SELECTIVE DESTRUCTION OF NITRIC-OXIDE SYNTHASE NEURONS WITH QUISQUALATE REDUCES DAMAGE AFTER HYPOXIA-ISCHEMIA IN THE NEONATAL RAT

被引：48

作者：

FERRIERO, DM ^{[1
]}

SHELDON, RA ^{[1
]}

BLACK, SM ^{[1
]}

CHUAI, J ^{[1
]}

机构：

[1] UNIV CALIF SAN FRANCISCO,DEPT PEDIAT,SAN FRANCISCO,CA 94143

来源：

PEDIATRIC RESEARCH | 1995年 / 38卷 / 06期

关键词：

D O I：

10.1203/00006450-199512000-00014

中图分类号：

R72 [儿科学];

学科分类号：

100202 ;

摘要：

The vulnerability of the developing CNS to hypoxia-ischemia (H-I) differs from that of the mature brain and is due in part to release of nitric oxide (NO) from parenchymal neurons. If NO is important in the generation of excitotoxic injury after H-I in the developing CNS, then selective destruction of the neuronal nitric oxide synthase (nNOS) cells before H-I should lessen the injury seen after the insult. Using low dose quisqualic acid (QA) injected into neonatal (postnatal d 7) parietal cortex, the nNOS neurons were eliminated while sparing other neuronal and glial populations as ascertained by NADPH diaphorase histochemistry, nNOS immunocytochemistry, and Nissl counterstain. Animals subjected to focal ischemia followed by global hypoxia 24 h after the intracortical injection of QA had more viable cortex remaining than vehicle-injected animals (83.4 +/- 4.3% versus 62.7 +/- 8.3%) and lower injury severity represented by less neuronal loss and gliosis. Intracortical injections of QA without H-I resulted in minimal cell loss at the injection site with elimination of nNOS neurons throughout the parietal cortex. Microglial and astrocytic proliferation was seen in areas damaged by H-I 3 wk after injury and clearly marked infarcted areas. Prevention or elimination of NO production from nNOS cells can prevent much of the delayed neuronal necrosis seen after H-I in the developing CNS.

引用

页码：912 / 918

页数：7

共 27 条

[1]

BECKMAN JS, 1991, J DEV PHYSIOL, V15, P53

[2]

BRANN AW, 1985, NIH851149 PUBL, P263

[3] NITRIC-OXIDE SYNTHASE PROTEIN AND MESSENGER-RNA ARE DISCRETELY LOCALIZED IN NEURONAL POPULATIONS OF THE MAMMALIAN CNS TOGETHER WITH NADPH DIAPHORASE [J].

BREDT, DS ;

GLATT, CE ;

HWANG, PM ;

FOTUHI, M ;

DAWSON, TM ;

SNYDER, SH .

NEURON, 1991, 7 (04) :615-624

[4] PROTECTIVE EFFECT OF THE METABOTROPIC GLUTAMATE-RECEPTOR AGONIST, DCG-IV, AGAINST EXCITOTOXIC NEURONAL DEATH [J].

BRUNO, V ;

COPANI, A ;

BATTAGLIA, G ;

RAFFAELE, R ;

SHINOZAKI, H ;

NICOLETTI, F .

EUROPEAN JOURNAL OF PHARMACOLOGY, 1994, 256 (01) :109-112

[5] ACTIVATION OF METABOTROPIC RECEPTORS HAS A NEUROPROTECTIVE EFFECT IN A RODENT MODEL OF FOCAL ISCHEMIA [J].

CHIAMULERA, C ;

ALBERTINI, P ;

VALERIO, E ;

REGGIANI, A .

EUROPEAN JOURNAL OF PHARMACOLOGY, 1992, 216 (02) :335-336

[6]

DALKARA T, 1994, BRAIN PATHOL, V4, P49

[7] A NOVEL NEURONAL MESSENGER MOLECULE IN BRAIN - THE FREE-RADICAL, NITRIC-OXIDE [J].

DAWSON, TM ;

DAWSON, VL ;

SNYDER, SH .

ANNALS OF NEUROLOGY, 1992, 32 (03) :297-311

[8]

DAWSON V, 1991, P NATL ACAD SCI USA, V88, P6361

[9]

DAWSON VL, 1993, J NEUROSCI, V13, P2651

[10] HYPOXIA ISCHEMIA INDUCES HEAT-SHOCK PROTEIN-LIKE (HSP72) IMMUNOREACTIVITY IN NEONATAL RAT-BRAIN [J].

FERRIERO, DM ;

SOBERANO, HQ ;

SIMON, RP ;

SHARP, FR .

DEVELOPMENTAL BRAIN RESEARCH, 1990, 53 (01) :145-150

← 1 2 3 →