Brain anaerobic lactate production: A suicide note or a survival kit?

被引：85

作者：

Schurr, A ^{[1
]}

Rigor, BM ^{[1
]}

机构：

[1] Univ Louisville, Sch Med, Dept Anesthesiol, Brain Attack Res Lab, Louisville, KY 40294 USA

来源：

DEVELOPMENTAL NEUROSCIENCE | 1998年 / 20卷 / 4-5期

关键词：

cerebral energy metabolism; hypoxia-ischemia; synaptic function; monocarboxylate transporters; glial-neuronal shuttle; hippocampal slices;

D O I：

10.1159/000017330

中图分类号：

Q [生物科学];

学科分类号：

07 ; 0710 ; 09 ;

摘要：

Aerobic energy metabolism utilizes glucose and oxygen to satisfy all the energy needs of the adult brain. Anaerobically, the brain switches to the significantly less efficient glycolytic pathway for its most basic energy requirements. Anaerobic glycolysis provides the adult brain with a limited amount of energy and time to maintain ion homoeostasis and other essential processes before several events occur that lead to brain cell damage and death. Recent evidence that lactate, produced mainly in glial cells during a period of oxygen deprivation, becomes the only utilizable and thus obligatory substrate for aerobic energy metabolism upon reoxygenation is summarized here. This evidence also supports the hypothesis that a lactate shuttle exists between glia and neurons, and emphasizes its importance in the post-ischemic survival of neurons.

引用

页码：348 / 357

页数：10

共 64 条

[11] NONOXIDATIVE GLUCOSE CONSUMPTION DURING FOCAL PHYSIOLOGIC NEURAL ACTIVITY [J].

FOX, PT ;

RAICHLE, ME ;

MINTUN, MA ;

DENCE, C .

SCIENCE, 1988, 241 (4864) :462-464

[12] FOCAL PHYSIOLOGICAL UNCOUPLING OF CEREBRAL BLOOD-FLOW AND OXIDATIVE-METABOLISM DURING SOMATOSENSORY STIMULATION IN HUMAN-SUBJECTS [J].

FOX, PT ;

RAICHLE, ME .

PROCEEDINGS OF THE NATIONAL ACADEMY OF SCIENCES OF THE UNITED STATES OF AMERICA, 1986, 83 (04) :1140-1144

[13]

Friedemann TE, 1941, J BIOL CHEM, V141, P993

[14] ACIDOSIS REDUCES NMDA RECEPTOR ACTIVATION, GLUTAMATE NEUROTOXICITY, AND OXYGEN-GLUCOSE DEPRIVATION NEURONAL INJURY IN CORTICAL CULTURES [J].

GIFFARD, RG ;

MONYER, H ;

CHRISTINE, CW ;

CHOI, DW .

BRAIN RESEARCH, 1990, 506 (02) :339-342

[15] HYPERGLYCEMIA REDUCES THE EXTENT OF CEREBRAL INFARCTION IN RATS [J].

GINSBERG, MD ;

PRADO, R ;

DIETRICH, WD ;

BUSTO, R ;

WATSON, BD .

STROKE, 1987, 18 (03) :570-574

[16] DELETERIOUS EFFECT OF GLUCOSE PRETREATMENT ON RECOVERY FROM DIFFUSE CEREBRAL-ISCHEMIA IN THE CAT .1. LOCAL CEREBRAL BLOOD-FLOW AND GLUCOSE-UTILIZATION [J].

GINSBERG, MD ;

WELSH, FA ;

BUDD, WW .

STROKE, 1980, 11 (04) :347-354

[17]

Haljamae H., 1987, INTENSIVE CARE WORLD, V4, P118

[18] REVERSIBILITY OF ISCHEMIC BRAIN-DAMAGE [J].

HOSSMANN, KA ;

KLEIHUES, P .

ARCHIVES OF NEUROLOGY, 1973, 29 (06) :375-384

[19]

Kety S. S., 1957, METABOLISM NERVOUS S, P221, DOI [DOI 10.1016/B978-0-08-009062-7.50026-6, 10.1016/b978-0-08-009062-7.50026-6]

[20] Intracerebral trafficking of lactate in vivo during stress, exercise, electroconvulsive shock and ischemia as studied with microdialysis [J].

Korf, J .

DEVELOPMENTAL NEUROSCIENCE, 1996, 18 (5-6) :405-414

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