Kirsten Lehmann scite author profile

We extend our analysis of the transcriptional reorganization that occurs when the native tobacco, Nicotiana attenuata, is attacked by Manduca sexta larvae by cloning 115 transcripts by mRNA differential display reverse transcription-polymerase chain reaction and subtractive hybridization using magnetic beads (SHMB) from the M. sexta-responsive transcriptome. These transcripts were spotted as cDNA with eight others, previously confirmed to be differentially regulated by northern analysis on glass slide microarrays, and hybridized with Cy3- and Cy5-labeled probes derived from plants after 2, 6, 12, and 24 h of continuous attack. Microarray analysis proved to be a powerful means of verifying differential expression; 73 of the cloned genes (63%) were differentially regulated (in equal proportions from differential display reverse transcription-polymerase chain reaction and SHMB procedures), and of these, 24 (32%) had similarity to known genes or putative proteins (more from SHMB). The analysis provided insights into the signaling and transcriptional basis of direct and indirect defenses used against herbivores, suggesting simultaneous activation of salicylic acid-, ethylene-, cytokinin-, WRKY-, MYB-, and oxylipin-signaling pathways and implicating terpenoid-, pathogen-, and cell wall-related transcripts in defense responses. These defense responses require resources that could be made available by decreases in four photosynthetic-related transcripts, increases in transcripts associated with protein and nucleotide turnover, and increases in transcripts associated with carbohydrate metabolism. This putative up-regulation of defense-associated and down-regulation of growth-associated transcripts occur against a backdrop of altered transcripts for RNA-binding proteins, putative ATP/ADP translocators, chaperonins, histones, and water channel proteins, responses consistent with a major metabolic reconfiguration that underscores the complexity of response to herbivore attack.

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Beta-defensin-2 Genomic Copy Number Variation and Chronic Periodontitis

Jaradat

Hoder-Przyrembel

Cubillos

et al. 2013

J Dent Res

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Chronic periodontitis (ChP) is a multifactorial disease influenced by microbial and host genetic variability; however, the role of beta-defensin-2 genomic (DEFB4) copy number (CN) variation (V) in ChP remains unknown. The association of the occurrence and severity of ChP and DEFB4 CNV was analyzed. Our study included 227 unrelated Caucasians, that is, 136 ChP patients (combined ChP) and 91 control individuals. The combined ChP group was subdivided into the severe ChP and slight-to-moderate ChP subgroups. To determine DEFB4 CNV, we isolated genomic DNA samples and analyzed them by relative quantitation using the comparative CT method. The serum beta-defensin-2 (hBD-2) level was determined via ELISA. The distribution pattern and mean DEFB4 CN did not differ significantly in combined ChP cases vs. the controls; however, the mean DEFB4 CN in the severe ChP group differed significantly from those for the control and slight-to-moderate ChP groups. Low DEFB4 CN increased the risk of severe ChP by about 3-fold. DEFB4 CN was inversely associated with average attachment loss. Mean serum hBD-2 levels were highest in the controls, followed by the slight-to-moderate ChP group and the severe ChP group. The results suggested an association between decreased DEFB4 CN and serum hBD-2 levels and periodontitis severity.

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Electronic Cigarettes in Germany: Patterns of Use and Perceived Health Improvement

Lehmann

Kühn²,

Reimer³

2017

Eur Addict Res

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Aims: The aim of the study was to characterize e-cigarette users in terms of their consumption patterns, motives, and the perceived health benefits they experience from using e-cigarettes. Design: The study was a cross-sectional online survey in 2015. A total of 3,320 German e-cigarette users were enrolled. A total of 91.5% were former tobacco smokers, 7.5% used both e-cigarettes and tobacco products, 1.0% were never-smokers. Results: No differences were found between ex-smokers and dual users with regard to sociodemographic and smoking history (mean age 40.8 years, 81% men, 45% with a high school degree or above). Both groups had smoked 26.4 tobacco cigarettes a day for 22 years, had unsuccessfully tried to quit smoking using various other nicotine replacement products, and had used e-cigarettes for an average of 2 years. Ex-smokers consumed lower nicotine strength and more liquid per month, experienced more positive health changes, and had made vaping their hobby. Never-smokers were about 5 years younger, used liquid without nicotine and without tobacco flavor, and had no physical dependency. Conclusions: E-cigarettes were primarily used as an alternative to smoking and a substitute for nicotine. More dual users than ex-smokers used e-cigarettes in places where smoking is forbidden. Positive health changes were more pronounced in ex-smokers than dual users.

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PI3Kγ controls oxidative bursts in neutrophils via interactions with PKCα and p47phox

Lehmann

Müller

Schlott

et al. 2009

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Neutrophils release reactive oxygen species (ROS) as part of the innate inflammatory immune response. Phosphoinositide 3-kinase gamma (PI3Kgamma), which is induced by the bacterial peptide N-formylmethionyl-leucyl-phenylalanine (fMLP), has been identified as an essential intracellular mediator of ROS production. However, the complex signalling reactions that link PI3Kgamma with ROS synthesis by NADPH oxidase have not yet been described in detail. We found that activation of neutrophils by fMLP triggers the association of PI3Kgamma with protein kinase Calpha (PKCalpha). Specific inhibition of PI3Kgamma suppresses fMLP-mediated activation of PKCalpha activity and ROS production, suggesting that the protein kinase activity of PI3Kgamma is involved. Our data suggest that the direct interaction of PI3Kgamma with PKCalpha forms a discrete regulatory module of fMLP-dependent ROS production in neutrophils.

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Lysophosphatidic acid inhibits the cytotoxic activity of NK cells: involvement of Gs protein-mediated signaling

Lagadari

Truta-Feles

Lehmann

et al. 2009

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Lysophosphatidic acid (LPA) is an activator and chemoattractant of NK cells, which are critical members of the immunological tumor surveillance machinery. Here, we analyzed the influence of LPA on the interaction of human NK cells with tumor cells such as the Burkitt lymphoma cell line Raji and the human melanoma cell line A2058. Thereby we found that LPA inhibits the release of perforin and cytotoxic activity of NK cells. Analysis of signal transduction showed that LPA induces common signaling pathways of chemotaxins such as G(i) protein-dependent actin re-organization, activation of the mitogen-activated protein kinase p38 as well as phosphatidylinositol-3-kinase-dependent signal molecules [protein kinase B/Akt and glycogen synthase kinase-3beta (GSK-3beta)]. In contrast to most chemotaxins, LPA is also able to activate G(s)-dependent signaling molecules. This signaling cascade involves the LPA receptor type-2, increase cAMP levels and protein kinase A (PKA) activation, which in turn are responsible for the modulatory effect of LPA on NK cell-mediated cytotoxicity. Moreover, blocking the regulatory subunits of PKA I abrogates the inhibitory effect of LPA, whereas the catalytic subunits are not involved. Based on our data, one can assume that LPA contributes to the tumor escape from the immunological surveillance machinery.

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Kirsten Lehmann

Molecular Interactions between the Specialist HerbivoreManduca sexta (Lepidoptera, Sphingidae) and Its Natural Host Nicotiana attenuata: V. Microarray Analysis and Further Characterization of Large-Scale Changes in Herbivore-Induced mRNAs

Beta-defensin-2 Genomic Copy Number Variation and Chronic Periodontitis

Electronic Cigarettes in Germany: Patterns of Use and Perceived Health Improvement

PI3Kγ controls oxidative bursts in neutrophils via interactions with PKCα and p47phox

Lysophosphatidic acid inhibits the cytotoxic activity of NK cells: involvement of Gs protein-mediated signaling

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