Abstract
Astrocytes play critical roles in neural circuit formation and function. Recent studies have revealed several secreted and contact-mediated signals from astrocytes which are essential for neurite outgrowth and synapse formation. However, the mechanisms underlying the regulation of dendritic branching by astrocytes remain elusive. Phospholipase D1 (PLD1), which catalyzes the hydrolysis of phosphatidylcholine (PC) to generate phosphatidic acid (PA) and choline, has been implicated in the regulation of neurite outgrowth. Here we showed that knockdown of PLD1 selectively in astrocytes reduced dendritic branching of neurons in neuron-glia mixed culture. Further studies from sandwich-like cocultures and astrocyte conditioned medium suggested that astrocyte PLD1 regulated dendritic branching through secreted signals. We later demonstrated that PA was the key mediator for astrocyte PLD1 to regulate dendritic branching. Moreover, PA itself was sufficient to promote dendritic branching of neurons. Lastly, we showed that PA could activate protein kinase A (PKA) in neurons and promote dendritic branching through PKA signaling. Taken together, our results demonstrate that astrocyte PLD1 and its lipid product PA are essential regulators of dendritic branching in neurons. These results may provide new insight into mechanisms underlying how astrocytes regulate dendrite growth of neurons.
Highlights
In the present study, we used mixed culture composed of neuron and glia to study the roles of astrocyte PLD1 in dendritic branching
First we showed that knockdown of PLD1 selectively in astrocytes reduced dendritic branching of neurons in neuron-glia mixed culture, which is consistent with a recent report that dendritic branching was decreased in PLD1 null mutant mice[15]
The effects of PLD1 knockdown on dendritic branching of neurons in neuron-glia mixed culture are apparently mediated by astrocytes
Summary
We used mixed culture composed of neuron and glia to study the roles of astrocyte PLD1 in dendritic branching. We found that knockdown of PLD1 only in astrocytes reduced dendritic branching of neurons in mixed culture. Further study from sandwich-like coculture and astrocyte conditioned medium suggested that astrocyte PLD1 regulated dendritic branching through secreted signals, which was evidenced by the observation that PA could rescue the dendritic deficits of neurons in mixed and sandwich-like coculture where PLD1 was selectively reduced in astrocytes. We showed that PA increased dendritic branching by activation of protein kinase A signaling in neurons. Taken together, these results demonstrate that PLD1-mediated secretion of PA from astrocytes is essential for dendritic branching in neurons
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