Activated iRhom2 drives prolonged PM exposure-triggered renal injury in Nrf2-defective mice.

Research suggests that particulate matter (PM) is a predisposing factor for metabolic syndrome-related systemic inflammation and oxidative stress injury. TNF-α as a major pro-inflammatory cytokine was confirmed to participate in various diseases. Inactive rhomboid protein 2 (iRhom2) was recently determined as a necessary regulator for shedding of TNF-α in immune cells. Importantly, kidney-resident macrophages are critical to inflammation-associated chronic renal injury. Podocyte injury can be induced by stimulants and give rise to nephritis, but how iRhom2 contributes to PM-induced renal injury is unclear. Thus, we studied whether PM causes renal injury and characterized iRhom2 with respect to TNF-α release in mice macrophages and renal tissues in long-term PM-exposed mouse models. After long-term PM exposures, renal injury was confirmed via inflammatory cytokine, chemokine expression, and reduced antioxidant activity. Patients with kidney-related diseases had increased TNF-α, which may contribute to renal injury. We observed up-regulation of serum creatinine, serum urea nitrogen, kidney injury molecule 1, uric acid, TNF-α, MDA, HO and O in PM-treated mice, which was greater than that found in Nrf2 mice. Meanwhile, increases in metabolic disorder-associated indicators were involved in PM-induced nephritis. In vitro, kidney-resident macrophages were observed to be critical to renal inflammatory infiltration and function loss via regulation of iRhom2/TACE/TNF-α signaling, and suppression of Nrf2-associated anti-oxidant response. PM exposure led to renal injury partly by inflammation-mediated podocyte injury. Reduced SOD1, SOD2, Nrf2 activation, and increased XO, NF-κB activity, TACE, iNOS, IL-1β, TNF-α, IL-6, MIP-1α, Emr-1, MCP-1, and Cxcr4, were also noted. Long-term PM exposure causes chronic renal injury by up-regulation of iRhom2/TACE/TNF-α axis in kidney-resident macrophages. Overexpression of TNF-α derived from macrophages causes podocyte injury and kidney function loss. Thus, PM toxicities are related to exposure duration and iRhom2 may be a potential therapeutic renal target.