The expression of glutaminase in glial cells has been a controversial issue and matter of debate for many years. Actually, glutaminase
is essentially considered as a neuronal marker in brain. Astrocytes are endowed with efficient and high capacity
transport systems to recapture synaptic glutamate which seems to be consistent with the absence of glutaminase in these
glial cells. In this work, a comprehensive study was devised to elucidate expression of glutaminase in neuroglia and, more
concretely, in astrocytes. Immunocytochemistry in rat and human brain tissues employing isoform-specific antibodies revealed
expression of both Gls and Gls2 glutaminase isozymes in glutamatergic and GABAergic neuronal populations as well as in
astrocytes. Nevertheless, there was a different subcellular distribution: Gls isoform was always present in mitochondria while
Gls2 appeared in two different locations, mitochondria and nucleus. Confocal microscopy and double immunofluorescence
labeling in cultured astrocytes confirmed the same pattern previously seen in brain tissue samples. Astrocytic glutaminase
expression was also assessed at the mRNA level, real-time quantitative RT-PCR detected transcripts of four glutaminase isozymes
but with marked differences on their absolute copy number: the predominance of Gls isoforms over Gls2 transcripts
was remarkable (ratio of 144:1). Finally, we proved that astrocytic glutaminase proteins possess enzymatic activity by in situ
activity staining: concrete populations of astrocytes were labeled in the cortex, cerebellum and hippocampus of rat brain
demonstrating functional catalytic activity. These results are relevant for the stoichiometry of the Glu/Gln cycle at the tripartite
synapse and suggest novel functions for these classical metabolic enzymes.