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Sand, Lehm und Aschen zur Bekämpfung von Vorrats- und Hygieneschädlingen werden seit Jahrhunderten eingesetzt. Der zunehmende Bedarf an umweltschonenden alternativen Schädlingsbekämpfungsmitteln führte zu einer Renaissance des Einsatzes inerter Stäube, insbesondere von amorphen Diatomeenerden. Bei diesen Stäuben handelt es sich um fossile Ablagerungen der Silikatskelette von Kieselalgen (Diatomeen). Der insektizide Wirkmechanismus von Diatomeenerden (DE) besteht hauptsächlich in der Physiosorption von Cuticulalipiden und damit einhergehender Zerstörung der vor Austrocknung schützenden Wachsschicht der Cuticula (Mewis & Ulrichs, 2001a). Bei höherer relativer Luftfeuchte kommt es jedoch zu einer Sättigung der DE mit Wasser und dadurch zu einer Herabsetzung der Lipidaufnahmefähigkeit, welche die Wirksamkeit von DE bestimmt. Um DE auch bei höheren relativen Luftfeuchten einsetzen zu können, werden sie nachträglich hydrophobisiert (Faulde & al., 2006) bzw. werden direkt hydrophobe, synthetische Kieselsäuren eingesetztoder DE in Kombination mit anderen natürlichen Insektiziden verwendet (Ulrichs & Mewis, 2000; Akbar & al., 2004). Eine zusätzliche Hydrophobisierung von DE ist jedoch mit zusätzlichen Kosten verbunden. Des Weiteren sind synthetische Kieselsäuren aufgrund der geringen Partikelgrößen und der schlechten elektrostatischen Aufladbarkeit alleine schwer applizierbar. In Kooperation mit der Bundesanstalt für Geowissenschaften und Rohstoffe wurde deshalb an der Humboldt-Universität zu Berlin nach alternativen natürlichen Substanzen gesucht, die ähnliche physiko-chemische Eigenschaften aufweisen wie Diatomeenerden. Gefunden wurde ein natürlich vorkommendes Schichtsilikat mit großer Oberfläche, welches in den folgenden Versuchen mit AL06 bezeichnet wurde. In den durchgeführten Versuchen wurden insektizide Eigenschaften von AL06 im Vergleich zu weiteren natürlichen und synthetischen Silikaten untersucht.
OXA-48 is the most common carbapenemase in Enterobacterales in Germany and one of the most frequent carbapenemases worldwide. Several reports have associated blaOXA–48 with a virulent host phenotype. To challenge this hypothesis, 35 OXA-48-producing clinical isolates of Escherichia coli (n = 15) and Klebsiella pneumoniae (n = 20) were studied in vitro, in vivo employing the Galleria mellonella infection model and by whole-genome sequencing. Clinical isolates belonged to 7 different sequence types (STs) in E. coli and 12 different STs in K. pneumoniae. In 26/35 isolates blaOXA–48 was located on a 63 kb IncL plasmid. Horizontal gene transfer (HGT) to E. coli J53 was high in isolates with the 63 kb IncL plasmid (transconjugation frequency: ∼103/donor) but low in isolates with non-IncL plasmids (<10–6/donor). Several clinical isolates were both highly cytotoxic against human cells and virulent in vivo. However, 63 kb IncL transconjugants generated from these highly virulent isolates were not more cytotoxic or virulent when compared to the recipient strain. Additionally, no genes associated with virulence were detected by in silico analysis of OXA-48 plasmids. The 63 kb plasmid was highly stable and did not impair growth or fitness in E. coli J53. In conclusion, OXA-48 clinical isolates in Germany are diverse but typically harbor the same 63 kb IncL plasmid which has been reported worldwide. We demonstrate that this 63 kb IncL plasmid has a low fitness burden, high plasmid stability and can be transferred by highly efficient HGT which is likely the cause of the rapid dissemination of OXA-48 rather than the expansion of a single clone or gain of virulence.
Activation of TRPC6 channels is essential for lung ischaemia–reperfusion induced oedema in mice
(2012)
Lung ischaemia–reperfusion-induced oedema (LIRE) is a life-threatening condition that causes pulmonary oedema induced by endothelial dysfunction. Here we show that lungs from mice lacking nicotinamide adenine dinucleotide phosphate (NADPH) oxidase (Nox2y/−) or the classical transient receptor potential channel 6 (TRPC6−/−) are protected from LIR-induced oedema (LIRE). Generation of chimeric mice by bone marrow cell transplantation and endothelial-specific Nox2 deletion showed that endothelial Nox2, but not leukocytic Nox2 or TRPC6, are responsible for LIRE. Lung endothelial cells from Nox2- or TRPC6-deficient mice showed attenuated ischaemia-induced Ca2+ influx, cellular shape changes and impaired barrier function. Production of reactive oxygen species was completely abolished in Nox2y/− cells. A novel mechanistic model comprising endothelial Nox2-derived production of superoxide, activation of phospholipase C-γ, inhibition of diacylglycerol (DAG) kinase, DAG-mediated activation of TRPC6 and ensuing LIRE is supported by pharmacological and molecular evidence. This mechanism highlights novel pharmacological targets for the treatment of LIRE.
OXA-48-like carbapenemases are among the most frequent carbapenemases in Gram-negative Enterobacterales worldwide with the highest prevalence in the Middle East, North Africa and Europe. Here, we investigated the so far uncharacterized carbapenemase OXA-484 from a clinical E. coli isolate belonging to the high-risk clone ST410 regarding antibiotic resistance pattern, horizontal gene transfer (HGT) and genetic support. OXA-484 differs by the amino acid substitution 214G compared to the most closely related variants OXA-181 (214R) and OXA-232 (214S). The blaOXA–484 was carried on a self-transmissible 51.5 kb IncX3 plasmid (pOXA-484) showing high sequence similarity with plasmids harboring blaOXA–181. Intraspecies and intergenus HGT of pOXA-484 to different recipients occurred at low frequencies of 1.4 × 10–7 to 2.1 × 10–6. OXA-484 increased MICs of temocillin and carbapenems similar to OXA-232 and OXA-244, but lower compared with OXA-48 and OXA-181. Hence, OXA-484 combines properties of OXA-181-like plasmid support and transferability as well as β-lactamase activity of OXA-232.