Arin Pamukcu scite author profile

SUMMARY Proper establishment of synapses is critical for constructing functional circuits. Interactions between presynaptic neurexins and postsynaptic neuroligins coordinate the formation of synaptic adhesions. An isoform code determines the direct interactions of neurexins and neuroligins across the synapse. However, whether extracellular linker proteins can expand such a code is unknown. Using a combination of in vitro and in vivo approaches, we found that hevin, an astrocyte-secreted synaptogenic protein, assembles glutamatergic synapses by bridging neurexin-1α and neuroligin-1B, two isoforms that do not interact with each other. Bridging of neurexin-1α and neuroligin-1B via hevin is critical for the formation and plasticity of thalamocortical connections in the developing visual cortex. These results show that astrocytes promote the formation of synapses by modulating neurexin/neuroligin adhesions through hevin secretion. Our findings also provide an important mechanistic insight into how mutations in these genes may lead to circuit dysfunction in diseases such as autism.

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Blunted mGluR Activation Disinhibits Striatopallidal Transmission in Parkinsonian Mice

Cui

Pitt

Pamukcu

et al. 2016

Cell Reports

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Summary The prevailing circuit model predicts that hyperactivity of the striatopallidal pathway and subsequently increased inhibition of external globus pallidus (GPe) neurons lead to the hypokinetic symptoms of Parkinson’s disease (PD). It is believed that hyperactivity of the striatopallidal pathway is due to inactivity of dopamine receptors on the somatodendritic membrane of striatopallidal neurons, but the exact cellular underpinnings remain unclear. In this study, we show that mouse GPe astrocytes critically control ambient glutamate level, which in turn gates striatopallidal transmission via the activation of presynaptic metabotropic glutamate receptors. This presynaptic inhibition of striatopallidal transmission is diminished following the chronic loss of dopamine. Elevation of intracellular glutamate content in astrocytes restores the proper regulation of the striatopallidal input in PD models. These findings argue that astrocytes are key regulators of the striatopallidal synapse. Targeting this cell class may serve as an alternative therapeutic strategy for PD.

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Parvalbumin⁺and Npas1⁺Pallidal Neurons Have Distinct Circuit Topology and Function

et al. 2020

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Author contributionsAP conceived the study. AP and QC designed and conducted the electrophysiological measurements. AP and QC designed and conducted the behavioral experiments. EA performed pilot behavioral experiments. HSX performed pilot experiments on the anatomical properties of the STN-GPe input. AP wrote the analysis scripts for in vivo and ex vivo experiments. AP, BLB, IF, and SC performed histological analysis. AWH, TNL, and SMB offered specialized reagents and technical expertise. AP and CSC wrote the manuscript with input from all co-authors. CSC designed, directed, and supervised the project. All authors reviewed and edited the manuscript.

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Arin Pamukcu

Astrocytes Assemble Thalamocortical Synapses by Bridging NRX1α and NL1 via Hevin

Blunted mGluR Activation Disinhibits Striatopallidal Transmission in Parkinsonian Mice

Parvalbumin⁺and Npas1⁺Pallidal Neurons Have Distinct Circuit Topology and Function

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Arin Pamukcu

Astrocytes Assemble Thalamocortical Synapses by Bridging NRX1α and NL1 via Hevin

Blunted mGluR Activation Disinhibits Striatopallidal Transmission in Parkinsonian Mice

Parvalbumin+and Npas1+Pallidal Neurons Have Distinct Circuit Topology and Function

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Parvalbumin⁺and Npas1⁺Pallidal Neurons Have Distinct Circuit Topology and Function