Ablation of a small subpopulation of diabetes-specific bone marrow-derived cells in mice protects against diabetic neuropathy

Abstract

Diabetic peripheral neuropathy (DPN) is a major diabetic complication. Previously, we showed that hyperglycemia induces the appearance of proinsulin (PI)-producing bone marrow-derived cells (PI-BMDCs), which fuse with dorsal root ganglion neurons, causing apoptosis, nerve dysfunction, and DPN. In this study, we have devised a strategy to ablate PI-BMDCs in mice in vivo. The use of this strategy to selectively ablate TNFα-producing PI-BMDCs in diabetic mice protected these animals from developing DPN. The findings provide powerful validation for a pathogenic role of PI-BMDCs and identify PI-BMDCs as an accessible therapeutic target for the treatment and prevention of DPN.