Abstract
Infiltrating macrophages (m phi) can cause injury or facilitate repair, depending on how they are activated by the microenvironment. Studies in vitro have defined the roles of individual cytokines and signaling pathways in activation, but little is known about how macrophages integrate the multiple signals they receive in vivo. We inhibited nuclear factor-KB in bone marrow-derived macrophages (BMDMs) by using a recombinant adenovirus; expressing dominant-negative IKB (Ad-IKB). This re-orientated macrophage activation so they became profoundly anti-inflammatory in settings where they would normally be classically activated. In vitro, the lipopolysaccharide-induced nitric oxide, interleukin-12, and tumor necrosis factor-a synthesis was abrogated while interleukin-10 synthesis increased. In vivo, fluorescently labeled BMDMs transduced with Ad-IKB and injected into the renal artery significantly reduced inducible nitric oxide synthase and MHC class H expression when activated naturally in glomeruli of rats with nephrotoxic nephritis. Furthermore, although they only comprised 15% of glomerular macrophages, their presence significantly reduced glomerular infiltration and activation of host macrophages. Injury in nephrotoxic nephritis was also decreased when assessed morphologically and by severity of albuminuria. The results demonstrate the power of Ad-IKB-transduced BMDMs to inhibit injury when activated by acute immune-mediated inflammation within the glomerulus.
Original language | English |
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Pages (from-to) | 27-37 |
Number of pages | 10 |
Journal | American Journal of Pathology |
Volume | 167 |
Issue number | 1 |
Publication status | Published - 2005 |
Keywords
- INTRINSIC RENAL-CELLS
- CRESCENTIC GLOMERULONEPHRITIS
- IFN-GAMMA
- IMMUNE-SYSTEM
- GENE-TRANSFER
- INJURY
- EXPRESSION
- ACTIVATION
- ALPHA
- CYTOKINES