Project description:Peripheral Artery Disease (PAD) is a disease characterized by atherosclerosis of the arteries supplying the lower extremities. In PAD, atherosclerotic occlusions restrict the delivery of blood to the skeletal muscles of affected extremities. As a result, the muscles which are supplied by the affected arteries can experience ischemia/reperfusion (I/R) injuries. This can lead to an altered metabolomics profile, increased oxidative damage to those muscles, and the degeneration of myofibers. In our study, we modeled I/R injuries by culturing differentiated skeletal muscle derived cells (skMDCs), also known as myotubes, under cyclic conditions of hypoxia and hyperoxia. These conditions mimic those that PAD patient muscles experience. Our results show an altered transcriptomic profile in PAD patient derived myotubes and explore the contribution of I/R injuries to those transcriptomic changes.

Project description:We investigated the route of neurotrophic cue delivery to the nerves

Project description:We investigated the route of neurotrophic cue delivery to the nerves

Project description:Evaluate the therapeutic effects of different delivery route of MSC treantment in DNCB induced atopic dermatitis mice model.

Project description:Evaluate the therapeutic effects of different delivery route of MSC treantment in DNCB induced atopic dermatitis mice model.

Project description:Mouse blood transcriptome after infection with Influenza A virus (H1N1, PR/8/34, mouse-adapted) and Streptococcus pneumoniae (serotype 19F, strain BHN 100) Results: Differentially expressed genes were observed after single and co-infection Project: COST_mouse_2021

Project description:Mouse lung RNAseq after infection with Influenza A virus (H1N1, PR/8/34, mouse-adapted) and Streptococcus pneumoniae (serotype 19F, strain BHN 100) Results: Differentially expressed genes were observed after single and co-infection Project: COST_mouse_2021_lung

Project description:Aggregatibacter actinomycetemcomitans (Aa) is a Gram-negative bacterial pathogen associated with periodontitis and non-oral diseases like rheumatoid arthritis and Alzheimer´s disease. Aa isolates with the serotypes a, b and c are globally most prevalent. Importantly, isolates displaying these serotypes have different clinical presentations. While serotype b isolates are predominant in severe periodontitis, serotypes a and c are generally encountered in mild periodontitis or healthy individuals. It was so far not known how these differences are reflected in the overall secretion of virulence factors. Therefore, this study was aimed at a comparative analysis of exoproteomes from different clinical Aa isolates with serotypes a, b or c by mass spectrometry, and a subsequent correlation of the recorded exoproteome profiles with virulence. Overall, we identified 425 extracellular proteins. Significant differences in the exoproteome composition of isolates with different serotypes were observed in terms of protein identification and abundance. In particular, serotype a isolates presented more extracellular proteins than serotype b or c isolates. These differences are mirrored in their virulence in infection models based on human salivary gland epithelial cells and neutrophils. Remarkably, serotype a isolates displayed stronger adhesive capabilities and induced more lysis of epithelial cells and neutrophils than serotype b or c isolates. Conversely, serotype c isolates showed relatively low leukotoxicity, while provoking NETosis to similar extents as serotype a and b isolates. Altogether, we conclude that the differential virulence presentation by Aa isolates with the dominant serotypes a, b or c can be explained by their exoproteome heterogeneity.

Project description:Modified Vaccinia Ankara (MVA) was recently approved as a Smallpox vaccine. Transmission of Variola is by respiratory droplets, and MVA delivered by skin scarification (ss) protected mice far more effectively against lethal respiratory challenge with VACV than any other route of delivery, and at much lower doses. Comparisons of ss with intradermal, subcutaneous or intramuscular routes showed that MVAOVA ss-generated T cells were both more abundant and transcriptionally distinct. MVAOVA ss produced greater numbers of lung Ova-specific CD8+ TRM and was superior in protecting mice against lethal VACVOVA respiratory challenge. Nearly as many lung TRM were generated with MVAOVA ss compared to direct pulmonary immunization with MVAOVA, and both routes vaccination protected mice against lethal pulmonary challenge with VACVOVA. Strikingly, MVAOVA ss-generated effector T cells exhibited overlapping gene transcriptional profiles to those generated via direct pulmonary immunization. Overall, our data suggest that heterologous MVA vectors delivered via ss are uniquely well-suited as vaccine vectors for respiratory pathogens like COVID-19. In addition, MVA delivered via ss could represent a more effective dose-sparing smallpox vaccine.

Project description:Prolonged rupture of membranes (PROM) is thought to incur higher risk of neonatal infection, leading to expedited delivery and/or the use of empirical perinatal antibiotics. Here, we compared the transcriptional profile of neonatal cord blood between babies where rupture of membranes occurred greater than 24 hours before delivery (= PROM cases) and babies where rupture of membranes occurred less than 24 hours before delivery (= Control cases). On the basis that perinatal infection is more likely in births associated with PROM than those without, we tested the hypothesis that perinatal infection in a subset of births following PROM, exhibit immune responses evident in the neonatal cord blood transcriptome.