Glutamate, GABA and precursor amino acids in adult mouse neocortex: cellular diversity revealed by quantitative immunocytochemistry.

Abstract

Glutamate is an important amino acid in the neocortex for metabolic and neurotransmitter functions. The objective of this study was to detect variations in cellular glutamate content using quantitative immunocytochemistry. We show that glutamate is present in almost all cortical cells and coexists with other amino acids such as aspartate, glutamine or gamma-aminobutyric acid (GABA). The patterns of aspartate and glutamine content suggests that there are no purely aspartatergic or glutaminergic neurons. GABAergic neurons showed variable levels of the precursors such as glutamate, glutamine and aspartate. Comparison of immunoreactive patterns between two cortical areas did not detect any statistically significant differences. The mean cellular intensity for GABA and glutamate was constant across different layers. Surprisingly, we found that GABAergic neurons could coexist with either low or high levels of glutamate, suggesting that metabolic levels of glutamate in these neurons could be variable. Alternatively, some GABA neurons may utilize both GABA and glutamate for neurotransmission. We show that when variations in amino acid content are separately mapped onto individual cells, co-registration is a useful technique for reporting heterogeneity among cortical cells.