Expression of microglia-specific transcriptional signatures correlates with the severity of behavioral deficits in systemic lupus erythematosus

Abstract

Abstract Systemic lupus erythematosus (SLE) is a complex autoimmune disease affecting multiple organs, including the brain. Though 50% of patients may experience neuropsychiatric symptoms (NPSLE), disease mechanisms remain largely unknown. Microglia are the resident innate immune cell of the brain and suggested to act as drivers of neurological conditions ranging from neurodevelopmental (autism) to neurodegenerative (Alzheimer’s disease) disorders. The majority of investigations into microglia, particularly the recently discovered disease-associated microglia (DAM) subset, have occurred in models of neurodegenerative disease. However, few studies have examined microglia, particularly DAM, in NPSLE. We performed RNA-seq on microglia isolated from two NPSLE-prone mouse strains to correlate gene signatures with behavioral deficits. Similar to patients, both NPSLE models exhibit cognitive impairment. Of the significantly upregulated genes found in NPSLE microglia compared to their respective controls, a common 18-gene ‘NPSLE signature’ is shared and enriched for genes associated with lipid metabolism, scavenger receptor activity and downregulating inflammatory responses and cell chemotaxis processes. NPSLE microglia are also enriched for DAM-associated genes and expression of ‘NPSLE’ and ‘DAM’ signatures significantly correlates with the severity of behavioral deficits. The discovery of our novel ‘NPSLE signature’ and enrichment of the ‘DAM signature’ represents the first to connect microglia-specific transcriptional signatures with clinical outcomes. In future studies, we will assess the penetrance of these signatures to further interrogate how defective microglial function may incite NPSLE.