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Lysophosphatidic acid receptor 1 (LPA 1) plays critical roles in microglial activation and brain damage after transient focal cerebral ischemia

Bhakta Prasad Gaire, Arjun Sapkota, Mi-Ryoung Song, Ji Woong Choi

J Neuroinflammation. 2019 Aug 20;16(1):170.

PMID: 31429777

Abstract:

Background:
Lysophosphatidic acid receptor 1 (LPA1) is in the spotlight because its synthetic antagonist has been under clinical trials for lung fibrosis and psoriasis. Targeting LPA1 might also be a therapeutic strategy for cerebral ischemia because LPA1 triggers microglial activation, a core pathogenesis in cerebral ischemia. Here, we addressed this possibility using a mouse model of transient middle cerebral artery occlusion (tMCAO).
Methods:
To address the role of LPA1 in the ischemic brain damage, we used AM095, a selective LPA1 antagonist, as a pharmacological tool and lentivirus bearing a specific LPA1 shRNA as a genetic tool. Brain injury after tMCAO challenge was accessed by determining brain infarction and neurological deficit score. Role of LPA1 in tMCAO-induced microglial activation was ascertained by immunohistochemical analysis. Proinflammatory responses in the ischemic brain were determined by qRT-PCR and immunohistochemical analyses, which were validated in vitro using mouse primary microglia. Activation of MAPKs and PI3K/Akt was determined by Western blot analysis.
Results:
AM095 administration immediately after reperfusion attenuated brain damage such as brain infarction and neurological deficit at 1 day after tMCAO, which was reaffirmed by LPA1 shRNA lentivirus. AM095 administration also attenuated brain infarction and neurological deficit at 3 days after tMCAO. LPA1 antagonism attenuated microglial activation; it reduced numbers and soma size of activated microglia, reversed their morphology into less toxic one, and reduced microglial proliferation. Additionally, LPA1 antagonism reduced mRNA expression levels of proinflammatory cytokines and suppressed NF-κB activation, demonstrating its regulatory role of proinflammatory responses in the ischemic brain. Particularly, these LPA1-driven proinflammatory responses appeared to occur in activated microglia because NF-κB activation occurred mainly in activated microglia in the ischemic brain. Regulatory role of LPA1 in proinflammatory responses of microglia was further supported by in vitro findings using lipopolysaccharide-stimulated cultured microglia, showing that suppressing LPA1 activity reduced mRNA expression levels of proinflammatory cytokines. In the ischemic brain, LPA1 influenced PI3K/Akt and MAPKs; suppressing LPA1 activity decreased MAPK activation and increased Akt phosphorylation.
Conclusion:
This study demonstrates that LPA1 is a new etiological factor for cerebral ischemia, strongly indicating that its modulation can be a potential strategy to reduce ischemic brain damage.

Chemicals Related in the Paper:

Catalog Number Product Name Structure CAS Number Price
AP1345614596 AM095 AM095 1345614-59-6 Price
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