Obesity-derived macrophages upregulate TNF-α to induce apoptosis in glial cell via the NF-κB/PHLPP1 axis

Abstract

Macrophages in obese adipose tissue have been shown to damage nerve fibers, however, the mechanism underlying how macrophages cause glial cell damage remains unknown. This study aimed to characterize the mechanism by which macrophages induce apoptosis in glial cell during obesity formation in mice by single-nucleus RNA sequencing (snRNA-seq). Cells obtained from paraepididymal adipose tissue in obese mice underwent snRNA-seq. Eighteen different clusters were identified, and 12 cell types were annotated, including glial cells, macrophages, and fibroblasts. There was a negative correlation between the number of glial cells and macrophages in mouse adipose tissue during the formation of obesity. The pro-apoptotic factor PHLPP1 was identified in GO Terms. The interaction between adipose tissue glial cells and macrophages was revealed via in-depth analysis, and the cell–cell communication mechanism between the TNF-α and NF-KB/PHLPP1 axes was perfected. Apoptosis of glial cell by upregulation of TNF-α via obesity-derived macrophages and activation of the NF-κB/PHLPP1 axis. We further revealed how macrophages induce apoptosis in glial cells during obesity formation, as well as different changes in the two cell populations. This study provides valuable resources and foundations for understanding the mechanistic effects of macrophages and glial cells during obesity formation, as well as diseases and potential interventions.