Project description:Acinetobacter baumannii is a multidrug-resistant, Gram-negative nosocomial pathogen that exhibits phenotypic heterogeneity resulting in virulent opaque (VIR-O) and avirulent translucent (AV-T) colony variants. Each variant has a distinct gene expression profile resulting in multiple phenotypic differences. Cells interconvert between the VIR-O and AV-T variants at high frequency under laboratory conditions, suggesting that the genetic mechanism underlying the phenotypic switch could be manipulated to attenuate virulence. Therefore, our group has focused on identifying and characterizing genes that regulate this switch, which led to the investigation of ABUW_1132 (1132), a highly conserved gene predicted to encode a LysR-type transcriptional regulator. ABUW_1132 was shown to be a global regulator as the expression of 74 genes was altered > 2-fold in an 1132 deletion mutant. The 1132 deletion also resulted in a 16-fold decrease in VIR-O to AV-T switching, loss of 3-OH-C12-HSL secretion, and reduced surface-associated motility. Further, the deletion of 1132 in the AV-T background caused elevated capsule production, which increased colony opacity and altered the typical avirulent phenotype of translucent cells. These findings distinguish 1132 as a global regulatory gene and advance our understanding of A. baumannii’s opacity-virulence switch.

Project description:We describe a novel genetic mechanism  in which tandem amplification of a plasmid-borne integron regulates virulence, opacity variation, and global gene expression by altering levels of a putative small RNA (sRNA) in Acinetobacter baumannii AB5075. Copy number of this amplified locus correlated with the rate of switching between virulent opaque (VIR-O) and avirulent translucent (AV-T) cells. We found that prototypical VIR-O colonies, which exhibit high levels of switching and visible sectoring with AV-T cells by 24 h of growth, encode two copies of this locus. However, a subset of opaque colonies that did not form AV-T sectors within 24 h were found to encode only one copy. The colonies with decreased sectoring to AV-T were designated low-switching opaque (LSO) variants, and were found to exhibit a three-log decrease in switching relative to the VIR-O. Overexpression studies revealed that the element regulating switching was localized to the 5’ end of the aadB gene within the amplified locus. Northern blotting indicated that a sRNA of approximately 300 nt is encoded in this region, and is likely responsible for regulating switching to AV-T. Copy number of the ~300 nt sRNA was also found to affect virulence, as the LSO variant exhibited decreased virulence during murine lung infections. Global transcriptional profiling revealed that over 100 genes were differentially expressed between VIR-O and LSO variants, suggesting that the ~300 nt sRNA may act as a global regulator. Several virulence genes exhibited decreased expression in LSO cells, potentially explaining their decreased virulence.

Project description:Experimental design: 1 genotype: PI- (resistant USDA Plant Introduction (PI462312) line containing SBR Rpp3 resistance gene) 3 treatments: Virulent soybean rust (Phakopsora pachyrhizi Tw80-2) challenge, avirulent soybean rust challenge (Hw94-1) & mock infection 3 replications 6 time points: 12, 24, 72, 144, 216 and 288 hours after inoculation TOTAL: 54 Affymetrix GeneChip(R) Soybean Genome Arrays Mock treatment: 0.01% Tween 20 Hawaii 94 treatment: 500,000 spores per ml in 0.01% Tween 20 Taiwan 80-2 treatment: 500,000 spores per ml in 0.01% Tween 20 ****[PLEXdb(http://www.plexdb.org) has submitted this series at GEO on behalf of the original contributor, Martijn van de Mortel (for Steve Whitham). The equivalent experiment is GM36 at PLEXdb.] pathogen isolates: Mock - time: 12 hai(3-replications); pathogen isolates: Mock - time: 24 hai(3-replications); pathogen isolates: Mock - time: 72 hai(3-replications); pathogen isolates: Mock - time: 144 hai(3-replications); pathogen isolates: Mock - time: 216 hai(3-replications); pathogen isolates: Mock - time: 288 hai(3-replications); pathogen isolates: Taiwan 80-2 (vir) - time: 12 hai(3-replications); pathogen isolates: Taiwan 80-2 (vir) - time: 24 hai(3-replications); pathogen isolates: Taiwan 80-2 (vir) - time: 72 hai(3-replications); pathogen isolates: Taiwan 80-2 (vir) - time: 144 hai(3-replications); pathogen isolates: Taiwan 80-2 (vir) - time: 216 hai(3-replications); pathogen isolates: Taiwan 80-2 (vir) - time: 288 hai(3-replications); pathogen isolates: Hawaii 94-1 (avir) - time: 12 hai(3-replications); pathogen isolates: Hawaii 94-1 (avir) - time: 24 hai(3-replications); pathogen isolates: Hawaii 94-1 (avir) - time: 72 hai(3-replications); pathogen isolates: Hawaii 94-1 (avir) - time: 144 hai(3-replications); pathogen isolates: Hawaii 94-1 (avir) - time: 216 hai(3-replications); pathogen isolates: Hawaii 94-1 (avir) - time: 288 hai(3-replications)

Project description:Comparison of gene expression between the virulent Rickettsia rickettsii R strain and avirulent Rickettsia rickettsii Iowa. Keywords: virulent vs avirulent

Project description:Legionella pneumophila, the causative agent of the severe pneumonia Legionnaires’ disease, replicates in free-living protozoa as well as in macrophages within a distinct compartment, the Legionella-containing vacuole (LCV). switches between a replicative, non-virulent and a motile, virulent phase. The timing, spatial organization, cues and functional consequences of the biphasic life cycle are not well understood. In this study, we show on a single cell level that bacterial clusters within a distinct pathogen vacuole develop spatially organized and functionally distinct subpopulations over time. At late stages of infection (>42 h), individual motile (PflaA-GFP-positive) and virulent (PralF-GFP-positive) L. pneumophila emerged at the periphery of clusters comprising non-growing bacteria. Comparative proteomics of PflaA-GFP-positive and PflaA-GFP-negative L. pneumophila subpopulations revealed distinct proteomes with flagellar proteins or cell division proteins being exclusively produced by the former or the latter, respectively. Towards the end of an infection cycle (~48 h), PflaA-GFP-positive L. pneumophila preferentially escaped the LCV and the bursting host cell, and the motile subpopulation promoted spreading of L. pneumophila. The emergence of peripheral motile L. pneumophila, LCV escape, host cell lysis and spreading of the bacteria to the environment is controlled by the Lqs quorum sensing system. Thus, quorum sensing controls the emergence of a subpopulation of transmissive L. pneumophila at the LCV periphery, and phenotypic heterogeneity underlies the intracellular bi-phasic life cycle of L. pneumophila.

Project description:Comparison of gene expression between the virulent Rickettsia rickettsii R strain and avirulent Rickettsia rickettsii Iowa. Keywords: virulent vs avirulent Virulent Rickettsia rickettsii R strain in triplicate was compared to avirulent Rickettsia rickettsii Iowa in triplicate

Project description:Pathogen invasion in plants is associated with transcriptional reprogramming. Enigmatically, plants induce similar transcriptome responses upon infection by virulent or avirulent pathogens. This renders the importance of transcriptional reprogramming for immunity obscure. Here, using RNA-seq, we generate time-series transcriptome data coupled with genetic perturbations to reveal temporal dynamics upon infection by virulent or avirulent strains of a bacterial pathogen, Pseudomonas syringae, in Arabidopsis thaliana. Fast and sustained transcriptional reprogramming occurs upon infection with avirulent strains while virulent strain infection leads to a slower response with comparable gene expression patterns and magnitudes. Importantly, transcriptome analysis of resistant and susceptible mutants responding to avirulent strains links delayed transcriptional reprogramming to compromised immunity. Taken together, our results pinpoint the early critical time window of transcriptional reprogramming for establishing effective immunity against the bacterial pathogen.

Project description:To delineate epithelial subpopulations in mouse mammary tissue, hematopoietic and endothelial cells were depleted from freshly isolated cell suspensions derived from mammary glands using fluorescence-activated cell sorting. The resultant Lin- population was fractionated into four distinct subpopulations using antibodies against CD29, CD24 and CD61. Based on the immunohistochemical phenotype, and in vivo and in vitro functional assays, these subpopulations were identified as fibroblast-containing stromal (CD29loCD24-), mammary stem cell (MaSC)-enriched (CD29hiCD24+CD61+), luminal progenitor (CD29loCD24+CD61+), and mature luminal (CD29loCD24+CD61-) cell subpopulations. Microarray profiling was used to derive gene expression signatures of these 4 subpopulations. The four mammary cell subpopulations were found to have distinct gene expression profiles. Four mammary cell subpopulations from 3-5 pooled mouse tissues were analysed. MS is for the MaSC-enriched cell subpopulation. LP is for the Luminal Progenitor subpopulation. ML is for the Mature Luminal subpopulation.

Project description:Genome wide differential association of H3K4me3 in Human macrophages after infection with both virulent and avirulent strains of Mtb

Project description:E. histolytica of strains HM1:IMSS (virulent) and Rahman (avirulent) were examined for response to oxidative and nitrosative stress.