TY - JOUR A1 - Subbarayal, Prema A1 - Karunakaran, Karthika A1 - Winkler, Ann-Cathrin A1 - Rother, Marion A1 - Gonzalez, Erik A1 - Meyer, Thomas F. A1 - Rudel, Thomas T1 - EphrinA2 Receptor (EphA2) Is an Invasion and Intracellular Signaling Receptor for Chlamydia trachomatis JF - PLoS Pathogens N2 - The obligate intracellular bacterium Chlamydia trachomatis invades into host cells to replicate inside a membrane-bound vacuole called inclusion. Multiple different host proteins are recruited to the inclusion and are functionally modulated to support chlamydial development. Invaded and replicating Chlamydia induces a long-lasting activation of the PI3 kinase signaling pathway that is required for efficient replication. We identified the cell surface tyrosine kinase EphrinA2 receptor (EphA2) as a chlamydial adherence and invasion receptor that induces PI3 kinase (PI3K) activation, promoting chlamydial replication. Interfering with binding of C. trachomatis serovar L2 (Ctr) to EphA2, downregulation of EphA2 expression or inhibition of EphA2 activity significantly reduced Ctr infection. Ctr interacts with and activates EphA2 on the cell surface resulting in Ctr and receptor internalization. During chlamydial replication, EphA2 remains active accumulating around the inclusion and interacts with the p85 regulatory subunit of PI3K to support the activation of the PI3K/Akt signaling pathway that is required for normal chlamydial development. Overexpression of full length EphA2, but not the mutant form lacking the intracellular cytoplasmic domain, enhanced PI3K activation and Ctr infection. Despite the depletion of EphA2 from the cell surface, Ctr infection induces upregulation of EphA2 through the activation of the ERK pathway, which keeps the infected cell in an apoptosis-resistant state. The significance of EphA2 as an entry and intracellular signaling receptor was also observed with the urogenital C. trachomatis-serovar D. Our findings provide the first evidence for a host cell surface receptor that is exploited for invasion as well as for receptor-mediated intracellular signaling to facilitate chlamydial replication. In addition, the engagement of a cell surface receptor at the inclusion membrane is a new mechanism by which Chlamydia subverts the host cell and induces apoptosis resistance. KW - membrane proteins KW - chlamydia infection KW - chlamydia trachomatis KW - chlamydia KW - HeLa cells KW - apoptosis KW - host cells KW - membrane receptor signaling Y1 - 2015 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-125566 VL - 11 IS - 4 ER - TY - JOUR A1 - Siegl, Christine A1 - Prusty, Bhupesh K. A1 - Karunakaran, Karthika A1 - Wischhusen, Jörg A1 - Rudel, Thomas T1 - Tumor Suppressor p53 Alters Host Cell Metabolism to Limit Chlamydia trachomatis Infection JF - Cell Reports N2 - Obligate intracellular bacteria depend entirely on nutrients from the host cell for their reproduction. Here, we show that obligate intracellular Chlamydia downregulate the central tumor suppressor p53 in human cells. This reduction of p53 levels is mediated by the PI3K-Akt signaling pathway, activation of HDM2, and subsequent proteasomal degradation of p53. The stabilization of p53 in human cells severely impaired chlamydial development and caused the loss of infectious particle formation. DNA-damage-induced p53 interfered with chlamydial development through downregulation of the pentose phosphate pathway (PPP). Increased expression of the PPP key enzyme glucose-6-phosphate dehydrogenase rescued the inhibition of chlamydial growth induced by DNA damage or stabilized p53. Thus, downregulation of p53 is a key event in the chlamydial life cycle that reprograms the host cell to create a metabolic environment supportive of chlamydial growth. KW - chlamydia trachomatis KW - tumor Y1 - 2014 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-118200 SN - 2211-1247 VL - 9 IS - 3 ER - TY - THES A1 - Karunakaran, Karthika T1 - Mechanisms of apoptosis regulation in human cells infected with Simkania negevensis T1 - Mechanismen der Apoptoseregulation in Simkania negevensis infizierten Humanzellen N2 - Chlamydiales are obligate intracellular gram-negative bacteria that have gained high medical relevance. These important human pathogens cause diverse diseases including trachoma and wide spread sexually transmitted diseases. Chlamydia establishes membrane bound inclusions in the host cell and loots the host for nutritional requirements. Infections are usually recognized by the host immune system and eliminated systematically, by triggering apoptosis. However, the pathogen Chlamydia has evolved various strategies to prevent the detection as well as protect the invaded cell against apoptosis or any other form of cell death. The evolutionary conservation of cell death regulation has not been investigated in the order Chlamydiales, which also includes Chlamydia-like organisms with a broader host spectrum. The present study was aimed at investigating the apoptotic response of human cells infected with the Chlamydia-like organism Simkania negevensis (Sn). Simkania infected cells exhibited strong resistance to apoptosis induced by intrinsic stress or by the activation of cell death receptors. Apoptotic signaling was blocked upstream of mitochondria since Bax translocation, Bax and Bak oligomerisation and cytochrome c release were absent in these cells. Caspases were differentially regulated upon Sn infection. Caspase-3 and -9 were not activated upon Sn infection and apoptosis induction; whereas caspases-8 was activated in Sn infected cells even without apoptosis induction. This indicates that, Sn utilizes death receptor association independent caspase activation for thriving in the host environment. Infected cells turned on pro-survival pathways like cellular Inhibitor of Apoptosis Proteins (IAP-1/2 and XIAP) and the Akt/PI3K pathway. Sn infection also 20 activated the pro-survival transcription factor NF-кB. Blocking any of these survival pathways sensitized the infected host cell towards apoptosis induction, demonstrating their role in infection-induced apoptosis resistance. The NF-кB mutant cells also showed reduced infectivity of Sn, which indicated an essential role of NF-кB in Sn infection. It was interesting to observe that, Acanthamoeba castellanii, a natural host of Sn, survived maintaining its trophozoite forms after infection with Sn upon starvation. The metacaspases, responsible for encystment could be regulated by Sn upon infection. This suggests an early level of gene regulation indicating how the pathogen evolved its ability to inhibit apoptosis in higher organisms. The resistance to apoptosis pathways subverted in Sn-infected cells was similar but not identical to those modulated by Chlamydia. Together, the data supports the hypothesis of evolutionary conserved signaling pathways to apoptosis resistance as common denominators in the order Chlamydiales. N2 - Vertreter der Ordnung Chlamydiales sind obligat intrazelluläre gram-negative Bakterien mit einer zunehmenden medizinischen Relevanz. Diese Humanpathogene lösen verschiedene Krankheiten aus, unter anderem Blindheit und sexuell übertragbare Krankheiten. Chlamydia führt zur Ausbildung einer Membranumschlossenen Inklusion innerhalb der Wirtszelle und entzieht dem Wirt die nötigen Nährstoffe. Infektionen können vom Immunsystem des Wirts erkannt und systematisch mittels Apoptose bekämpft werden. Chlamydia hat jedoch verschiedene Strategien entwickelt um der Erkennung durch das Immunsystem zu entgehen und um ihre Wirtszelle vor dem Zelltod zu schützen. Ob die Fähigkeit den Zelltod der Wirtszelle zu regulieren evolutionär innerhalb der Ordnung der Chlamydiales, welche auch Chlamydia-ähnliche Organismen mit einem breiteren Wirtsspektrum beinhalten, konserviert ist wurde bislang noch nicht untersucht. In dieser Arbeit wurde das apoptotische Verhalten humaner mit dem Chlamydia-ähnlichen Organismus Simkania negevensis (Sn) infizierter Zellen untersucht. Mit Simkanien infizierte Zellen zeigen eine starke Apoptose-Resistenz, unabhängig ob diese über intrinsischen Stress oder durch die Aktivierung von Todesrezeptoren ausgelöst wurde. Die Apoptose-Signalkaskade wurde vor den Mitochondrien blockiert, da es weder zu einer Bax Translokation, Bax und Bak Oligomerisierung noch zur Cytochrom c Freisetzung in den infizierten Zellen kam. Auch Caspasen zeigten eine veränderte Regulation. Die Caspase-3 und -9 wurden während einer Sn-Infektion und Apoptose-Induktion nicht aktiviert. Die Caspase 8 jedoch ist während der Sn-Infektion unabhängig von einer Apoptose-Induktion aktiv. Diese Tatsache lässt vermuten, dass Sn sich eines von den Todesrezeptoren 22 unabhängigen Mechanismus der Caspaseaktivierung bedienen um in der Wirtzelle zu verbleiben. Infizierte Zellen zeigen eine Aktivierung verschiedener antiapoptotischer Signalwege wie der der Inhibitor of Apoptotis Proteins (IAP1/2 and XIAP)- und den Akt/PI3K Signalweg. Durch eine Sn-Infektion kommt es außerdem zur Aktivierung des Transkriptionsfaktors NF-kB. Wird einer dieser Überlebenssignalwege blockiert zeigen die infizierten Wirtszellen eine erhöhte Sensitivität gegenüber einer Apoptoseinduktion, was wiederum die zentrale Rolle der infektionsvermittelten Apoptoseresistenz aufzeigt. Eine Zelllinie mit mutiertem NF-kB zeigte eine verminderte Infektiosität von Sn, was die zentrale Rolle von NF-kB in der Sn-Infektion unterstreicht. Infektionsversuche mit Sn und dessen natürlichem Wirt Acanthamoeba castellanii zeigten, dass diese im Sn-infizierten Stadium die Aufrechterhaltung ihrer Trophozyten-Form nach Nährstoffmangel überlebten. Die Metacaspasen, welche für die Einkapselung verantwortlich sind konnten durch eine Sn-Infektion reguliert werden. Dies weist auf ein frühes Stadium der Genregulation hin und lässt vermuten wie die Pathogene die Fähigkeit zur Apoptose-Inhibition höherer Organismen erlangt haben könnten. Die durch eine Sn-Infektion vermittelte Resistenz der Wirtszelle gegenüber Apoptose-Signalwegen ist ähnlich, jedoch nicht identisch zu der durch Chlamydia vermittelten Resistenz. Diese Ergebnisse unterstützen die Hypothese eines evolutionär konservierten Signalwegs der Apoptoseresistenz als allgemeiner Nenner in der Ordnung der Chlamydiales. KW - Apoptosis KW - Simkania Negevensis KW - Apoptose KW - Simkania Negevensis KW - Apoptosis KW - Simkania Negevensis Y1 - 2012 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-72098 ER - TY - JOUR A1 - Karunakaran, Karthika A1 - Mehlitz, Adrian A1 - Rudel, Thomas T1 - Evolutionary conservation of infection-induced cell death inhibition among Chlamydiales N2 - Control of host cell death is of paramount importance for the survival and replication of obligate intracellular bacteria. Among these, human pathogenic Chlamydia induces the inhibition of apoptosis in a variety of different host cells by directly interfering with cell death signaling. However, the evolutionary conservation of cell death regulation has not been investigated in the order Chlamydiales, which also includes Chlamydia-like organisms with a broader host spectrum. Here, we investigated the apoptotic response of human cells infected with the Chlamydia-like organism Simkania negevensis (Sn). Simkania infected cells exhibited strong resistance to apoptosis induced by intrinsic stress or by the activation of cell death receptors. Apoptotic signaling was blocked upstream of mitochondria since Bax translocation, Bax and Bak oligomerisation and cytochrome c release were absent in these cells. Infected cells turned on pro-survival pathways like cellular Inhibitor of Apoptosis Protein 2 (cIAP-2) and the Akt/PI3K pathway. Blocking any of these inhibitory pathways sensitized infected host cell towards apoptosis induction, demonstrating their role in infection-induced apoptosis resistance. Our data support the hypothesis of evolutionary conserved signaling pathways to apoptosis resistance as common denominators in the order Chlamydiales. KW - Chlamydiales Y1 - 2011 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-68978 ER -