Neurogenic factor-induced Langerhans cell activation in diabetic mice with mechanical allodynia

Langerhans cells (LCs) are bone marrow (BM)-derived epidermal dendritic cells (DCs) that represent a critical immunologic barrier to the external environment, but little is known about their life cycle. Here, we show that in lethally irradiated mice that had received BM transplants, LCs of host origin remained for at least 18 months, whereas DCs in other organs were almost completely replaced by donor cells within 2 months. In parabiotic mice with separate organs, but a shared blood circulation, there was no mixing of LCs. However, in skin exposed to ultraviolet light, LCs rapidly disappeared and were replaced by circulating LC precursors within 2 weeks. The recruitment of new LCs was dependent on their expression of the CCR2 chemokine receptor and on the secretion of CCR2-binding chemokines by inflamed skin. These data indicate that under steady-state conditions, LCs are maintained locally, but inflammatory changes in the skin result in their replacement by blood-borne LC progenitors.

Numerous experimental studies provide evidence that proinflammatory cytokines induce or facilitate inflammatory as well as neuropathic pain and hyperalgesia. Direct receptor-mediated actions of cytokines on afferent nerve fibers have been reported as well as cytokine effects involving further mediators. The final outcome of cytokine action greatly depends on whether they act in the central of in the peripheral nervous system. Here we summarize recent findings on the peripheral mechanisms of action of three prototypic proinflammatory cytokines, interleukin-1beta, interleukin-6 and tumor necrosis factor-alpha, with regards to pain and hyperalgesia.