Neutrophil depleted mice are protected from concanavalin A-mediated hepatitis, showing that neutrophils are critical for cellular liver damage. Interleukin-6 has pro- and anti-inflammatory properties and mediates neutrophil recruitment in diseases such as rheumatoid arthritis. In classic signaling, interleukin-6 binds to the membrane-bound interleukin-6-receptor and initiates signaling via gp130. In interleukin-6 trans-signaling, the agonistic soluble interleukin-6-receptor can form a soluble interleukin-6/interleukin-6-receptor complex and stimulate cells which only express gp130 but no interleukin-6-receptor. Interleukin-6 trans-signaling was shown to be important for liver regeneration and development of liver adenomas. Here, we show that blocking classic interleukin-6 signaling but not interleukin-6 trans-signaling reduced concanavalin A-induced liver damage in mice, with reduced liver STAT3 phosphorylation and liver neutrophil accumulation. However, the level of neutrophil-attracting chemokine KC is only reduced by inhibition of interleukin-6 trans-signaling. Analysis of circulating neutrophils after concanavalin A challenge revealed that classic interleukin-6 signaling is required for the mobilization of blood neutrophils. Reduced neutrophil infiltration was accompanied by increased levels of hepatoprotective monocyte chemoattractant protein-1 and reduced level of hepatodestructive interleukin-4. Abrogated classic interleukin-6 signaling in concanavalin A-mediated hepatitis exhibited liver-protective effects indicating that interleukin-6 classic but not interleukin-6 trans-signaling is responsible for liver damage. Classic interleukin-6 signaling is required to mount an efficient neutrophilia during concanavalin A-induced immune response, which might have clinical implications in the regard that blocking global interleukin-6 signaling pathways is a treatment option in different chronic inflammatory diseases.
Interleukin-6 (IL-6) plays an important role in liver regeneration and protection against liver damage. In addition to IL-6 classic signaling via membrane bound receptor (mIL-6R), IL-6 signaling can also be mediated by soluble IL-6R (sIL-6R) thereby activating cells that do not express membrane bound IL-6R. This process has been named trans-signaling. IL-6 trans-signaling has been demonstrated to operate during liver regeneration. We have developed methods to specifically block or mimic IL-6 trans-signaling. A soluble gp130 protein (sgp130Fc) exclusively inhibits IL-6 trans-signaling whereas an IL-6/sIL-6R fusion protein (Hyper-IL-6) mimics IL-6 trans-signaling. Using these tools we investigate the role of IL-6 trans-signaling in CCl₄ induced liver damage. Blockade of IL-6 trans-signaling during CCl₄ induced liver damage led to higher liver damage, although induction of Cyp4502E1 and thus bioactivation of CCl₄ was unchanged. Depletion of neutrophils resulted in reduced liver transaminase levels irrespective of IL-6 trans-signaling blockade. Furthermore, IL-6 trans-signaling was important for refilling of hepatocyte glycogen stores, which were depleted 24 h after CCl₄ treatment. We conclude that IL-6 trans-signaling via the soluble IL-6R is important for the physiologic response of the liver to CCl₄ induced chemical damage.
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