Single-cell analysis identifies Ifi27l2a as a gene regulator of microglial inflammation in the context of aging and stroke in mice
Gab Seok Kim, Elisabeth Harmon, Manuel Cantu Gutierrez, Sodam Kim, Lauren Vance, Haven Burrous, Jessica M. Stephenson, Anjali Chauhan, Anik Banerjee, Zachary Wise, Andrea Doan, John Ahn, Ting Wu, Jesus Bautista-Garrido, Juneyoung Lee, Chunfeng Tan, Joo Eun Jung, Louise D. McCullough, Joshua D. Wythe, Sean P. Marrelli
Abstract
Inflammation is a significant driver of ischemic stroke pathology in the brain. To identify potential regulators of inflammation, we performed single-cell RNA sequencing (scRNA-seq) of young and aged mouse brains following stroke and found that interferon alpha-inducible protein 27 like 2 A (Ifi27l2a) was significantly up-regulated, particularly in microglia of aged brain. Ifi27l2a is induced by interferons for viral host defense and has been linked with pro-inflammatory cellular mechanisms. However, its potential role in neurodegeneration is unknown. Using a combination of cell culture, experimental stroke models in mice, and human autopsy brain samples, we demonstrated that induction of Ifi27l2a occurs in microglia in response to aging, ischemic stroke, and pro-inflammatory molecules. We further showed that induction of Ifi27l2a in microglia was sufficient to stimulate mitochondrial ROS production and promote a pro-inflammatory phenotype. Lastly, using an ischemic stroke model, we demonstrated that hemizygous deletion of Ifi27l2a (Ifi27l2a+/- mice) reduced gliosis (microgliosis and astrogliosis), acute and chronic brain injury, and motor function deficits. Together, these findings identify Ifi27l2a as a critical neuroinflammatory mediator in ischemic stroke and provide support for the therapeutic strategy of disrupting Ifi27l2a to attenuate inflammation in the post-stroke brain. The role of Ifi27l2a, an interferon-induced gene, remains poorly understood in diseased brains. Here, authors show age and stroke-dependent upregulation of Ifi27l2a in microglia, and that reduction of Ifi27l2a leads to reduced brain injury and functional deficits after ischemic stroke.