Chun‐Yao Lee scite author profile

Fast exchange of extracellular signals between neurons and astrocytes is crucial for synaptic function. Over the last few decades, different pathways of astroglial release of neuroactive substances have been proposed to modulate neurotransmission. However, their involvement in physiological conditions is highly debated. Connexins, the gap junction forming proteins, are highly expressed in astrocytes and have recently been shown to scale synaptic transmission and plasticity. Interestingly, in addition to gap junction channels, the most abundant connexin (Cx) in astrocytes, Cx43, also forms hemichannels. While such channels are mostly active in pathological conditions, they have recently been shown to regulate cognitive function. However, whether astroglial Cx43 hemichannels are active in resting conditions and regulate basal synaptic transmission is unknown. Here we show that in basal conditions Cx43 forms functional hemichannels in astrocytes from mouse hippocampal slices. We furthermore demonstrate that the activity of astroglial Cx43 hemichannels in resting states regulates basal excitatory synaptic transmission of hippocampal CA1 pyramidal cells through ATP signaling. These data reveal Cx43 hemichannels as a novel astroglial release pathway at play in basal conditions, which tunes the moment-to-moment glutamatergic synaptic transmission.

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Regulation of feeding by somatostatin neurons in the tuberal nucleus

Luo

Huang

Qin

et al. 2018

Science

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The tuberal nucleus (TN) is a surprisingly understudied brain region. We found that somatostatin (SST) neurons in the TN, which is known to exhibit pathological or cytological changes in human neurodegenerative diseases, play a crucial role in regulating feeding in mice. GABAergic tuberal SST (SST) neurons were activated by hunger and by the hunger hormone, ghrelin. Activation of SST neurons promoted feeding, whereas inhibition reduced it via projections to the paraventricular nucleus and bed nucleus of the stria terminalis. Ablation ofSST neurons reduced body weight gain and food intake. These findings reveal a previously unknown mechanism of feeding regulation that operates through orexigenic SST neurons, providing a new perspective for understanding appetite changes.

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Optimal Feature Selection for Power-Quality Disturbances Classification

Lee

Shen

2011

IEEE Trans. Power Delivery

154

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Chun‐Yao Lee

Astroglial Connexin43 Hemichannels Tune Basal Excitatory Synaptic Transmission

Regulation of feeding by somatostatin neurons in the tuberal nucleus

Optimal Feature Selection for Power-Quality Disturbances Classification

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