Project description:The cell wall is a structure involved in important stages of fungal growth and morphogenesis. Several studies in the literature have shown how perturbations at the cell wall-level trigger dramatic effects on growth (e.g. Horiuchi, 2009). Despite the importance of fungal cell walls and despite the great advances made in the field, there are still missing pieces in our understanding of cell wall dynamics in filamentous fungi. Some cell wall biosynthetic genes, for example, are still uncharacterized (for a detailed inventory of Aspergillus nidulans cell wall-related genes, see de Groot et al., 2009). The chief polysaccharides in the cell wall of the model organism A. nidulans are β-glucans (β-1,3-, β-(1,3;1,4)- and β-1,6-glucans), chitin and α-1,3-glucans. While much is known about the chitin and α-1,3-glucan biosynthetic genes in A. nidulans (Horiuchi et al., 1999; Fujiwara et al., 2000; Ichinomiya et al., 2002 and 2005; Takeshita et al., 2006; Yoshimi et al., 2013), no characterization is yet available for the celA gene (ANIA_08444) encoding a putative mixed-linkage glucan synthase (de Groot et al., 2009). Recently, a study on A. fumigatus has characterized Tft1, an enzyme shown to be responsible for the production of β-(1,3;1,4)-glucans in this organism (Samar et al., 2015). Deletion of Tft1 causes no obvious phenotype in A. fumigatus and a modest increase in virulence. To characterize the role of β-(1,3;1,4)-glucans in the growth and development of filamentous fungi, we here sought to provide transcriptomics data of an A. nidulans strain showing reduced expression of the gene encoding the putative mixed linkage glucan synthase celA.

Project description:This experiment focused on the transcriptomic responses of the rainbow trout spleen macrophage-like cell line (RTS11) in response to β-glucans (M-glucans, Biotec). RTS11 was cultured at the Scottish Fish Immunology Research Centre, University of Aberdeen. M-glucans was provided by Skretting AI. Samples were treated for 4hrs with either M-glucans or left untreated as controls (n=4). To establish responses to β-glucans, total RNA was extracted for RNA-seq examination. Library preparation and sequencing was carried out by Novogene Ltd, with downstream analysis being carried out at the SFIRC. As a result, a total of 8 samples were used to identify responses to M-glucans, 4 control and 4 stimulated samples were used for the analysis.

Project description:β-glucans are Masked but Contribute to Pulmonary Inflammation During Pneumocystis Pneumonia

Project description:Some phytopathogens are outfitted with a broad and diverse repertoire of enzymatic systems that enable the breakdown and utilization of host polysaccharides as a source of carbon, energy, and stimuli. However, the functional assignment of these enzymatic systems and the influence of their products on modulating pathogen behavior during host colonization is yet poorly comprehended. In this study, we performed RNA-seq analyses to provide a comprehensive, genome-wide view of the transcriptional response of the model phytopathogen Xanthomonas citri pv. citri 306 (hereafter X. citri 306) to cellobiose, a component of structural β-1,4-glucans (majorly cellulose), and storage α-glucans, seeking to better understand how they are assimilated and the impacts of their sensing on bacterial behavior and physiology. Structural β-1,4-glucans and storage α-glucans (starch) are spatially discretized in the plant cell, therefore representing spatiotemporal references for the bacterium during host colonization. Combining transcriptional and genome mining analyses with gene knockout and cell motility assays, we show that X. citri 306 harbors molecular systems for the breakdown and assimilation of these carbohydrates, revealing that cellobiose upregulates genes related to flagellum assembly and type IV pili, inducing a higher-motility state. In contrast, starch suppresses genes related to chemotaxis, flagellum assembly and biofilm dispersion, decreasing motility. Taken together, these results unravel that besides using structural β-glucans and storage α-glucans as sources of carbon and energy, Xanthomonas bacteria also sense them, adapting its metabolism and controlling transitions between higher and lower motility states for successful host colonization.

Project description:Pneumocystis pneumonia (PCP) is an opportunistic infectious disease prevalent in immunosuppressive host. Corticosteroids treatment is the most significant risk factor for HIV-negative patients with PCP, though little is known about how corticosteroids alters the host defense against Pneumocystis infection. In the present study, we used transcriptomic analysis to examine the immune response in the lung of dexamethasone-treated PCP mice and compare the immune reaction of them with those without dexamethasone treatment.

Project description:Pneumocystis pneumonia is an opportunistic pneumonia that has been increasing in non-HIV patients in recent years. To obtain a better understanding of the cellular and molecular mechanisms involved in disease pathogenesis, we profile the transcriptomes of mouse lungs with Pneumocystis pneumonia and from uninfected control subjects using single-cell RNA sequencing, yielding multiple populations of myeloid cells, T cells and B cells. We uncover a PCP-associated TREM2+ subpopulation of interstitial macrophages, which expands in PCP, differentiates from Ly6C+ monocytes. We also define the subsets of effector CD4+ T cells that expand after the infection of Pneumocystis. Finally, intercellular crosstalk between interstitial macrophages and effector CD4+ T cells via multiple ligand and receptor interactions reveals several anti-pneumocystis pathways. Our work dissects unanticipated aspects of the cellular and molecular basis of Pneumocystis pneumonia at a single-cell level, and provides a conceptual framework for the discovery of rational therapeutic targets in Pneumocystis pneumonia.

Project description:Pneumocystis jirovecii Metagenome

Project description:The aim of this study was to evaluate the ability of a diet enriched with two types of oat beta-glucans on inflammatory and oxidative stress status in blood cells in rats with LPS-induced enteritis

Project description:Pneumocystis is a life-threatening fungal pathogen frequently causing fatal pneumonia (PCP) in immunocompromised individuals with high mortality. Recently, B cells have been reported to play a crucial role in the pathogenesis of PCP through producing antibodies and activating CD4+ T cell response. Exosomes are nano-scale small extracellular vesicles (EVs) abundant of protein cargo and can mediate immune response during infectious disease. Here, using quantitative proteomic analysis coupled with bioinformatic analysis, we attempted to characterize exosomes derived from B lymphocytes in response to PCP. Also, the effects of B-cell exosomes on CD4+ T cell response and phagocytic function of macrophages were clarified. Briefly, 1701 proteins were identified from B-cell exosomes and the majority of them were reported in Vesiclepedia. 51 differentially expressed proteins of B-cell exosomes were found in response to PCP. They were mainly associated with immune response and transcription regulation. Particularly, a variety of histone components were enriched in B cell-derived exosomes when infected with Pneumocystis. Moreover, functional study revealed the pro-inflammatory profile of B-cell exosomes on CD4+ T cell response in PCP. Taken together, our results suggest the involvement of exosomes derived from B cells in cell-to-cell communication, providing new information on the function of B cells in response to PCP.

Project description:Pneumocystis jirovecii strain 55