Set7/9 aggravates ischemic brain injury via enhancing glutamine metabolism in a blocking Sirt5 manner.
Jinghuan WangSubei TanYuyu ZhangJie XuYuhui LiQianwen ChengChen DingXinhua LiuJun ChangPublished in: Cell death and differentiation (2024)
The aberrant expression of methyltransferase Set7/9 plays a role in various diseases. However, the contribution of Set7/9 in ischemic stroke remains unclear. Here, we show ischemic injury results in a rapid elevation of Set7/9, which is accompanied by the downregulation of Sirt5, a deacetylase reported to protect against injury. Proteomic analysis identifies the decrease of chromobox homolog 1 (Cbx1) in knockdown Set7/9 neurons. Mechanistically, Set7/9 promotes the binding of Cbx1 to H3K9me2/3 and forms a transcription repressor complex at the Sirt5 promoter, ultimately repressing Sirt5 transcription. Thus, the deacetylation of Sirt5 substrate, glutaminase, which catalyzes the hydrolysis of glutamine to glutamate and ammonia, is decreased, promoting glutaminase expression and triggering excitotoxicity. Blocking Set7/9 eliminates H3K9me2/3 from the Sirt5 promoter and normalizes Sirt5 expression and Set7/9 knockout efficiently ameliorates brain ischemic injury by reducing the accumulation of ammonia and glutamate in a Sirt5-dependent manner. Collectively, the Set7/9-Sirt5 axis may be a promising epigenetic therapeutic target.
Keyphrases
- ischemia reperfusion injury
- oxidative stress
- brain injury
- poor prognosis
- dna methylation
- gene expression
- transcription factor
- cerebral ischemia
- binding protein
- subarachnoid hemorrhage
- spinal cord
- genome wide
- white matter
- signaling pathway
- spinal cord injury
- mouse model
- cell proliferation
- anaerobic digestion
- blood brain barrier
- dna binding