Aspergillus fumigatus induces the release of innate immune-related molecules from phagocytic cells early in the course of infection. Little is known, however, about the complex expression profiles of the multiple genes involved in this response. We therefore investigated the kinetics of early gene expression in human monocytes (HMCs) infected with conidia of A. fumigatus using DNA microarray analysis. Total RNA from HMCs at 0, 2, 4, and 6 h was extracted, linearly amplified, hybridized onto Affymetrix HG133 Plus 2.0 gene chips, and analyzed with an Affymetrix scanner. Changes in gene expression were calculated as a ratio of those expressed by infected versus control HMCs. Aspergillus fumigatus induced differential regulation of expression in 1,827 genes (P < 0.05). Genes encoding cytokines and chemokines involved in host defense against A. fumigatus, including interleukin-1 (IL-1), IL-8, CXCL2, CCL4, CCL3, and CCL20, as well as the opsonin long pentraxin 3, were up-regulated during the first 2 to 6 h, coinciding with an increase in phagocytosis. Simultaneously, genes encoding CD14, ficolin1, and MARCO were down-regulated, and genes encoding IL-10 and matrix metalloproteinase 1 were up-regulated. Up-regulation of the genes encoding heat shock proteins 40 and 110 and connexins 26 and 30 may point to novel molecules whose role in the pathogenesis of aspergillosis has not been previously reported. Verification of the transcriptional profiling was obtained for selected genes by reverse transcription-PCR and enzyme immunoassay. Thus, A. fumigatus conidia induced a coordinated expression of genes important in host defense and immunomodulation.Invasive aspergillosis is an important cause of morbidity and mortality among immunocompromised patients. Risk factors for developing aspergillosis include aplastic anemia (46), hematopoietic stem cell transplantation (32), solid organ transplantation (44), and phagocytic deficiencies, such as chronic granulomatous disease and human immunodeficiency virus infection (40,43). Aspergillus fumigatus is the species most commonly identified as the cause of invasive aspergillosis.Monocytes/macrophages play a pivotal role in normal host defense against A. fumigatus. The innate host response against this pathogen is mediated by release of immune-related molecules from phagocytic cells. However, little is known about the complex expression kinetic profiles of the multiple genes mediating the initial immune response to A. fumigatus. Thus, we hypothesized that conidia of A. fumigatus would induce reciprocal changes in expression of genes encoding products related to innate immunity that may provide insight into early host-parasite interaction.In this study, we used microarray analysis to elucidate the initial kinetics of the transcriptional response of genes encoding innate host defense molecules in normal human monocytes after in vitro stimulation/infection with A. fumigatus conidia. We report herein the changes in expression of genes whose products are involved in the initial innate immun...
Little is known about the regulation and coordinated expression of genes involved in the innate host response to Candida albicans. We therefore examined the kinetic profile of gene expression of innate host defense molecules in normal human monocytes infected with C. albicans using microarray technology. Freshly isolated peripheral blood monocytes from five healthy donors were incubated with C. albicans for 0 to 18 h in parallel with time-matched uninfected control cells. RNA from monocytes was extracted and amplified for microarray analysis, using a 42,421-gene cDNA chip. Expression of genes encoding proinflammatory cytokines, including tumor necrosis factor alpha, interleukin 1 (IL-1), IL-6, and leukemia inhibitory factor, was markedly enhanced during the first 6 h and coincided with an increase in phagocytosis. Expression of these genes returned to near baseline by 18 h. Genes encoding chemokines, including IL-8; macrophage inflammatory proteins 1, 3, and 4; and monocyte chemoattractant protein 1, also were strongly up-regulated, with peak expression at 4 to 6 h, as were genes encoding chemokine receptors CCR1, CCR5, CCR7, and CXCR5. Expression of genes whose products may protect monocyte viability, such as BCL2-related protein, metallothioneins, CD71, and SOCS3, was up-regulated at 4 to 6 h and remained elevated throughout the 18-h time course. On the other hand, expression of genes encoding T-cell-regulatory molecules (e.g., IL-12, gamma interferon, and transforming growth factor ) was not significantly affected during the 18-h incubation. Moreover, genes encoding IL-15, the IL-13 receptor (IL-13Ra1), and CD14 were suppressed during the 18-h exposure to C. albicans. Thus, C. albicans is a potent inducer of a dynamic cascade of expression of genes whose products are related to the recruitment, activation, and protection of neutrophils and monocytes.
Quantitative real-time PCR (qPCR) is considered one of the most sensitive methods to detect low levels of DNA from pathogens in clinical samples. To improve the design of qPCR for the detection of deeply invasive candidiasis, we sought to develop a more comprehensive understanding of the kinetics of DNA released from Candida albicans in vitro and in vivo. We developed a C. albicans-specific assay targeting the rRNA gene complex and studied the kinetics of DNA released from C. albicans alone, in the presence of human blood monocytes (H-MNCs), and in the bloodstream of rabbits with experimental disseminated candidiasis. The analytical qPCR assay was highly specific and sensitive (10 fg). Cells of C. albicans incubated in Hanks balanced salt solution (؎10% bovine serum albumin [BSA]) or RPMI (؎10% BSA) showed a significant release of DNA at T equal to 24 h compared to T equal to 0 h (P < 0.01). C. albicans incubated with H-MNCs exhibited a greater release of DNA than C. albicans cells alone over 24 h (P ؍ 0.0001). Rabbits with disseminated candidiasis showed a steady increase of detectable DNA levels in plasma as disease progressed. Plasma cultures showed minimal growth of C. albicans, demonstrating that DNA extracted from plasma reflected fungal cell-free DNA. In summary, these studies of the kinetics of DNA release by C. albicans collectively demonstrate that cell-free fungal DNA is released into the bloodstream of hosts with disseminated candidiasis, that phagocytic cells may play an active role in increasing this release over time, and that plasma is a suitable blood fraction for the detection of C. albicans DNA.
To understand the molecular basis of observed regional shifts in the genome types of adenovirus type 7 (Ad7) isolated in Korea during nationwide outbreaks from 1995 to 2000, the genetic variabilities of Ad7d and Ad7l were studied by sequence analysis of hexon, fiber, E3, and E4 open reading frame (ORF) 6/7 peptides. One amino acid change in the receptor-binding domain of fiber and 6 amino acid variations in E4 ORF 6/7 were identified between 2 genome types, while no variations were found in hexon and E3. Phylogenetic trees based on hexon, fiber, and E4 suggested that the Ad7 epidemic was probably caused by the introduction of the Japanese Ad7d strains. Our data also provide evidence that the rapid divergence of Ad7d to a novel genome type Ad7l could have been due to viral strategies involving multiple sequence changes in E4. This result suggests fiber and E4 ORF 6/7 peptides participate in the evolution of Ad7.
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