Previous studies have provided evidence that the morphological organization of immature astrocytes is influenced by the inhibitory neuronal transmitter gamma amino-butyric acid (GABA). The present study was designed to determine whether the occurrence of differential organization of mature astrocytes throughout various regions of the adult brain is related to differential GABAergic signaling. For this we first used Western blotting and high-performance liquid chromatography to quantify the levels of the astrocytic protein glial fibrillary acidic protein (GFAP) and GABA, respectively, within the same tissue punches taken from different forebrain regions of the adult rat, as well as immunocytochemistry for GFAP, GABA, or glutamate decarboxylase to visualize the morphological organization of astrocytes and of GABAergic axons in these regions. These data indicate that GFAP and GABA contents are correlated throughout the different forebrain regions analyzed, and that the regions containing the highest densities in GABAergic terminals are those that contain astrocytes exhibiting the highest degree of stellation. Secondly, we chronically increased GABAergic signaling in vivo by the systemic administration of an inhibitor of GABA transaminase or by the intracerebroventricular infusion of muscimol, a potent agonist of GABA A receptors. Our data show that in both cases, the GFAP content of the different forebrain regions is significantly augmented, in close association with a marked increase in the number of astrocytic processes and with their degree of branching. Taken together, these data strongly suggest that GABAergic signaling mediates the morphological organization of astrocytes and their expression of GFAP in the adult brain. GLIA 41:137-151, 2003.
Ageing is known to induce a marked activation of astrocytes within various regions of the central nervous system. To date, the age-related factors responsible for these modifications are unknown. The neural lobe of the hypophysis (NL) is a particular brain region which does not contain neurons but does contain specialized astrocytes, called pituicytes, and numerous terminals of afferent axons, including (i) peptidergic neurohypophysial axons which terminate on the NL blood vessels, and (ii) axons containing both gamma amino-butyric acid (GABA) and dopamine (DA) which form contacts with pituicytes. Because evidence has recently been provided that GABA signalling mediates the morphological organization of astrocytes, the present study was designed to determine whether modifications of pituicytes during ageing were associated with modifications of the GABAergic axons innervating the NL. We show here that, in adult rats, GABA/DA axons form preferential synaptic-like contacts with pituicytes which express both GABAA and D2 dopamine receptors. We then show that, during ageing, pituicytes undergo dramatic modifications of their morphology, correlatively with marked modifications of the GABA/DA fibres innervating the NL. Lastly, in vitro experiments indicate that modifications of the morphology of pituicytes similar to those observed during ageing were obtained by incubating isolated NL of adult rats with a GABAA receptor agonist and/or a D2 dopamine receptor antagonist, whereas inverse modifications were observed when NL of aged rats were incubated with a GABAA receptor antagonist and a D2 dopamine receptor agonist. Taken together, these data suggest that the age-related morphological changes of pituicytes result from the alteration of the GABA/DAergic innervation of the NL.
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