Your search keyword '"Kylies, Dominik"' showing total 3 results

1. Optimized protocol for the multiomics processing of cryopreserved human kidney tissue

Author

Gies, Sydney E., Hänzelmann, Sonja, Kylies, Dominik, Lassé, Moritz, Lagies, Simon, Hausmann, Fabian, Khatri, Robin, Zolotarev, Nikolay, Poets, Manuela, Zhang, Tianran, Demir, Fatih, Billing, Anja M., Quaas, Josephine, Meister, Elisabeth, Engesser, Jonas, Mühlig, Anne K., Lu, Shun, Liu, Shuya, Chilla, Silvia, Edenhofer, Ilka, Czogalla, Jan, Braun, Fabian, Kammerer, Bernd, Puelles, Victor G., Bonn, Stefan, Rinschen, Markus M., Lindenmeyer, Maja, and Huber, Tobias B.

Published

2024

2. Expansion-enhanced super-resolution radial fluctuations enable nanoscale molecular profiling of pathology specimens

Author

Kylies, Dominik, Zimmermann, Marina, Haas, Fabian, Schwerk, Maria, Kuehl, Malte, Brehler, Michael, Czogalla, Jan, Hernandez, Lola C., Konczalla, Leonie, Okabayashi, Yusuke, Menzel, Julia, Edenhofer, Ilka, Mezher, Sam, Aypek, Hande, Dumoulin, Bernhard, Wu, Hui, Hofmann, Smilla, Kretz, Oliver, Wanner, Nicola, Tomas, Nicola M., Krasemann, Susanne, Glatzel, Markus, Kuppe, Christoph, Kramann, Rafael, Banjanin, Bella, Schneider, Rebekka K., Urbschat, Christopher, Arck, Petra, Gagliani, Nicola, van Zandvoort, Marc, Wiech, Thorsten, Grahammer, Florian, Sáez, Pablo J., Wong, Milagros N., Bonn, Stefan, Huber, Tobias B., and Puelles, Victor G.

Abstract

Expansion microscopy physically enlarges biological specimens to achieve nanoscale resolution using diffraction-limited microscopy systems1. However, optimal performance is usually reached using laser-based systems (for example, confocal microscopy), restricting its broad applicability in clinical pathology, as most centres have access only to light-emitting diode (LED)-based widefield systems. As a possible alternative, a computational method for image resolution enhancement, namely, super-resolution radial fluctuations (SRRF)2,3, has recently been developed. However, this method has not been explored in pathology specimens to date, because on its own, it does not achieve sufficient resolution for routine clinical use. Here, we report expansion-enhanced super-resolution radial fluctuations (ExSRRF), a simple, robust, scalable and accessible workflow that provides a resolution of up to 25 nm using LED-based widefield microscopy. ExSRRF enables molecular profiling of subcellular structures from archival formalin-fixed paraffin-embedded tissues in complex clinical and experimental specimens, including ischaemic, degenerative, neoplastic, genetic and immune-mediated disorders. Furthermore, as examples of its potential application to experimental and clinical pathology, we show that ExSRRF can be used to identify and quantify classical features of endoplasmic reticulum stress in the murine ischaemic kidney and diagnostic ultrastructural features in human kidney biopsies.

Published

2023

3. Microbiota-derived 3-IAA influences chemotherapy efficacy in pancreatic cancer

Author

Tintelnot, Joseph, Xu, Yang, Lesker, Till R., Schönlein, Martin, Konczalla, Leonie, Giannou, Anastasios D., Pelczar, Penelope, Kylies, Dominik, Puelles, Victor G., Bielecka, Agata A., Peschka, Manuela, Cortesi, Filippo, Riecken, Kristoffer, Jung, Maximilian, Amend, Lena, Bröring, Tobias S., Trajkovic-Arsic, Marija, Siveke, Jens T., Renné, Thomas, Zhang, Danmei, Boeck, Stefan, Strowig, Till, Uzunoglu, Faik G., Güngör, Cenap, Stein, Alexander, Izbicki, Jakob R., Bokemeyer, Carsten, Sinn, Marianne, Kimmelman, Alec C., Huber, Samuel, and Gagliani, Nicola

Abstract

Pancreatic ductal adenocarcinoma (PDAC) is expected to be the second most deadly cancer by 2040, owing to the high incidence of metastatic disease and limited responses to treatment1,2. Less than half of all patients respond to the primary treatment for PDAC, chemotherapy3,4, and genetic alterations alone cannot explain this5. Diet is an environmental factor that can influence the response to therapies, but its role in PDAC is unclear. Here, using shotgun metagenomic sequencing and metabolomic screening, we show that the microbiota-derived tryptophan metabolite indole-3-acetic acid (3-IAA) is enriched in patients who respond to treatment. Faecal microbiota transplantation, short-term dietary manipulation of tryptophan and oral 3-IAA administration increase the efficacy of chemotherapy in humanized gnotobiotic mouse models of PDAC. Using a combination of loss- and gain-of-function experiments, we show that the efficacy of 3-IAA and chemotherapy is licensed by neutrophil-derived myeloperoxidase. Myeloperoxidase oxidizes 3-IAA, which in combination with chemotherapy induces a downregulation of the reactive oxygen species (ROS)-degrading enzymes glutathione peroxidase 3 and glutathione peroxidase 7. All of this results in the accumulation of ROS and the downregulation of autophagy in cancer cells, which compromises their metabolic fitness and, ultimately, their proliferation. In humans, we observed a significant correlation between the levels of 3-IAA and the efficacy of therapy in two independent PDAC cohorts. In summary, we identify a microbiota-derived metabolite that has clinical implications in the treatment of PDAC, and provide a motivation for considering nutritional interventions during the treatment of patients with cancer.

Published

2023