Project description:Mycobacterium tuberculosis (Mtb) has co-evolved with humans for thousands of years leading to variation in clinical virulence, transmissibility, and disease phenotypes. To identify bacterial contributors to this phenotypic diversity, we developed new RNA-seq and phylogenomic analysis tools to capture hundreds of Mtb isolate transcriptomes, link transcriptional variation to genetic variation, and find associations between variants and epidemiologic traits. Across 274 Mtb clinical isolates, we uncovered unexpected diversity in expression of virulence genes which could be linked to known and previously unrecognized regulators. Surprisingly, we found that many isolates harbor variants associated with decreased expression of EsxA (Esat6) and EsxB (Cfp10), which are virulence effectors, dominant T cell antigens, and immunodiagnostic targets. Across >55,000 isolates, these variants associate with increased transmissibility, especially in drug resistant Mtb strains. Our data suggest expression of key Mtb virulence genes is evolving across isolates in part to optimize fitness under drug pressure, with sobering implications for immunodiagnostics and next-generation vaccines.

Project description:Virulence effectors secreted by Mycobacterium tuberculosis (Mtb) help subvert host immune mechanisms and, therefore, are critical for establishing infection and pathogenesis. However, knowledge in terms of signaling mechanisms that modulate the secretion of virulence factors is sparse. We performed high-throughput secretome, phosphoproteome, and phospho-secretome analysis of Mtb. We combined the analysis with empirical validations to show regulation of mycobacterial secretion through protein phosphorylation. System level PPI network analysis superimposed with the secretome, phosphoproteome, and phospho-secretome profile revealed an intricate relationship between phosphorylation and secretion. At the core of the network was a key virulence factor CFP10. We identified PknA to be the kinase responsible for phosphorylating CFP10. Using genetic tools, we show that phosphomimetic mutation of CFP10 negatively regulates the secretion of virulence mediator ESAT6. Significantly, the dynamics of CFP10 phosphorylation strongly influenced bacterial virulence and survival within macrophages and mice. Together, the results show that the dynamic phosphorylation status of the secretory protein CFP10 regulates the secretion of virulence factors and impacts virulence.

Project description:Mycobacterium tuberculosis (Mtb) depends on protein secretion systems for intracellular survival and virulence. The major virulence determinant and ESX-1 dependent effector protein EsxA causes tissue damage and necrosis which promotes spread and dissemination of the bacterium. We developed a fibroblast survival assay (FSA) that exploits this phenotype by selecting for molecules that protect host cells from Mtb-induced lysis. Hit compounds identified in this high-throughput screen blocked the secretion of EsxA thus promoting phagosome maturation which led to substantially reduced bacterial burden in activated macrophages. Target identification studies performed on these drugs led to discovery of a benzothiophene containing histidine kinase inhibitor and a benzyloxybenzylidine hydrazine compound affecting mycobacterial metal ion homeostasis which enabled us to reveal zinc stress as a signal for EsxA secretion. Collectively, this novel drug screening approach can help to tackle the mounting problem of antibiotic-resistant mycobacteria by largely extending the target spectrum of small molecule libraries.

Project description:During our efforts to isolate potantial binding partners of Esat6, we isolated few peptides rich in phenylalanine residues that strongly interacted with Esat6. All peptides were less than fifty amino acids in length, One of them, Hcl1, when expressed in mycobacteria showed significant retardation in growth and survival within macrophages. Microarray analysis showed that Hcl1 affects a host of genes and cellular pathways. RNA was isolated from exponentially growing mycobacteria containing either plasmid vector pVV16 encoding peptide or vector pVV16 alone. Comparisons were made between Experimental (Mtb/Hcl1) and control (Mtb/pVV16) samples by extracting raw intensity values from multiple arrays.

Project description:The diagnosis of pediatric tuberculosis (TB) poses a challenge for clinical teams worldwide. TB-mediated changes in the expression of host genes in the peripheral blood can serve as diagnostic biomarkers and can provide better insights into the host immune mechanisms of childhood TB. Peripheral blood mononuclear cells (PBMCs) from children (n=102) with microbiologically confirmed TB disease, ΤΒ infection (ΤΒΙ), pneumonia, and healthy controls (HC) were stimulated with either the Purified Protein Derivative (PPD) or the Early Secretory Antigen 6kDa-Culture Filtrate Protein 10 (ESAT6-CFP10) complex of Mycobacterium tuberculosis (Mtb). RNA was extracted and quantified using gene expression microarrays. Differential expression analysis was performed comparing microbiologically confirmed TB to the other diagnostic groups for the stimulated and unstimulated samples. Using variable selection, we identified sparse diagnostic gene signatures; one gene (PID1) was able to distinguish TB from pneumonia after ESAT6-CFP10 stimulation with an AUC of 100% in the test set, while a combination of two genes (STAT1 and IFI44) achieved an AUC of 91.7% (CI95% 75.0%-100%) in the test set after PPD stimulation. The number of significantly differentially expressed (SDE) genes was higher when contrasting TB to pneumonia or HC in stimulated samples, compared to unstimulated ones, leading to a larger pool of candidate diagnostic biomarkers. Our approach provides enlightened aspects of peripheral TB-specific responses and can form the basis for a point of care test meeting the World Health Organization (WHO) Target Product Profile (TPP) for pediatric TB.

Project description:The adaptation of fungal pathogens to the host environment via large-scale genomic changes is a poorly characterized phenomenon. We recently discovered clinical strains of Cryptococcus neoformans, the leading cause of fungal meningoencephalitis in HIV/AIDS patients, which are disomic for chromosome 13. In the current study, we examined the relationship between disomy, expression of the virulence factor melanin and virulence in a mouse model of cryptococcosis. We found that melanin production was correlated with monosomy at chromosome 13, and that disomic variants were less melanized and attenuated for virulence in mice. Changes in the copy number of other chromosomes were also detected in strains showing variation in melanin formation after growth in culture and after passage through mice. A survey of environmental and clinical isolates maintained in culture revealed few occurrences of disomic chromosomes. However, an examination of isolates that were freshly collected from the cerebral spinal fluid of AIDS patients and minimally cultured provided evidence for mixed infections and copy number variation. Overall, these results suggest that the genome of C. neoformans exhibits a greater degree of plasticity than previously appreciated. Importantly, genome variation is associated with virulence factor expression and disease severity, and its occurrence in isolates from AIDS patients suggests that it may have clinical relevance.

Project description:The adaptation of fungal pathogens to the host environment via large-scale genomic changes is a poorly characterized phenomenon. We recently discovered clinical strains of Cryptococcus neoformans, the leading cause of fungal meningoencephalitis in HIV/AIDS patients, which are disomic for chromosome 13. In the current study, we examined the relationship between disomy, expression of the virulence factor melanin and virulence in a mouse model of cryptococcosis. We found that melanin production was correlated with monosomy at chromosome 13, and that disomic variants were less melanized and attenuated for virulence in mice. Changes in the copy number of other chromosomes were also detected in strains showing variation in melanin formation after growth in culture and after passage through mice. A survey of environmental and clinical isolates maintained in culture revealed few occurrences of disomic chromosomes. However, an examination of isolates that were freshly collected from the cerebral spinal fluid of AIDS patients and minimally cultured provided evidence for mixed infections and copy number variation. Overall, these results suggest that the genome of C. neoformans exhibits a greater degree of plasticity than previously appreciated. Importantly, genome variation is associated with virulence factor expression and disease severity, and its occurrence in isolates from AIDS patients suggests that it may have clinical relevance.

Project description:The adaptation of fungal pathogens to the host environment via large-scale genomic changes is a poorly characterized phenomenon. We recently discovered clinical strains of Cryptococcus neoformans, the leading cause of fungal meningoencephalitis in HIV/AIDS patients, which are disomic for chromosome 13. In the current study, we examined the relationship between disomy, expression of the virulence factor melanin and virulence in a mouse model of cryptococcosis. We found that melanin production was correlated with monosomy at chromosome 13, and that disomic variants were less melanized and attenuated for virulence in mice. Changes in the copy number of other chromosomes were also detected in strains showing variation in melanin formation after growth in culture and after passage through mice. A survey of environmental and clinical isolates maintained in culture revealed few occurrences of disomic chromosomes. However, an examination of isolates that were freshly collected from the cerebral spinal fluid of AIDS patients and minimally cultured provided evidence for mixed infections and copy number variation. Overall, these results suggest that the genome of C. neoformans exhibits a greater degree of plasticity than previously appreciated. Importantly, genome variation is associated with virulence factor expression and disease severity, and its occurrence in isolates from AIDS patients suggests that it may have clinical relevance. Genome comparison of CBS7779 black and white strains vs standard strain H99

Project description:The adaptation of fungal pathogens to the host environment via large-scale genomic changes is a poorly characterized phenomenon. We recently discovered clinical strains of Cryptococcus neoformans, the leading cause of fungal meningoencephalitis in HIV/AIDS patients, which are disomic for chromosome 13. In the current study, we examined the relationship between disomy, expression of the virulence factor melanin and virulence in a mouse model of cryptococcosis. We found that melanin production was correlated with monosomy at chromosome 13, and that disomic variants were less melanized and attenuated for virulence in mice. Changes in the copy number of other chromosomes were also detected in strains showing variation in melanin formation after growth in culture and after passage through mice. A survey of environmental and clinical isolates maintained in culture revealed few occurrences of disomic chromosomes. However, an examination of isolates that were freshly collected from the cerebral spinal fluid of AIDS patients and minimally cultured provided evidence for mixed infections and copy number variation. Overall, these results suggest that the genome of C. neoformans exhibits a greater degree of plasticity than previously appreciated. Importantly, genome variation is associated with virulence factor expression and disease severity, and its occurrence in isolates from AIDS patients suggests that it may have clinical relevance. Genome comparison of clinal and environmental strains vs standard strain H99

Project description:Phenotypic diversity in bacteria often results from adaptation to changing environmental conditions and is exemplified by variable colony morphotypes within the Burkholderia. Discrete genomic changes and modulation in gene expression have previously been reported in Burkholderia pseudomallei undergoing adaptation. However, loss of a complete replicon (the pC3 virulence megaplasmid) was observed amongst adapted colony morphotype variants of Burkholderia cepacia complex (Bcc) species, affecting their production of virulence factors. We report that variants arising in Burkholderia ambifaria clinical isolates - with affected phenotypes - have retained pC3, suggesting that an alternative phase variation mechanism could occur in B. ambifaria. Proteomic and phenotypic characterisation showed that morphotype variants of B. ambifaria strains CEP0996 (pC3-null) and HSJ1 (pC3-positive) share similarities in phenotypes controlled by the Cep quorum sensing system. Thus, we determined the role of QS in B. ambifaria HSJ1 phase variation and confirmed that the main QS system Cep is important for the emergence of variants. As DNA methylation is one of the main epigenetic factors studied in bacterial phase variation and regulates some Burkholderia cenocepacia virulence factors, we hypothesized that B. ambifaria HSJ1 phase variation could also be regulated by adenosine DNA methylation. By deleting the three putative adenosine DNA methyltransferases, we showed that an orphan type II DNA methyltransferase prevents the emergence of phase variants. This is the first study to report quorum sensing and adenosine DNA methylation as two antagonist systems independently controlling phase variation.