Project description:The success of Mycobacterium tuberculosis (Mtb) is largely due to its ability to withstand numerous stresses imposed by host immunity. Here, we present a data-driven model that captures these adaptive mechanisms and reveals the dynamic interplay of host-derived stresses and genome-encoded regulatory programs in Mtb. The model captures the genome-wide distribution of cis-acting gene regulatory elements and the conditional influences of transcription factors at those elements to elicit environment-specific responses. Analysis of transcriptional responses that may be essential for Mtb’s survival in acidic conditions identified regulatory control by the MtrAB two-component signal system. Using genome-wide transcriptomics as well as imaging studies, we have characterized the MtrAB circuit by tunable CRISPRi knockdown in both Mtb and the non-pathogenic organism, M. smegmatis (Msm). These experiments validated the essentiality of MtrA in Mtb, but not Msm. We identified that MtrA regulates multiple enzymes that cleave cell wall peptidoglycan and is required for efficient cell division. Moreover, our results suggest that peptidoglycan cleavage, regulated by MtrA, is required for Mtb to survive intracellular stress. Further, we present MtrA as an attractive drug target, as even weak repression of mtrA results in loss of Mtb viability and completely clears the bacteria with low-dose isoniazid or rifampicin treatment.

Project description:The success of Mycobacterium tuberculosis (Mtb) is largely due to its ability to withstand numerous stresses imposed by host immunity. Here, we present a data-driven model that captures these adaptive mechanisms and reveals the dynamic interplay of host-derived stresses and genome-encoded regulatory programs in Mtb. The model captures the genome-wide distribution of cis-acting gene regulatory elements and the conditional influences of transcription factors at those elements to elicit environment-specific responses. Analysis of transcriptional responses that may be essential for Mtb’s survival in acidic conditions identified regulatory control by the MtrAB two-component signal system. This data is a comparison of transcriptional differences (RNA-seq) between low pH (pH 5.6) and neutral pH (pH7) of Mtb

Project description:MtrA regulation of essential peptidoglycan cleavage in Mycobacterium tuberculosis during infection [pH]

Project description:MtrA regulation of essential peptidoglycan cleavage in Mycobacterium tuberculosis during infection [MtrA_OE_pH]

Project description:MtrA regulation of essential peptidoglycan cleavage in Mycobacterium tuberculosis during infection [mtrA_knockdown]

Project description:The developmental life cycle of Streptomyces species includes aerial hyphae formation and spore maturation, two distinct developmental processes that are controlled, respectively, by two families of developmental regulatory genes, bld and whi. In this study, we show that the response regulator MtrA (SCO3013) is critical for normal development of aerial hyphae in S. coelicolor and related species. ΔmtrA, a deletion mutant of the response regulator gene mtrA, exhibited the bald phenotype typical of bld mutants defective in aerial mycelium formation, with formation either much delayed or absent depending on the culture medium. Transcriptional analysis indicated that MtrA activates multiple genes involved in formation of aerial mycelium, including chp, rdl, and ram genes, as well as developmental regulatory genes of the bld and whi families. However, the major regulatory gene bldD showed enhanced expression in ΔmtrA, suggesting it is repressed by MtrA. EMSAs indicated that MtrA binds upstream of several genes with altered expression in ΔmtrA, including bldD and whiI, and sequences similar to the consensus binding sequence for MtrA of another actinomycete, Mycobacterium tuberculosis, were found in the bound sites. A loosely conserved recognition sequence containing two short, direct repeats was identified for MtrA of S. coelicolor and was validated using mutational analysis. MtrA homologues are widely distributed among Streptomyces species, and as with S. coelicolor, deletion of the mtrA homologues sve_2757 from S. venezuelae and sli_3357 from S. lividans resulted in conditional bald morphology. Our study suggests a critical and conserved role for MtrA in Streptomyces development.

Project description:We report the results of ChIP-Seq experiment investigating the MtrA TCS response regulator. The experiment utilised an in trans copy of mtrA with an N-terminal 3xFlag tag encoded on the plasmid pMS82 (containing a phiBT1 integration site). The experiment utilised beads associated with anti-flag antibodies, specific for the Flag tagged protein. We report important targets involved in cell division and salt stress with key findings supporting the hypothesis that MtrA is essential. Samples were taken over a time course of 10h, 12h, 14h, 16h, 18h and 20h.

Project description:Mycobacterium tuberculosis (Mtb), the cause of the human pulmonary disease tuberculosis (TB), contributes to approximately 1.5 million deaths every year. Prior work has established that lipids serve as the primary carbon and energy source for Mtb in vivo and fulfill major roles in Mtb physiology and pathogenesis. We conducted a high-throughput screen to identify novel inhibitors of Mtb survival in its host macrophage. One of the hit compounds identified in this screen, sAEL057, demonstrated highest activity on Mtb grown in conditions where cholesterol was the primary carbon source. Transcriptional and functional data indicate that sAEL057 limits Mtb’s access to iron by acting as an iron chelator. Furthermore, pharmacological and genetic inhibition of iron acquisition led to dysregulation of cholesterol catabolism, revealing a previously unappreciated linkage between these pathways. These results identify a vulnerability in Mtb’s metabolic programming and physiology that could be targeted for therapeutic purposes.

Project description:CD11b+ CD11c- cells were isolated by cell sorting from the spleens of NOD and NOD.Idd3 mice. Cells were then either unstimulated or stimulated with peptidoglycan (5ug/ml) for 4 hours at 37 degrees prior to RNA extraction. Peptidoglycan was chosen as a stimulus due to its know ability to stimulate CD11b+ cells through Toll-like receptor 2 and our previous data showing biological differences between NOD and NOD.Idd3-derived CD11b+CD11c- cells after stimulation with peptidoglycan. CD11b+ cells from NOD and NOD.Idd3 were either unstimulated or stimulated with peptidoglycan(PGN) for 4 hours at 37 degerees prior to RNA extraction.

Project description:CD11b+ CD11c- cells were isolated by cell sorting from the spleens of NOD and NOD.Idd3 mice. Cells were then either unstimulated or stimulated with peptidoglycan (5ug/ml) for 4 hours at 37 degrees prior to RNA extraction. Peptidoglycan was chosen as a stimulus due to its know ability to stimulate CD11b+ cells through Toll-like receptor 2 and our previous data showing biological differences between NOD and NOD.Idd3-derived CD11b+CD11c- cells after stimulation with peptidoglycan.