Ultrastructural changes in nitric oxide synthase immunoreactivity in the brain of rats subjected to perinatal asphyxia: neuroprotective effects of cold treatment.

CAPANI F, LOIDL F, LOPEZ-COSTA JJ, SELVIN-TESTA A, SAAVEDRA JP.

Brain Research

Año: 1997 vol. 775 p. 11 - 23

Striatal and cortical neurons containing nitric oxide synthaseNOS.were studied in adult rats subjected to different periods of perinatal asphyxiaPA.using immunohistochemistry at both light microscopyLM.and electron microscopyEM.. Another group was subjected to PAqhypothermia to study its neuroprotective effect. Quantitative image analysis was performed on the striatum andneocortex in order to count the number of immunoreactive neurons and to compare the pattern of staining between the different groups.Six-month-old rats that suffered subsevere and severe PA demonstrated, at LM, cytomegaly of the striatal and neocortical neurons containing NOS. Control and hypothermic neurons were more weakly immunostained than PA neurons. Subsevere and severe asphyctic rats showed an important neuronal loss that was reduced by hypothermic treatment. The PA group disclosed, at EM, dense electronic bodies distributed in terminals surrounding synaptic vesicles and in dendrites. Non-NOS-containing neurons showed signs of degeneration,such as dark cytoplasm and shrunken nuclei. Surrounding the blood vessels, we observed a clear edema. The immunolabeling in hypothermic rats resembled that observed in controls. These data suggest that subsevere and severe PA induces chronic changes in the neuronal content of NOS in the striatum and neocortex. Degeneration observed in neurons surrounding cytomegalic NOS-containing cells may be due to the excess of NO in their environment. Moreover, the chronic alterations produced by PA seem to be prevented by hypothermia.NOS.were studied in adult rats subjected to different periods of perinatal asphyxiaPA.using immunohistochemistry at both light microscopyLM.and electron microscopyEM.. Another group was subjected to PAqhypothermia to study its neuroprotective effect. Quantitative image analysis was performed on the striatum andneocortex in order to count the number of immunoreactive neurons and to compare the pattern of staining between the different groups.Six-month-old rats that suffered subsevere and severe PA demonstrated, at LM, cytomegaly of the striatal and neocortical neurons containing NOS. Control and hypothermic neurons were more weakly immunostained than PA neurons. Subsevere and severe asphyctic rats showed an important neuronal loss that was reduced by hypothermic treatment. The PA group disclosed, at EM, dense electronic bodies distributed in terminals surrounding synaptic vesicles and in dendrites. Non-NOS-containing neurons showed signs of degeneration,such as dark cytoplasm and shrunken nuclei. Surrounding the blood vessels, we observed a clear edema. The immunolabeling in hypothermic rats resembled that observed in controls. These data suggest that subsevere and severe PA induces chronic changes in the neuronal content of NOS in the striatum and neocortex. Degeneration observed in neurons surrounding cytomegalic NOS-containing cells may be due to the excess of NO in their environment. Moreover, the chronic alterations produced by PA seem to be prevented by hypothermia.