Project description:Following UV irradiation of skin, dendritic cells (DCs) differentiating from the bone marrow (BM) of mice have a reduced ability to prime new immune responses; their reduced immunogenicity is maintained for at least 16 weeks in UV-chimeric mice. We hypothesized that different metabolic states underpin changes in DC function. Compared with DCs from the BM of non-irradiated mice, DCs from the BM of UV-irradiated mice produced more lactate and utilized greater amounts of glucose, a profile that was supported by greater glycolytic flux when incubated in low-serum-containing medium. Responses to a mitochondrial stress test were similar suggesting that the DCs from the BM of UV-irradiated mice had not switched from a profile of oxidative phosphorylation, but were imprinted for greater glycolytic responses. After microarray profiling, RT-qPCR confirmation and Ingenuity pathway analysis, greater expression of the enzyme, 3-hydroxyanthranilate 3,4-dioxygenase, was identified as a potential contributor to increased glycolysis by BM-differentiated DCs. This enzyme provides the final step of the biosynthetic pathway from tryptophan to quinolinate, the universal de novo precursor to the pyridine ring of nicotinamide adenine dinucleotide (NAD), and may provide a mechanism to ensure sufficient NAD is available to support enhanced glycolysis. Increased lactate production was also measured for DCs from the BM of 16-week engrafted UV-chimeric mice and suggests long-lasting imprinting of progenitor cells for altered immunometabolism in their progeny cells. This study provides evidence of changes to metabolic states that associate with altered DC function. Female C57BL/6J (CD45.2 alloantigen) and B6.SJL-Ptprca (CD45.1 alloantigen) mice were obtained from the Animal Resources Centre (Murdoch, Western Australia). A bank of TL40W/12RS lamps (Philips, Amsterdam, The Netherlands) emitting broadband UVR with 65% UVB (280-320 nm) and peak emission at 313 nm was used. Twenty-four h prior to irradiation, a uniform area of dorsal skin of mice was shaved (8 cm2). To administer UVR, mice were held in perspex compartments which were covered with 0.2 mm polyvinyl chloride plastic to eliminate wavelengths <290 nm. The compartments were placed 20 cm beneath the UV lamps and up to 8 kJ/m2 UVR was delivered. Eight kJ/m2 UVR is equivalent to 3-4 minimal erythemal doses . The UVB output by the lamps was measured using a UVX radiometer (Ultraviolet Products Inc., Upland, CA). Mice were 6-10 wk old at the time of irradiation unless otherwise stated. Mice were subcutaneously implanted with two PGE2 pellets, each containing 0.1 mg with a constant release of 4.76 µg/day over 21 days (total 9.52 µg/day, Innovative Research of America, Sarasota, FL), three days prior to isolation of BM cells. The pellets were inserted into the loose skin at the top of the back. Freshly-isolated BM cells were cultured for 5 days in RPMI-1640 (HyClone, GE Health Care Life Sciences, Logan, UT) supplemented with 10% FCS (RPMI-10), 10 ng/ml GM-CSF and 10 ng/ml IL-4 (Peprotech Inc, Rocky Hill, NJ) at a density of 8 x 105 cells/ml in 24 well plates to promote CD11c+ cell differentiation (medium replaced on days 2 and 4). Non-adherent cells were enriched to >95% CD11c+ cells (confirmed by flow cytometry) using anti-CD11c magnetic microbeads (Miltenyi Biotec, Bergisch Gladbach, Germany) and autoMACS-Pro (Miltenyi Biotec) separation. Total RNA was extracted from triplicate preparations of BM-differentiated CD11c+ cells. Two sample groups; BM-differentiated DC sample from C57BL/6J mice injected with 2 x 10^6 BM cells from a naïve congenic B6.SJL-Ptprca mouse BM-differentiated DC sample from C57BL/6J mice injected with 2 x 10^6 BM cells from a UV irradiated congenic B6.SJL-Ptprca mouse

Project description:The ability of macrophages to respond to chemoattractants and inflammatory signals is important for their migration to sites of inflammation and immune activity and for host responses to infection. Macrophages differentiated from the bone marrow of UV-irradiated mice, even after activation with LPS, migrated inefficiently towards CSF-1 and CCL2. When bone marrow cells were harvested from UV-irradiated mice, and transplanted into naïve mice, the recipient mice (UV-chimeric) had reduced accumulation of elicited macrophages in the peritoneal cavity in response to inflammatory thioglycollate or alum. Macrophages differentiating from the bone marrow of UV-chimeric mice also had an inherent reduced ability to migrate towards chemoattractants in vitro, even after LPS activation. Microarray analysis identified reduced reticulon-1 mRNA in macrophages differentiated from the bone marrow of UV-chimeric mice. By using an anti-reticulon-1 antibody, a role for reticulon-1 in macrophage migration was confirmed. The proposal that reduced reticulon-1 is responsible for the poor inherent ability of macrophages to respond to chemokine gradients was supported by Western blotting. In summary, skin exposure to erythemal UV radiation can modulate macrophage progenitors in the bone marrow such that the properties of their differentiated progeny respond inefficiently to signals to accumulate at sites of inflammation and immunity.

Project description:In this study, we generated a chimeric situation by injection of different gene-modified BM-DCs into different strains of gene-modified recipient mice. This allowed us to identify the separate functional contributions of injected versus endogenous DCs for Th1 polarization. We identified the cellular source of IL-12p70 production after subcutaneous BM-DC vaccination as endogenous migratory XCR1+ bystander DCs in the skin draining lymph nodes. DC-DC and DCT cell interaction studies revealed a time course of Th0 priming by injected BM-DCs, followed by interactions of BM-DC with the IL-12+ XCR1+ bystander DCs, and finally IL-12+ XCR1+ bystander DC interactions for Th1 induction. Transcriptional profiling of the bystander DCs underscores their Th1 polarization potential. Together, this study shows that DC-vaccination requires the bystander activation of endogenous DCs for Th1 priming. Our data also challenge the general concept of Th1 priming by a single DC providing all signals 1, 2 and 3 to T cells for Th1 polarization.

Project description:Dendritic cells (DCs) regulate both innate and adaptive immune responses. The role of CD11c-plus DCs in the corneal response to to herpes simplex virus-1 (HSV-1) infection was investigated by depleting them prior to infection. Bone marrow cells from CD11c-DTR (C.FVB-Tg(Itgax-DTR/EGFP)57Lan/J) mice were transferred intravenously to irradiated BALB/cJ host mice. After 6 weeks, the bone marrow chimeric host mice were injected with diphtheria toxin (DT) to deplete CD11c-positive cells. Two days after injection, the mice were subjected to a standard corneal infection protocol using HSV-1.

Project description:Previous findings have demonstrated that the NADH/NAD+ ratio has a strong impact on the glycolytic flux in C. glutamicum under anaerobic conditions in the absence of external electron acceptors. During an attempt to rewire anaerobic metabolism to achieve high yield formation of ethanol, we inactivated the malate dehydrogenase and lactate dehydrogenase in a C. glutamicum strain expressing pyruvate decarboxylase and alcohol dehydrogenase, to eliminate formation of the by-products succinate and lactate, respectively. This modification increased the yield of ethanol but had a negative effect on glycolysis, which we found to correlate with an elevated NADH/NAD+ ratio. The pyruvate dehydrogenase (PDH) of C. glutamicum is active under anaerobic conditions, and can potentially exacerbate the negative effect on glycolysis, due to NADH formation. To reduce PDH activity under anaerobic conditions, we decided to replace the gene encoding the E3 subunit of PDH with its Escherichia coli counterpart, as E. coli PDH has been reported to be functional under aerobic conditions only. The resultant strain JS133 produced far less acetate with a further increased ethanol production, however, the glycolytic flux was still low. After observing differences in glycolytic flux for JS133 on glucose and fructose, we speculated that the pentose phosphate pathway (PPP) might be involved in the reduced flux on glucose. To prove this, we deleted the zwf gene, encoding glucose-6-phosphate dehydrogenase, which is the entry point into PPP, and immediately observed a stimulating effect on glycolysis. Subsequent characterization revealed a direct correlation between the intracellular NADH/NAD+ and NADPH/NADP+ ratios under anoxic conditions. Based on these findings we managed to re-channel the metabolism of C. glutamicum successfully towards either to ethanol or D-lactate with 92% and 98% of the theoretical yield respectively, which is the highest yields for D-lactate production thus far reported in the literature.

Project description:This study looked for signals produced in UV-B irradiated leaves, and possibly induced in shielded leaves, that modulate physiological responses in maize. Transcriptome and proteomics profiling tracked changes in exposed and shielded organs. Metabolic profiling was examined for signaling molecules. Exposure of just the top leaf substantially alters the transcriptome of both irradiated and shielded organs, with greater changes as an additional 1-2 leaves are irradiated. Transcriptome, proteome and metabolome changes are UV-B regulated in shielded organs. Early steps in signal transduction and possible signal molecules are identified utilizing a time course experiment. Keywords: UVB, maize, leaves, ears

Project description:This study looked for signals produced in UV-B irradiated leaves, and possibly induced in shielded leaves, that modulate physiological responses in maize. Transcriptome and proteomics profiling tracked changes in exposed and shielded organs. Metabolic profiling was examined for signaling molecules. Exposure of just the top leaf substantially alters the transcriptome of both irradiated and shielded organs, with greater changes as an additional 1-2 leaves are irradiated. Transcriptome, proteome and metabolome changes are UV-B regulated in shielded organs. Early steps in signal transduction and possible signal molecules are identified utilizing a time course experiment. Keywords: UVB, maize, leaves, ears Compared irradiated leaves in a time course, irradiated leaves versus shielded leaves, and shielded ears on plants with irradiated leaves. Also compared different number of leaves being irradiated. Spike-in controls were included.

Project description:Reticulon-1 and reduced migration towards chemoattractants by macrophages differentiated from the bone marrow of UV-irradiated and UV-chimeric mice

Project description:The goal of this study is to investigate the involvement of inflammation in Alzheimer’s disease (AD) and to clarify the signaling pathways involved in the presence of beta-amyloidosis, a hallmark of AD pathogenesis, to help identifying potential targets for therapy. To do that, we isolated bone marrow-derived progenitor cells from femurs, tibiae and hip bones of non-transgenic C57BL/6 mice according to established protocols , and we maturated them with LPS. To obtain an unbiased view of gene regulation in mouse bone marrow-derived dendritic cells (BM-DCs) exposed to pre-aggregated beta-amyloid peptide (Aβ) oligomers, we analyzed the transcriptome of untreated immature control BM-DCs (‘Ctrl’), LPS-treated BM-DCs (’LPS’), Aβ1-42 oligomer-treated BM-DCs (‘Aβ‘) and BM-DCs treated with Aβ1-42 oligomers and LPS (‘Aβ+LPS‘) via explorative RNA-sequencing.

Project description:UV irradiated C. elegans