Glycogen phosphorylase a (GPa) is correlated with metabolic activation
, suggesting its potential use as a marker for neuronal activity. In d
entate gyrus, GPa patches are induced by glutamate infusion. Hippocamp
al electroencephalogram (EEG) and neuronal firing rates are modulated
by behavioral state, and cell discharge is suppressed by restraint. In
rats, under conditions of free exploration, passive movement under lo
ose or secure restraint, quiet wakefulness, and anesthesia, GPa activi
ty and 6-10-Hz theta power were inversely related: The more active the
animal, the stronger the theta rhythm and the lower the GPa activity.
Thus, GPa was least under conditions in which the hippocampus process
es external information, and at intermediate levels during restraint,
when neuronal firing is lowest. This dissociation raises doubts about
the use of metabolic activity as an indicator of changes in neuronal a
ctivity or of information processing per se.