Gamma-aminobutyric acid (GABA)ρ receptors are selectively targeted to the axon terminals of the retinal bipolar neurons. The traffic of a green fluorescent protein-tagged GABAρ2 was examined in retinal bipolar neurons and cerebellar astrocytes. In bipolar neurons, time-lapse laser confocal microscopy revealed that the fluorescence emitted by GABAρ2-green fluorescent protein accumulates first, in clusters, in the soma and is then distributed along the axon in at least two populations: one that remains relatively immobile and a second population of smaller clusters that moved constantly to and from the axon end. In astrocytes, the fluorescent clusters were relatively immobile and located mainly in the soma.
Purinergic signaling is a sophisticated system of elements in which ATP and related molecules function as intercellular messengers. When ATP is released into the extracellular space, it activates specific receptors that belong to the P2 family. In parallel, ectonucleotidases transform ATP in its dephosphorylated metabolites including adenosine, which stimulates P1 receptors. The activity of both receptors influences various cellular processes. Moreover, metabolic conditions are concatenated with purine signaling to conform a dynamic and continuous informational network. The role of purinergic signaling in ovarian cells has been investigated, for instance, it is known that cells conforming the follicle express functional receptors that modulate basic cellular process such as proliferation, induction of apoptotic cell death, and steroidogenesis. In this chapter, we review contemporary information on purinergic action in ovarian cell physiology and state its relevance in this field.
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