Mechanistically, this could be traced back to Lcn2-mediated changes of Erk1/2 signaling. Accordingly, the i.p. injection of Lcn2 into C57BL/6 mice stimulated the mobilization of neutrophils while we found a significantly reduced neutrophil chemotactic activity of cells obtained from Lcn2 KO mice. This observation transmitted to a reduced accumulation of neutrophils in

intra-dermal lesions infected with Salmonella typhimurium in Lcn2 KO mice as compared to WT mice. This was not only due to a reduced chemotaxis but also to an impaired cellular adhesion of neutrophils in the absence of Lcn2. We herein describe a novel role of Lcn2 as an important paracrine chemoattractant and an indispensable factor for neutrophil function JQ1 mouse in inflammation. Tissue infiltration of leukocytes in response to inflammatory or infectious

stimuli BGB324 research buy warrants previous adhesion of leukocytes to endothelial cells and subsequent migration across subendothelial basement membranes. Following cellular damage, epithelial cells produce IL-8 or its murine ortholog keratinocyte chemokine (KC), respectively, which in turn attracts neutrophil granulocytes (PMNs, polymorphonuclear neutrophils) to cross the epithelial barrier to the affected site [1]. As part of their anti-infective armory, PMNs produce and release several antimicrobial peptides and proteolytic enzymes. One of these peptides is the 21 kDa protein neutrophil gelatinase associated lipocalin also called lipocalin-2 (Lcn2) [2]. Lcn2 is stored in so-called secondary granules together with lactoferrin, calprotectin (S100A8/A9), or Mac-1 (CD11b/CD18), which play essential roles for neutrophil effector functions

and migration [3, 4]. Lipocalins are a family of structurally related proteins characterized by eight β-strands that form a β-barrel defining a calyx [3, 5]. Lcn2 is expressed and secreted by immune cells, hepatocytes and renal tubular cells, in which it is involved in different biological functions [3, 6-11]. On the one hand Lcn2 this website acts as an antimicrobial protein, and this function is based on its ability to capture and deplete bacterial siderophores, which are released by certain bacteria as means of iron acquisition [8]. Accordingly, Lcn2 expression is linked to resistance toward infections with gram-negative, siderophore-producing bacteria such as Escherichia coli or Salmonella typhimurium [7, 12-15]. On the other hand Lcn2 can affect iron traffic in cells, which may be partly referred to its interaction with recently identified mammalian siderophores [16, 17]. Additionally, Lcn2 promotes differentiation and structural organization of renal epithelial cells and its expression is induced upon renal cell injury. Accordingly, the administration of Lcn2 positively affected the outcome of mice suffering from experimental renal ischemia [14, 18].