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Literature DB >> 28494865

Transformation of Astrocytes to a Neuroprotective Phenotype by Microglia via P2Y₁ Receptor Downregulation.

Youichi Shinozaki¹, Keisuke Shibata¹, Keitaro Yoshida², Eiji Shigetomi¹, Christian Gachet³, Kazuhiro Ikenaka⁴, Kenji F Tanaka², Schuichi Koizumi⁵.

Abstract

Microglia and astrocytes become reactive following traumatic brain injury (TBI). However, the coordination of this reactivity and its relation to pathophysiology are unclear. Here, we show that microglia transform astrocytes into a neuroprotective phenotype via downregulation of the P2Y1 purinergic receptor. TBI initially caused microglial activation in the injury core, followed by reactive astrogliosis in the peri-injured region and formation of a neuroprotective astrocyte scar. Equivalent changes to astrocytes were observed in vitro after injury. This change in astrocyte phenotype resulted from P2Y1 receptor downregulation, mediated by microglia-derived cytokines. In mice, astrocyte-specific P2Y1 receptor overexpression (Astro-P2Y1OE) counteracted scar formation, while astrocyte-specific P2Y1 receptor knockdown (Astro-P2Y1KD) facilitated scar formation, suggesting critical roles of P2Y1 receptors in the transformation. Astro-P2Y1OE and Astro-P2Y1KD mice showed increased and reduced neuronal damage, respectively. Altogether, our findings indicate that microglia-astrocyte interaction, involving a purinergic signal, is essential for the formation of neuroprotective astrocytes.

Entities: Disease Gene Species

Keywords: ATP; P2Y(1) receptors; astrocyte scar; astrocytes; cytokines; microglia; neuroprotection; purinergic signal; traumatic brain injury

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Year: 2017 PMID： 28494865 DOI： 10.1016/j.celrep.2017.04.047

Source DB: PubMed Journal: Cell Rep Impact factor: 9.423

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Cited

96 in total

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Transformation of Astrocytes to a Neuroprotective Phenotype by Microglia via P2Y₁ Receptor Downregulation.

1. Neuroprotective Effects of Guanosine Administration on In Vivo Cortical Focal Ischemia in Female and Male Wistar Rats.

2. Selective expression of eGFP in mouse perivascular astrocytes by modification of the Mlc1 gene using T2A-based ribosome skipping.

Review 3. Resolution of neuroinflammation: mechanisms and potential therapeutic option.

Review 4. Immune cell regulation of glia during CNS injury and disease.

5. Microglia alter the threshold of spreading depolarization and related potassium uptake in the mouse brain.

6. Transplantation of M2-Deviated Microglia Promotes Recovery of Motor Function after Spinal Cord Injury in Mice.

7. Context-Specific Switch from Anti- to Pro-epileptogenic Function of the P2Y₁ Receptor in Experimental Epilepsy.

Review 8. Resilience to Injury: A New Approach to Neuroprotection?

Review 9. Astrocytes and Microglia: In Sickness and in Health.

10. Sonic hedgehog enhances calcium oscillations in hippocampal astrocytes.

Transformation of Astrocytes to a Neuroprotective Phenotype by Microglia via P2Y1 Receptor Downregulation.

1. Neuroprotective Effects of Guanosine Administration on In Vivo Cortical Focal Ischemia in Female and Male Wistar Rats.

2. Selective expression of eGFP in mouse perivascular astrocytes by modification of the Mlc1 gene using T2A-based ribosome skipping.

Review 3. Resolution of neuroinflammation: mechanisms and potential therapeutic option.

Review 4. Immune cell regulation of glia during CNS injury and disease.

5. Microglia alter the threshold of spreading depolarization and related potassium uptake in the mouse brain.

6. Transplantation of M2-Deviated Microglia Promotes Recovery of Motor Function after Spinal Cord Injury in Mice.

7. Context-Specific Switch from Anti- to Pro-epileptogenic Function of the P2Y1 Receptor in Experimental Epilepsy.

Review 8. Resilience to Injury: A New Approach to Neuroprotection?

Review 9. Astrocytes and Microglia: In Sickness and in Health.

10. Sonic hedgehog enhances calcium oscillations in hippocampal astrocytes.

Transformation of Astrocytes to a Neuroprotective Phenotype by Microglia via P2Y₁ Receptor Downregulation.

7. Context-Specific Switch from Anti- to Pro-epileptogenic Function of the P2Y₁ Receptor in Experimental Epilepsy.