Project description:Human newborns exhibit increased vulnerability and risk of mortality from infection. Increased susceptibility to infection during the neonatal period reflects key differences in the innate and adaptive immune responses relative to those in adult cells. We have previously shown an increase in the pleiotropic immune suppressive cytokine, IL-27, in macrophages derived from human umbilical cord blood compared with those obtained from adult peripheral blood. Similar findings exist in the neonatal murine system, as well as elevated splenic transcripts and serum levels. Recently, we established a murine model of neonatal sepsis to explore the impact of early life IL-27 levels on the host response to infection. In this model, neonatal mice deficient in IL-27 signaling exhibit reduced mortality, increased weight gain, and better control of the bacterial burden with reduced systemic inflammation. These results suggest that there is a reprogramming of the host response in the presence of IL-27 signaling. To explore this hypothesis, we profiled the neonatal transcriptome of the spleen in the presence or absence of Escherichia coli-induced sepsis in wild-type (WT) and IL-27Rα-deficient mice. The spleen, a known site of infection, exhibits increased IL-27 expression and bacterial burdens in WT pups that were significantly lower in IL-27Rα KO pups during infection. We identified 549 genes that were differentially expressed in WT neonates in response to E. coli infection. The upregulated genes were associated with inflammation, cytokine signaling, and G protein coupled receptor ligand binding and signaling. The expression level of these genes generally failed to increase in IL-27Rα KO mice upon the E. coli infection. We observed similar changes in gene expression, aligned with changes in chromatin accessibility, for macrophages isolated from the spleens of control and infected neonates with or without IL-27Rα KO, supporting macrophages as an innate myeloid population contributing to the inflammatory profile in septic WT pups. Collectively, our findings highlight a less inflammatory environment in KO pups that is not expected given the anti-inflammatory/suppressive activity of IL-27. However, it is consistent with a lower bacterial burden. This suggests that improved bacterial clearance in the absence of IL-27 signaling does not require a heightened inflammatory state, and instead, there is a direct relationship between IL-27 signaling and bacterial killing. An improved response to infection that is not reliant upon heightened levels of inflammation offers new promise to the potential of antagonizing IL-27 as a host-directed therapy for neonates without concern for driving inflammatory responses that are pathological to host tissues.

Project description:Human newborns exhibit increased vulnerability and risk of mortality from infection. Increased susceptibility to infection during the neonatal period reflects key differences in the innate and adaptive immune responses relative to those in adult cells. We have previously shown an increase in the pleiotropic immune suppressive cytokine, IL-27, in macrophages derived from human umbilical cord blood compared with those obtained from adult peripheral blood. Similar findings exist in the neonatal murine system, as well as elevated splenic transcripts and serum levels. Recently, we established a murine model of neonatal sepsis to explore the impact of early life IL-27 levels on the host response to infection. In this model, neonatal mice deficient in IL-27 signaling exhibit reduced mortality, increased weight gain, and better control of the bacterial burden with reduced systemic inflammation. These results suggest that there is a reprogramming of the host response in the presence of IL-27 signaling. To explore this hypothesis, we profiled the neonatal transcriptome of the spleen in the presence or absence of Escherichia coli-induced sepsis in wild-type (WT) and IL-27Rα-deficient mice. The spleen, a known site of infection, exhibits increased IL-27 expression and bacterial burdens in WT pups that were significantly lower in IL-27Rα KO pups during infection. We identified 549 genes that were differentially expressed in WT neonates in response to E. coli infection. The upregulated genes were associated with inflammation, cytokine signaling, and G protein coupled receptor ligand binding and signaling. The expression level of these genes generally failed to increase in IL-27Rα KO mice upon the E. coli infection. We observed similar changes in gene expression, aligned with changes in chromatin accessibility, for macrophages isolated from the spleens of control and infected neonates with or without IL-27Rα KO, supporting macrophages as an innate myeloid population contributing to the inflammatory profile in septic WT pups. Collectively, our findings highlight a less inflammatory environment in KO pups that is not expected given the anti-inflammatory/suppressive activity of IL-27. However, it is consistent with a lower bacterial burden. This suggests that improved bacterial clearance in the absence of IL-27 signaling does not require a heightened inflammatory state, and instead, there is a direct relationship between IL-27 signaling and bacterial killing. An improved response to infection that is not reliant upon heightened levels of inflammation offers new promise to the potential of antagonizing IL-27 as a host-directed therapy for neonates without concern for driving inflammatory responses that are pathological to host tissues.

Project description:Neonates have increased vulnerability to life-threatening infections due to the distinct immune landscape. Interleukin (IL)-27 is a key component of this immune profile that we have previously shown to be elevated in both newborn humans and mice. IL-27 continues to increase in the serum and tissues consistent with poor outcomes during gram-negative neonatal bacterial sepsis. Presently, we dissected the IL-27 producer profile at a single-cell level using IL 27p28eGFP reporter mice in our previously established model of sepsis with luciferase-expressing Escherichia coli. Whole animal imaging regionally highlighted the spleen, liver, and lungs as key infection sites by bacterial luminescence. Flow cytometry showed that IL-27 producers increased in the liver with infection and were predominantly F4/80+ and CD11b+. This information paired with single-cell RNA sequencing further identified the most robust populations as monocytes and derived cells, neutrophils, and Kupffer cells. The transcriptome demonstrated that some populations increased in bactericidal, metabolic, and inflammatory activities while others became less active. Sepsis is a disease characterized by extreme immune dysregulation similar to that shown in our cells. The phenotype and transcriptome of IL-27 producers from the livers of infected animals suggests suppressive activity, which contributes to the dysregulated immune environment observed in sepsis. Together, this work provides previously undescribed insight into the details of IL-27 producers during systemic early life infection. This further provides essential information to support IL-27 as a therapeutic target for neonatal bacterial sepsis.

Project description:Background: Neonatal infection and sepsis are common for preterm infants due to their immature immune system. Early diagnosis is important for effective treatment but few early markers of systemic and neuro-inflammatory responses in neonates are known. We hypothesized that systemic infection with Gram-positive Staphylococcus epidermidis (SE) induces acute changes to proteins in plasma and cerebrospinal fluid (CSF), potentially affecting the immature brain of preterm neonates. Methods: Using preterm pigs as model for preterm infants, plasma and CSF samples were collected up to 24 h after SE infection and investigated by untargeted mass spectrometry (MS)-based proteomics. Selected differential proteins were further studied in vitro assays. Results: The clinical signs of sepsis and neuroinflammation in SE-infected piglets were associated with changes in multiple CSF and plasma proteins. Eight plasma proteins, including APOA4, haptoglobin, MBL1, vWF, LBP and sCD14, were affected already 6 h after infection. Likewise, acute phase reactants, including complement components, showed a time-dependent activation pattern after infection. Feeding bovine colostrum reduced the sepsis-related change in clinical parameters as well as plasma proteins. Neuroinflammation-related neuropeptide Y (NPY), IL-18 and MMP-14 showed distinct changes in the CSF and several brain regions (prefrontal cortex, PVWM, hippocampus) 24 h after infection. These changes were verified in TLR2 agonist-challenged primary microglia cells, where exogenous NPY suppressed the inflammatory response. Conclusion: Systemic infection with Gram-positive SE induces inflammation with rapid proteome changes in plasma and CSF in preterm newborn pigs. The observed early markers of sepsis and neuroinflammation in preterm pigs may serve as novel biomarkers for sepsis in preterm infants.

Project description:Neonates manifest a unique host response to sepsis even among other children. Preterm neonates may experience sepsis soon after birth or during often protracted birth hospitalizations as they attain physiologic maturity. We examined the transcriptome using genome-wide expression profiling on prospectively collected peripheral blood samples from infants evaluated for sepsis within 24 hours after clinical presentation. Simultaneous plasma samples were examined for alterations in inflammatory mediators. Group designation (sepsis or uninfected) was determined retrospectively based on clinical exam and laboratory results over the next 72 hours from the time of evaluation. Unsupervised analysis showed the major node of separation between groups was timing of sepsis episode relative to birth (early, <3 days or late, >3 days). Principal component analyses revealed significant differences between patients with early or late sepsis despite the presence of similar key immunologic pathway aberrations in both groups. Unique to neonates, the uninfected state and host response to sepsis is significantly affected by timing relative to birth. Future therapeutic approaches may need to be tailored to the timing of the infectious event based on post-natal age. We used human microarrays to detail the molecular profile of the events that occur following sepsis in hospitalized neonates Please note that 'uninfected chorio' represents babies who were not infected but had chorioamnionitis exposure

Project description:We report transcriptomic changes in skeletal muscle of systemic miR-181a2b2 KO mice in response to chow and HFSC diet feeding and hindlimb ischemia

Project description:Early-life sepsis remains one of the leading causes of global morbidity and mortality in the neonatal population, especially preterm infants. Using a preterm piglet model of neonatal sepsis to test nutritional interventions as a therapeutic approach, we demonstrated that high parenteral glucose induced hyperglycemia with severe sepsis, whereas glucose restriction offered protection against infection but led to severe hypoglycemia. Building on this, our current study aims to maintain normoglycemia through galactose metabolism or gluconeogenesis and reduce sepsis risks by substituting glucose with galactose, or supplementing glucogenic amino acids (GAAs).

Project description:The primary goal of this study was to determine the role of AMPKalpha during disuse atrophy. Skeletal muscle-specific tamoxifen-inducible AMPKlpha1/alpha2 double knockout (KO) mice were generated and KO was induced for 4 weeks. After 2 weeks of KO, mice were hindlimb unloaded (HU) for 2 weeks to induce atrophy or maintained ambulatory (AMB). We observed that AMPKalpha double KO impaired skeletal muscle transcriptional profiles that may have carried over with HU.

Project description:The pleiotropic cytokine IL-27 is essential for the clearance of the persistent LCMV strain Clone 13, however the cellular sources of IL-27 during viral infection are incompletely mapped and their relative importance unknown. Here we utilised single-cell RNA-sequencing of splenocytes from IL27-p28-GFP mice infected with Clone 13 to quantify the temporal patterns of IL-27 p28 production. IL-27-p28-GFP+ and IL-27-p28-GFP- splenocytes were sorted at 4 timepoints during Clone 13 infection and analysed by 3' single-cell transcriptome sequencing. Dendritic cells were major producers of early IL-27 with macrophages and monocytes being the predominant IL-27 producers during acute and persistent phases of infection. Interestingly, we also identified activated B cells and plasma cells as a prominent subset of IL-27-producing splenocytes and through B-cell-specific deletion of IL-27-p28 demonstrated that B-cell derived IL-27 is essential for sustained function of CD4 T cells and eventual clearance of Clone 13.

Project description:Preterm neonates die at a significantly higher rate from sepsis than full-term neonates, attributable to their dysregulated immune response. In addition to tissue destruction caused directly by bacterial invasion, an overwhelming cytokine response by the immune cells to bacterial antigens also results in collateral damage. Sepsis leads to decreased gene expression of a critical transcription factor, Kruppel-like factor-2 (KLF2), a tonic repressor of myeloid cell activation. KLF2 gene expression is also lower in murine pups at an earlier postnatal age. Using a murine model of myeloid-KLF2 deletion, we show that loss of KLF2 leads to decreased survival after endotoxemia in a developmentally dependent manner, with increased mortality at postnatal day 4 (P4) compared to P12 pups. This survival is significantly increased by neutrophil depletion before endotoxemia. P4 knockout pups have increased pro-inflammatory cytokine levels after endotoxemia compared to P4 controls or P12 pups, with significantly increased levels of IL-1b, an end product of the activation of the NLRP3 inflammasome complex. Both loss of myeloid KLF2 and a younger postnatal age lead to increased NLRP3 protein expression and release of IL-1b in bone marrow neutrophils. Inhibition of NLRP3 inflammasome activation by MCC950 significantly increased survival after endotoxemia in P4 pups. Transcriptomic analysis of bone marrow neutrophils showed that loss of myeloid-KLF2 is associated with gene enrichment of pro-inflammatory pathways in a developmentally dependent manner. These data suggest that targeting KLF2 could be a novel strategy to decrease the pro-inflammatory cytokine storm in neonatal sepsis and improve survival in neonates with sepsis.