0001 for Francisella, p = 0.02 for Salmonella). Figure 6 Expression of genes involved in iron homeostasis during infection with Francisella or Salmonella. RAW264.7 macrophages were infected for 24 h with wild-type Francisella (A), wild type Salmonella (B), spiC Salmonella (C), or spiA Salmonella (D). Quantitative mRNA levels were determined by quantitative light cycler PCR for: iron-regulatory protein 1 (IRP1), iron regulatory protein 2 (IRP2),
ferrireductase (Steap3), transmembrane iron transporter (Dmt1), lipocalin Selleckchem AMG510 (Lcn2), lipocalin receptor (LcnR), ferroportin (Fpn1), antimicrobial peptide hepcidin (Hamp1), heme oxygenase (Hmox1), Anlotinib nmr ferritin heavy chain 1(Fth1), ferritin light chain 1 (Ftl1), and ferritin light chain 2 (Ftl2). Measurements were standardized to GAPDH-mRNA levels for each experiment. Values shown represent the ratio of mRNA for a given gene in infected cells divided by the mRNA level in uninfected cells (mRNA infected/mRNA uninfected). Statistically significant expression data are shown by solid bars (Student’s t-test, p < 0.05 is considered as significant; individual p-values are given in the text). Results from n = 6 experiments are expressed as means +/- 1 standard error of mean (SEM). After uptake of selleck products iron via TfR1 and acidity-triggered release into the vesicle, ferric iron needs to be reduced, which
is accomplished by the ferrireductase Steap3 [34]. After reduction, ferrous iron is transported into the cytosol by Dmt1 or functional Nramp1 [35, 36]. Non-specific serine/threonine protein kinase There is a fivefold higher induction of Steap3 and Dmt1 during infection with Francisella (p = 0.0001) when compared to infection with wild-type Salmonella (p = 0.67) (Figure 6A and 6B). Infected host cells can restrict the intracellular iron pool available for intracellular parasites by transporting iron out of the cells via ferroportin 1 (Fpn1), a transmembrane iron efflux protein [37].
While Fpn1 is increased 2.5-fold in macrophages infected with Francisella (p = 0.02), there is no change during infection with Salmonella (p = 0.46) (Figure 5A and 5B). During infection with bacteria, hepatocytes secrete the antimicrobial peptide hepcidin (Hamp1), which binds to ferroportin on macrophages (and other cell types). This leads to internalization and degradation of ferroportin and entrapment of iron inside the cell. It was also shown recently that hepcidin is induced in myeloid cells through the TLR-4 pathway and regulates ferroportin levels at the transcriptional and post-translational level [38]. Hepcidin thus effectively reduces iron efflux [39–41]. There is a two-fold stronger induction of hepcidin during infection with Salmonella when compared to infection with Francisella (Figure 6A and 6B; p = 0.001 and p = 0.01 respectively). This might be explained by Francisella LPS preferentially stimulating the TLR-2 pathway, while Salmonella LPS induces the TLR-4 pathway [42]. The lipocalin system provides the host with another way of scavenging iron or withholding it from bacteria [43].