TY - JOUR A1 - Behera, Ananyaashree A1 - Jain, Preeti A1 - Ganguli, Geetanjali A1 - Biswas, Mainak A1 - Padhi, Avinash A1 - Pattanaik, Kali Prasad A1 - Nayak, Barsa A1 - Ergün, Süleyman A1 - Hagens, Kristine A1 - Redinger, Natalja A1 - Saqib, Mohd A1 - Mishra, Bibhuti B. A1 - Schaible, Ulrich E. A1 - Karnati, Srikanth A1 - Sonawane, Avinash T1 - Mycobacterium tuberculosis acetyltransferase suppresses oxidative stress by inducing peroxisome formation in macrophages JF - International Journal of Molecular Sciences N2 - Mycobacterium tuberculosis (Mtb) inhibits host oxidative stress responses facilitating its survival in macrophages; however, the underlying molecular mechanisms are poorly understood. Here, we identified a Mtb acetyltransferase (Rv3034c) as a novel counter actor of macrophage oxidative stress responses by inducing peroxisome formation. An inducible Rv3034c deletion mutant of Mtb failed to induce peroxisome biogenesis, expression of the peroxisomal β-oxidation pathway intermediates (ACOX1, ACAA1, MFP2) in macrophages, resulting in reduced intracellular survival compared to the parental strain. This reduced virulence phenotype was rescued by repletion of Rv3034c. Peroxisome induction depended on the interaction between Rv3034c and the macrophage mannose receptor (MR). Interaction between Rv3034c and MR induced expression of the peroxisomal biogenesis proteins PEX5p, PEX13p, PEX14p, PEX11β, PEX19p, the peroxisomal membrane lipid transporter ABCD3, and catalase. Expression of PEX14p and ABCD3 was also enhanced in lungs from Mtb aerosol-infected mice. This is the first report that peroxisome-mediated control of ROS balance is essential for innate immune responses to Mtb but can be counteracted by the mycobacterial acetyltransferase Rv3034c. Thus, peroxisomes represent interesting targets for host-directed therapeutics to tuberculosis. KW - peroxisome KW - Rv3034c KW - acetyltransferase KW - macrophages KW - oxidative stress KW - Mycobacterium tuberculosis Y1 - 2022 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-284080 SN - 1422-0067 VL - 23 IS - 5 ER - TY - THES A1 - Narkhede, Yogesh T1 - In silico structure-based optimisation of pyrrolidine carboxamides as Mycobacterium tuberculosis enoyl-ACP reductase inhibitors T1 - In silico Struktur-basierte Optimierung von Pyrrolidin-Carbonsäureamiden als Mycobacterium tuberculosis Enoyl-ACP-Reduktase-Inhibitoren N2 - The high infection rates and recent emergence of extremely drug resistant forms of Mycobacterium tuberculosis pose a significant challenge for global health. The NADH- dependent enoyl-ACP-reductase InhA of the type II mycobacterial fatty acid biosynthesis pathway is a well-validated target for inhibiting mycobacterial growth. InhA has been shown to be inhibited by a variety of compound series. Prominent classes of InhA inhibitors from literature include diaryl ethers, pyrrolidine carboxamides and arylamides which can be subjected to further development. Despite the progress in this area, very few compounds are in clinical development phase. The present work involves a detailed computational investigation of the binding modes and structure-based optimisation of pyrrolidine carboxamides as InhA inhibitors. With substituents of widely varying bulkiness, the pyrrolidine carboxamide dataset presented a challenge for prediction of binding mode as well as affinity. Using advanced docking protocols and in-house developed pose selection procedures, the binding modes of 44 compounds were predicted. The poses from docking were used in short molecular dynamics (MD) simulations to ascertain the dominant binding conformations for the bulkier members of the series. Subsequently, an activity-based classification strategy could be developed to circumvent the affinity prediction problems observed with this dataset. The prominent motions of the bound ligand and the active site residues were then ascertained using Essential Dynamics (ED). The information from ED and literature was subsequently used to design a total of 20 compounds that were subjected to extensive in-silico evaluations. Finally, the molecular determinants of rapid-reversible binding of pyrrolidine carboxamides were investigated using long MD simulations. N2 - Hohe Infektionsraten und das Auftreten von multiresistenten Formen von Mycobacterium tuberculosis stellen eine große Herausforderung f ̈ ur das globale Gesundsheitswesen dar. Die NADH-abh ̈angige Enoyl-ACP-Reduktase des mykobakteriellen Fetts ̈aure-Biosynthesewegs II, InhA, ist ein gut validiertes Target zur Hemmung des mykobakteriellen Wachstums. Es wurde gezeigt, dass InhA durch eine Vielzahl von unterschiedlichen Verbindungs- klassen gehemmt wird. Zu den bekanntesten Klassen von InhA-Inhibitoren aus der Literatur geh ̈ oren Diphenylether, Pyrrolidincarboxamide und Arylamide, die zur weiteren Entwicklung verwendet werden k ̈onnen. Trotz der Fortschritte in diesem Bereich sind sehr wenige Verbindungen in einer klinischen Entwicklungsphase. Die vorliegende Arbeit beinhaltet eine detaillierte computergest ̈ utzte Untersuchung der Bindungsmodi und die strukturbasierte Optimierung von Pyrrolidincarboxamiden als InhA-Inhibitoren. Aufgrund von Substituenten mit stark variierendem Raumanspruch stellt der Pyrrolidin- carboxamid-Datensatz eine Herausforderung f ̈ ur die Vorhersage von Bindungsmodi und Affinitit ̈aten dar. Mit aufw ̈andigen Docking-Protokollen und speziell zu diesem Zweck entwickelten Posen-Auswahlverfahren wurden die Bindungsmodi f ̈ ur 44 Verbindungen vorhergesagt. Die Posen des Dockings wurden in kurzen Molekulardynamik (MD) Sim- ulationen verwendet, um die bevorzugten Bindungskonformationen f ̈ ur die r ̈ aumlich anspruchsvollen Vertreter des Datensatzes zu ermitteln. Anschließend konnte eine akt- ivit ̈atsbasierte Klassifizierungsstrategie entwickelt werden, um die in diesem Datensatz beobachteten Probleme in der Affinit ̈ atsvorhersage zu umgehen. Die wesentlichen Bewe- gungen des gebundenen Liganden und der Aminos ̈auren der Bindetasche wurden daraufhin mit Essential Dynamics (ED) ermittelt. Informationen aus der ED-Analyse und der Literatur wurden anschließend verwendet, um insgesamt 20 Verbindungen zu entwerfen, die umfangreichen in-silico-Bewertungen unterzogen wurden. Schließlich wurden die molekularen Determinanten der schnell-reversiblen Bindung von Pyrrolidincarboxamiden unter Verwendung von langen MD Simulationen untersucht. KW - Tuberkelbakterium KW - Enoyl-acyl-carrier-protein-Reductase KW - Pyrrolidinderivate KW - Arzneimitteldesign KW - Computational drug design KW - Mycobacterium tuberculosis InhA KW - Pyrrolidine carboxamides KW - Mycobacterium tuberculosis KW - Structure-based KW - enoyl ACP reductase KW - pyrrolidine carboxamides Y1 - 2018 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-152468 ER - TY - JOUR A1 - Herweg, Jo-Ana A1 - Hansmeier, Nicole A1 - Otto, Andreas A1 - Geffken, Anna C. A1 - Subbarayal, Prema A1 - Prusty, Bhupesh K. A1 - Becher, Dörte A1 - Hensel, Michael A1 - Schaible, Ulrich E. A1 - Rudel, Thomas A1 - Hilbi, Hubert T1 - Purification and proteomics of pathogen-modified vacuoles and membranes JF - Frontiers in Cellular and Infection Microbiology N2 - Certain pathogenic bacteria adopt an intracellular lifestyle and proliferate in eukaryotic host cells. The intracellular niche protects the bacteria from cellular and humoral components of the mammalian immune system, and at the same time, allows the bacteria to gain access to otherwise restricted nutrient sources. Yet, intracellular protection and access to nutrients comes with a price, i.e., the bacteria need to overcome cell-autonomous defense mechanisms, such as the bactericidal endocytic pathway. While a few bacteria rupture the early phagosome and escape into the host cytoplasm, most intracellular pathogens form a distinct, degradation-resistant and replication-permissive membranous compartment. Intracellular bacteria that form unique pathogen vacuoles include Legionella, Mycobacterium, Chlamydia, Simkania, and Salmonella species. In order to understand the formation of these pathogen niches on a global scale and in a comprehensive and quantitative manner, an inventory of compartment-associated host factors is required. To this end, the intact pathogen compartments need to be isolated, purified and biochemically characterized. Here, we review recent progress on the isolation and purification of pathogen-modified vacuoles and membranes, as well as their proteomic characterization by mass spectrometry and different validation approaches. These studies provide the basis for further investigations on the specific mechanisms of pathogen-driven compartment formation. KW - spectrometry-based proteomics KW - Mycobacterium tuberculosis KW - Chlamydia KW - Salmonella KW - bacterium Legionella pneumophila KW - endocytic multivesicular bodies KW - phagosome maturation arrest KW - III secretion system KW - endoplasmic reticulum KW - Chlamydia trachomatis KW - Simkania negevensis KW - intracellular bacteria KW - host pathogen interactions KW - immuno-magnetic purification KW - Legionella KW - Mycobacterium KW - Simkania KW - pathogen vacuole Y1 - 2015 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-151823 VL - 5 IS - 48 ER - TY - JOUR A1 - Lutz, Manfred B. A1 - Heuer, Marion A1 - Behlich, Anna-Sophie A1 - Lee, Ji-Sook A1 - Ribechini, Eliana A1 - Jo, Eun-Kyeong T1 - The 30-kDa and 38-kDa antigens from Mycobacterium tuberculosis induce partial maturation of human dendritic cells shifting CD4+ T cell responses towards IL-4 production JF - BMC Immunology N2 - Background Mycobacterium tuberculosis (Mtb) infections are still a major cause of death among all infectious diseases. Although 99% of individuals infected with Mtb develop a CD4+ Th1 and CD8+ T cell mediated immunity as measured by tuberculin skin test, this results only in partial protection and Mtb vaccines are not effective. Deviation of immune responses by pathogens towards a Th2 profile is a common mechanism of immune evasion, typically leading to the persistence of the microbes. Results Here we tested the stimulatory capacity of selective Mtb antigens on human monocyte-derived dendritic cell (DC) maturation and cytokine production. DC maturation markers CD80, CD86 and CD83 were readily upregulated by H37Ra- and H37Rv-associated antigens, the 30-kDa (from Ag85 B complex) and 38-KDa Mtb antigens only partially induced these markers. All Mtb antigens induced variable levels of IL-6 and low levels of IL-10, there was no release of IL-12p70 detectable. Substantial IL-12p40 production was restricted to LPS or H37Ra and H37Rv preparations. Although the proliferation levels of primary T cell responses were comparable using all the differentially stimulated DC, the 30-kDa and 38-kDa antigens showed a bias towards IL-4 secretion of polarized CD4+ T cells after secondary stimulation as compared to H37Ra and H37Rv preparations. Conclusion Together our data indicate that 30-kDa and 38-kDa Mtb antigens induced only partial DC maturation shifting immune responses towards a Th2 profile. KW - Dendritic cells KW - Mycobacterium tuberculosis KW - T helper cell responses Y1 - 2013 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-96871 UR - http://www.biomedcentral.com/1471-2172/14/48 ER -