ERK inhibition reduces neuronal death and ameliorates inflammatory responses in forebrain-specific Ppp2cα knockout mice.
Tingting LiuXiaolei ZhuChaoli HuangJiang ChenShu ShuGui-Quan ChenYun XuYimin HuPublished in: FASEB journal : official publication of the Federation of American Societies for Experimental Biology (2022)
It has been shown that PP2A is critical for apoptosis in neural progenitor cells. However, it remains unknown whether PP2A is required for neuronal survival. To address this question, we generated forebrain-specific Ppp2cα knockout (KO) mice. We show that Ppp2cα KO mice display robust neuronal apoptosis and inflammatory responses in the postnatal cortex. Previous evidence has revealed that PD98059 is a potent ERK inhibitor and may protect the brain against cell death after cardiac arrest. To study whether PD98059 may have any effects on Ppp2cα KO mice, the latter was treated with this inhibitor. We demonstrated that the total number of cleaved caspase3 positive (+) cells in the cortex was significantly reduced in Ppp2cα KO mice treated with PD98059 compared with those without PD98059 treatment. We observed that the total number of IBA1+ cells in the cortex was significantly decreased in Ppp2cα KO mice treated with PD98059. Mechanistic analysis reveals that deletion of PP2Aca causes DNA damage, which may be attenuated by PD98059. Together, this study suggests that inhibition of ERK may be an effective strategy to reduce cell death in brain diseases with abnormal neuronal apoptosis.
Keyphrases
- cell cycle arrest
- cell death
- pi k akt
- induced apoptosis
- high fat diet induced
- oxidative stress
- signaling pathway
- endoplasmic reticulum stress
- cardiac arrest
- dna damage
- functional connectivity
- cerebral ischemia
- resting state
- cell proliferation
- insulin resistance
- wild type
- white matter
- preterm infants
- metabolic syndrome
- healthcare
- multiple sclerosis
- adipose tissue
- blood brain barrier
- single cell