Short-term changes in NADPH-diaphorase reactivity in rat brain following perinatal asphyxia. Neuroprotective effects of cold treatment.

Abstract

Perinatal asphyxia (PA) produces changes in nitric oxide synthase (NOS) activity in neuronal and endothelial cells of the striatum and neocortex. The changes were examined using a histochemical NADPH-diaphorase (NADPH-d) staining method. Newborn rats were exposed to severe PA at 37 degrees C and other groups were subjected to severe PA under hypothermic condition (15 degrees C) for 20 or 100 min, respectively. Quantitative image analysis was performed on the striatum and neocortex in order to count cell number of reactive neurons and to compare the pattern of staining between the different groups of animals. Severe asphyctic pups showed an important neuronal loss in striatum and neocortex that was reduced by hypothermia. NADPH-d(+) neurons with reactive processes were found in the lateral zone of the striatum and neocortex in asphyctic pups. Controls and hypothermic striatum showed rounded cells without reactive process, while no cells were stained in cortex. There was also an increase in NADPH-d activity in endothelial cells in severe asphyctic pups in striatum and neocortex vs control and hypothermically treated animals. Our data evidenced that an inappropriate activation of NOS in neuronal and endothelial cells induced by PA is related to neuronal injury. Hypothermia inhibits neuronal injury and may be a valuable neuroprotective agent.