Transcript and protein analysis reveals better survival skills of monocyte-derived dendritic cells compared to monocytes during oxidative stress.

BACKGROUND: Dendritic cells (DCs), professional antigen-presenting cells with the unique ability to initiate primary T-cell responses, are present in atherosclerotic lesions where they are exposed to oxidative stress that generates cytotoxic reactive oxygen species (ROS). A large body of evidence indicates that cell death is a major modulating factor of atherogenesis. We examined antioxidant defence systems of human monocyte-derived (mo)DCs and monocytes in response to oxidative stress. METHODS: Oxidative stress was induced by addition of tertiary-butylhydroperoxide (tert-BHP, 30 min). Cellular responses were evaluated using flow cytometry and confocal live cell imaging (both using 5-(and-6)-chloromethyl-2,7-dichlorodihydrofluorescein diacetate, CM-H(2)DCFDA). Viability was assessed by the neutral red assay. Total RNA was extracted for a PCR profiler array. Five genes were selected for confirmation by Taqman gene expression assays, and by immunoblotting or immunohistochemistry for protein levels. RESULTS: Tert-BHP increased CM-H(2)DCFDA fluorescence and caused cell death. Interestingly, all processes occurred more slowly in moDCs than in monocytes. The mRNA profiler array showed more than 2-fold differential expression of 32 oxidative stress-related genes in unstimulated moDCs, including peroxiredoxin-2 (PRDX2), an enzyme reducing hydrogen peroxide and lipid peroxides. PRDX2 upregulation was confirmed by Taqman assays, immunoblotting and immunohistochemistry. Silencing PRDX2 in moDCs by means of siRNA significantly increased CM-DCF fluorescence and cell death upon tert-BHP-stimulation. CONCLUSIONS: Our results indicate that moDCs exhibit higher intracellular antioxidant capacities, making them better equipped to resist oxidative stress than monocytes. Upregulation of PRDX2 is involved in the neutralization of ROS in moDCs. Taken together, this points to better survival skills of DCs in oxidative stress environments, such as atherosclerotic plaques.

Role of oxidative stress and apoptosis in the cellular response of murine macrophages upon Leishmania infection.

Leishmania parasites are able to survive in the macrophage, one of the most hostile environments of the vertebrate host. The present study investigated how Leishmania infection influences these host cell defence mechanisms. Macrophages were infected with antimony-susceptible and -resistant Leishmania strains. Free radical production in Leishmania-infected macrophages was measured by electron paramagnetic resonance. Apoptosis was detected with fluorescence microscopy using Annexin-V FITC labelling and with Western blotting to detect caspase-3 cleavage. Independent of their drug susceptibility profile or species background, all studied Leishmania strains induced a similar increase in free radical production in macrophages. O2 ●- production was significantly elevated during phagocytosis of the stationary phase promastigotes. Conversely, NO levels increased later in the infection and none of the strains induced capsase-3 cleavage. Leishmania donovani infection led to phosphatidylserine externalization only in RAW 264.7 cells. After an initial burst of O2 ●- during phagocytosis of promastigotes, amastigotes protect themselves by decreasing the O2 ●- production to the basal level. An increased NO production was observed 6 h after infection. Finally, induction of cell death is probably not essential in the survival of the parasite within the macrophage.

Leishmania-macrophage interactions: insights into the redox biology.

Leishmaniasis is a neglected tropical disease that affects about 350 million individuals worldwide. The protozoan parasite has a relatively simple life cycle with two principal stages: the flagellated mobile promastigote living in the gut of the sandfly vector and the intracellular amastigote within phagolysosomal vesicles of the vertebrate host macrophage. This review presents a state-of-the-art overview of the redox biology at the parasite-macrophage interface. Although Leishmania species are susceptible in vitro to exogenous superoxide radical, hydrogen peroxide, nitric oxide, and peroxynitrite, they manage to survive the endogenous oxidative burst during phagocytosis and the subsequent elevated nitric oxide production in the macrophage. The parasite adopts various defense mechanisms to cope with oxidative stress: the lipophosphoglycan membrane decreases superoxide radical production by inhibiting NADPH oxidase assembly and the parasite also protects itself by expressing antioxidant enzymes and proteins. Some of these enzymes could be considered potential drug targets because they are not expressed in mammals. In respect to antileishmanial therapy, the effects of current drugs on parasite-macrophage redox biology and its involvement in the development of drug resistance and treatment failure are presented.

An alternative, sensitive method to detect Helicobacter pylori DNA in feces.

BACKGROUND: Despite the high sensitivity and specificity of PCR, detection of Helicobacter pylori DNA in feces is still challenging. Fecal samples contain inhibitory molecules that can prevent amplification of the target DNA. Even by using specific DNA extraction kits for stools, monitoring of infection by analyzing stool samples remains problematic and endorses the need for improved diagnostic methods. MATERIALS AND METHODS: The newly proposed method uses selective hybridization of target DNA with biotin-labeled probes, followed by DNA isolation with streptavidin-coated magnetic beads. After three washing steps, the purified DNA can be amplified immediately using conventional or quantitative PCR. In order to test this technique on biological samples, Mongolian gerbils were infected with H. pylori ATCC 43504 and fecal samples were analyzed on days 1, 4, and 10 post infection. RESULTS: A detection limit of one bacterial cell per 100 mg stool sample was established, but only after removal of the magnetic beads from the target DNA by heating. This resulted in a 10-fold increase of sensitivity compared to a commercially available stool DNA extraction kit. Analysis of fecal samples from infected gerbils demonstrated the presence of H. pylori DNA on each time point, while the uninfected animal remained negative. CONCLUSIONS: The proposed technique allows detection of very low quantities of H. pylori DNA in biological samples. In laboratory animal models, detailed monitoring of infection and complete clearance of infection can be demonstrated thanks to the low detection limit.

In vitro and in vivo prophylactic and curative activity of the triterpene saponin PX-6518 against cutaneous Leishmania species.

OBJECTIVES: The oleanane triterpene saponin PX-6518, with known potent in vitro and in vivo activity against Leishmania donovani, was investigated for its spectrum against the cutaneous species Leishmania mexicana, Leishmania panamensis and Leishmania major. METHODS: In vitro activity was based on the reduction of amastigotes in primary peritoneal mouse macrophages. BALB/c mice were injected with 2 × 10(6) amastigotes in the base of the tail (L. panamensis and L. major) or the foot (L. mexicana) and subcutaneously treated with PX-6518 [1-10 mg/kg body weight (BW)] or Pentostam(®) (250 mg/kg BW Sb(V) eq). Evolution of skin lesions was monitored in a prophylactic dose-finding study, and early curative [6 weeks post-infection (pi)] and late curative (>8-10 weeks pi) studies. RESULTS: While moderate susceptibility to PX-6518 was obtained in vitro (IC(50): 1-4 µg/mL), excellent in vivo activity was demonstrated. In the prophylactic study (six administrations on alternate days, starting at 1 day pi), PX-6518 was 100% effective at 1 mg/kg BW against L. mexicana and L. panamensis, whereas L. major lesions could be prevented at 2 mg/kg BW. In the early curative (1 mg/kg BW once a week for 4 weeks) and late curative (1 mg/kg BW twice a week for 4 weeks) studies, PX-6518 completely healed L. mexicana and L. panamensis lesions, whereas L. major lesions were reduced by ∼ 50%. CONCLUSIONS: This study demonstrates that PX-6518 possesses potent and broad-spectrum prophylactic and curative efficacy against cutaneous leishmaniasis in the BALB/c mouse model. L. major was the least susceptible species tested and parasitological cure could not be obtained.

Comparative EPR study of different macrophage types stimulated for superoxide and nitric oxide production.

Despite the major impact of ROS on human health, their quantification remains difficult and requires an analytical approach, such as the EPR spin trap technique. In this study, a comparative EPR analysis of different macrophage types stimulated for superoxide and nitric oxide production was performed. U937 monocytes, J774A.1, RAW 264.7 and primary mouse (PMM) macrophages were included. In contrast to the U937 cells, all macrophages produced significant EPR signals after stimulation. The use of PMA as stimulator and CM-H as spin probe led to the highest response in EPR signals for detection of O(2)(.-) as nitroxide radical. A combination of LPS and IFN-gamma and the spin trap [Fe(DETC)(2)] turned out to be the best combination for the production and detection of intracellular NO spin adducts. In conclusion, this study established practical experimental conditions for the EPR analysis of O(2)(.-) and NO produced by different types of activated macrophages.