the microdialysis probe was placed in the center of the eventual contusion (center, n = 5) or in the penumbral region (penumbra, n = 5). Purine metabolites were measured using ultraviolet-based high-pressure liquid chromatography. Adenosine, inosine, and hypoxanthine were dramatically increased after injury (61-fold, 37-fold, and 16-fold, respectively sham, all p < 0.05, two-way analysis of variance for repeated measures). No changes in cAMP were observed (p = 0.62 vs. sham). Adenosine peaked in the first 20 min and returned to near baseline 40 min, whereas inosine and hypoxanthine peaked at 30 min and remained increased for 40 min after CCI. Interstitial brain adenosine, inosine, and hypoxanthine were increased early after CCI in rats in the contusion and penumbra. ATP breakdown is a potential source of adenosine in this early period while metabolism of cAMP does not appear to play a role. Confirmation of these data in humans may suggest new strategies targeting this important metabolic pathway.

引用

页码：163 / 170

页数：8

共 39 条

[1] ADENOSINE ANTAGONISM DECREASES METABOLIC BUT NOT FUNCTIONAL RECOVERY FROM ISCHEMIA [J].

ANGELLO, DA ;

HEADRICK, JP ;

CODDINGTON, NM ;

BERNE, RM .

AMERICAN JOURNAL OF PHYSIOLOGY, 1991, 260 (01) :H193-H200

[2] QUANTITATIVE AUTORADIOGRAPHY OF [H-3]-MK-801 BINDING-SITES IN MAMMALIAN BRAIN [J].

BOWERY, NG ;

WONG, EHF ;

HUDSON, AL .

BRITISH JOURNAL OF PHARMACOLOGY, 1988, 93 (04) :944-954

[3] NMDA RECEPTOR ACTIVATION INCREASES CYCLIC-AMP IN AREA CA1 OF THE HIPPOCAMPUS VIA CALCIUM-CALMODULIN STIMULATION OF ADENYLYL-CYCLASE [J].

CHETKOVICH, DM ;

SWEATT, JD .

JOURNAL OF NEUROCHEMISTRY, 1993, 61 (05) :1933-1942

[4] Cerebrospinal fluid adenosine concentration and uncoupling of cerebral blood flow and oxidative metabolism after severe head injury in humans [J].

Clark, RSB ;

Carcillo, JA ;

Kochanek, PM ;

Obrist, WD ;

Jackson, EK ;

Mi, ZC ;

Wisneiwski, SR ;

Bell, MJ ;

Marion, DW .

NEUROSURGERY, 1997, 41 (06) :1284-1292

[5] CONCENTRATION-DEPENDENCE OF ADENOSINE AND THE PROTECTION OF RAT CORTICAL-NEURONS DURING ANOXIA [J].

DONAGHY, KM ;

SCHOLFIELD, CN .

BRAIN RESEARCH, 1994, 656 (01) :174-176

[6] THE DISTRIBUTION OF ADENOSINE-A1-RECEPTORS AND 5'-NUCLEOTIDASE IN THE BRAIN OF SOME COMMONLY USED EXPERIMENTAL-ANIMALS [J].

FASTBOM, J ;

PAZOS, A ;

PALACIOS, JM .

NEUROSCIENCE, 1987, 22 (03) :813-826

[7] PURINE RELEASE AND INHIBITION OF SYNAPTIC TRANSMISSION DURING HYPOXIA AND HYPOGLYCEMIA IN RAT HIPPOCAMPAL SLICES [J].

FOWLER, JC .

NEUROSCIENCE LETTERS, 1993, 157 (01) :83-86

[8]

GEIGER JD, 1997, PURINERGIC APPROACHE, P59

[9] REDUCTION IN CEREBRAL ISCHEMIC-INJURY IN THE NEWBORN RAT BY POTENTIATION OF ENDOGENOUS ADENOSINE [J].

GIDDAY, JM ;

FITZGIBBONS, JC ;

SHAH, AR ;

KRAUJALIS, MJ ;

PARK, TS .

PEDIATRIC RESEARCH, 1995, 38 (03) :306-311

[10] 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

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