Your search keyword '"Schulz, Tim Julius"' showing total 14 results

1. Cold-induced expression of a truncated adenylyl cyclase 3 acts as rheostat to brown fat function

Author

Khani, Sajjad, Topel, Hande, Kardinal, Ronja, Tavanez, Ana Rita, Josephrajan, Ajeetha, Larsen, Bjørk Ditlev Marcher, Gaudry, Michael James, Leyendecker, Philipp, Egedal, Nadia Meincke, Güller, Aylin Seren, Stanic, Natasa, Ruppert, Phillip M. M., Gaziano, Isabella, Hansmeier, Nils Rouven, Schmidt, Elena, Klemm, Paul, Vagliano, Lara-Marie, Stahl, Rainer, Duthie, Fraser, Krause, Jens-Henning, Bici, Ana, Engelhard, Christoph Andreas, Gohlke, Sabrina, Frommolt, Peter, Gnad, Thorsten, Rada-Iglesias, Alvaro, Pradas-Juni, Marta, Schulz, Tim Julius, Wunderlich, Frank Thomas, Pfeifer, Alexander, Bartelt, Alexander, Jastroch, Martin, Wachten, Dagmar, and Kornfeld, Jan-Wilhelm

Published

2024

2. MarShie: a clearing protocol for 3D analysis of single cells throughout the bone marrow at subcellular resolution.

Author

Mertens, Till Fabian, Liebheit, Alina Tabea, Ehl, Johanna, Köhler, Ralf, Rakhymzhan, Asylkhan, Woehler, Andrew, Katthän, Lukas, Ebel, Gernot, Liublin, Wjatscheslaw, Kasapi, Ana, Triantafyllopoulou, Antigoni, Schulz, Tim Julius, Niesner, Raluca Aura, and Hauser, Anja Erika

Subjects

BONE marrow cells, CELL analysis, CARDIOVASCULAR system, BONE marrow, MYELOID cells, MACHINE learning

Abstract

Analyzing immune cell interactions in the bone marrow is vital for understanding hematopoiesis and bone homeostasis. Three-dimensional analysis of the complete, intact bone marrow within the cortex of whole long bones remains a challenge, especially at subcellular resolution. We present a method that stabilizes the marrow and provides subcellular resolution of fluorescent signals throughout the murine femur, enabling identification and spatial characterization of hematopoietic and stromal cell subsets. By combining a pre-processing algorithm for stripe artifact removal with a machine-learning approach, we demonstrate reliable cell segmentation down to the deepest bone marrow regions. This reveals age-related changes in the marrow. It highlights the interaction between CX3CR1+ cells and the vascular system in homeostasis, in contrast to other myeloid cell types, and reveals their spatial characteristics after injury. The broad applicability of this method will contribute to a better understanding of bone marrow biology. Three-dimensional analysis of the intact bone marrow within whole long bones remains very challenging. Here, the authors present a method that stabilizes the marrow and provides subcellular resolution of fluorescent signals throughout the murine femur. [ABSTRACT FROM AUTHOR]

Published

2024

3. Adipocyte p53 Coordinates the Response to Cyclic Fasting by Regulating Adipose Tissue Immune Cell Landscape

Author

Reinisch, Isabel, primary, Michenthaler, Helene, additional, Moyschewitz, Elisabeth, additional, Krstic, Jelena, additional, Galhuber, Markus, additional, Wang, Tongtong, additional, Vujić, Nemanja, additional, Amor, Melina, additional, Zenezini Chiozzi, Riccardo, additional, Wabitsch, Martin, additional, Kolb, Dagmar, additional, Georgiadi, Anastasia, additional, Glawitsch, Lisa, additional, Heitzer, Ellen, additional, Schulz, Tim Julius, additional, Schupp, Michael, additional, Sun, Wenfei, additional, Dong, Hua, additional, Gosh, Adhideb, additional, Hoffmann, Anne, additional, Kratky, Dagmar, additional, Heck, Albert J.R., additional, Sulaj, Alba, additional, Blüher, Matthias, additional, Herzig, Stephan, additional, Wolfrum, Christian, additional, and Prokesch, Andreas, additional

Published

2023

4. Cold-induced expression of a truncated Adenylyl Cyclase 3 acts as rheostat to brown fat function

Author

Khani, Sajjad, primary, Topel, Hande, additional, Josephrajan, Ajeetha, additional, Larsen, Bjørk Ditlev Marcher, additional, de Almeida Tavanez, Ana Rita Albuquerque, additional, Gaudry, Michael James, additional, Leyendecker, Philipp, additional, Stanic, Natasa, additional, Gaziano, Isabella, additional, Hansmeier, Nils Rouven, additional, Schmidt, Elena, additional, Klemm, Paul, additional, Vagliano, Lara-Marie, additional, Engelhard, Christoph Andreas, additional, Nielsen, Søren, additional, Jespersen, Naja Zenius, additional, Rehimi, Rizwan, additional, Gohlke, Sabrina, additional, Frommolt, Peter, additional, Gnad, Thorsten, additional, Rada-Iglesias, Alvaro, additional, Pradas-Juni, Marta, additional, Schulz, Tim Julius, additional, Wunderlich, Frank Thomas, additional, Pfeifer, Alexander, additional, Jastroch, Martin, additional, Wachten, Dagmar, additional, and Kornfeld, Jan-Wilhelm, additional

Published

2022

5. Obesity Hinders the Protective Effect of Selenite Supplementation on Insulin Signaling

Author

Hauffe, Robert, Rath, Michaela, Agyapong, Wilson, Jonas, Wenke, Vogel, Heike, Schulz, Tim Julius, Schwarz, Maria, Kipp, Anna Patricia, Blüher, Matthias, Kleinridders, André, Ojeda Murillo, María Luisa, and Nogales Bueno, Fátima

Subjects

Adipose Tissue, Insulin, Insulin Resistance, Obesity, Selenite, Physiology, Clinical Biochemistry, selenite, insulin, adipose tissue, obesity, insulin resistance, Institut für Ernährungswissenschaft, Cell Biology, ddc:610, 610 Medizin und Gesundheit, Molecular Biology, Biochemistry, Extern

Abstract

The intake of high-fat diets (HFDs) containing large amounts of saturated long-chain fatty acids leads to obesity, oxidative stress, inflammation, and insulin resistance. The trace element selenium, as a crucial part of antioxidative selenoproteins, can protect against the development of diet-induced insulin resistance in white adipose tissue (WAT) by increasing glutathione peroxidase 3 (GPx3) and insulin receptor (IR) expression. Whether selenite (Se) can attenuate insulin resistance in established lipotoxic and obese conditions is unclear. We confirm that GPX3 mRNA expression in adipose tissue correlates with BMI in humans. Cultivating 3T3-L1 pre-adipocytes in palmitate-containing medium followed by Se treatment attenuates insulin resistance with enhanced GPx3 and IR expression and adipocyte differentiation. However, feeding obese mice a selenium-enriched high-fat diet (SRHFD) only resulted in a modest increase in overall selenoprotein gene expression in WAT in mice with unaltered body weight development, glucose tolerance, and insulin resistance. While Se supplementation improved adipocyte morphology, it did not alter WAT insulin sensitivity. However, mice fed a SRHFD exhibited increased insulin content in the pancreas. Overall, while selenite protects against palmitate-induced insulin resistance in vitro, obesity impedes the effect of selenite on insulin action and adipose tissue metabolism in vivo., Zweitveröffentlichungen der Universität Potsdam : Mathematisch-Naturwissenschaftliche Reihe; 1267

Published

2022

6. p53 as a dichotomous regulator of liver disease

Author

Krstic, Jelena (Dr.), Galhuber, Markus, Schulz, Tim Julius (Prof. Dr.), Schupp, Michael, and Prokesch, Andreas (Assoz. Prof. Priv.-Doz. Dr.)

Subjects

ddc:570, ddc:540, Mathematisch-Naturwissenschaftliche Fakultät

Abstract

Lifestyle-related disorders, such as the metabolic syndrome, have become a primary risk factor for the development of liver pathologies that can progress from hepatic steatosis, hepatic insulin resistance, steatohepatitis, fibrosis and cirrhosis, to the most severe condition of hepatocellular carcinoma (HCC). While the prevalence of liver pathologies is steadily increasing in modern societies, there are currently no approved drugs other than chemotherapeutic intervention in late stage HCC. Hence, there is a pressing need to identify and investigate causative molecular pathways that can yield new therapeutic avenues. The transcription factor p53 is well established as a tumor suppressor and has recently been described as a central metabolic player both in physiological and pathological settings. Given that liver is a dynamic tissue with direct exposition to ingested nutrients, hepatic p53, by integrating cellular stress response, metabolism and cell cycle regulation, has emerged as an important regulator of liver homeostasis and dysfunction. The underlying evidence is reviewed herein, with a focus on clinical data and animal studies that highlight a direct influence of p53 activity on different stages of liver diseases. Based on current literature showing that activation of p53 signaling can either attenuate or fuel liver disease, we herein discuss the hypothesis that, while hyper-activation or loss of function can cause disease, moderate induction of hepatic p53 within physiological margins could be beneficial in the prevention and treatment of liver pathologies. Hence, stimuli that lead to a moderate and temporary p53 activation could present new therapeutic approaches through several entry points in the cascade from hepatic steatosis to HCC.

Published

2020

7. Complementary Omics Strategies to Dissect p53 Signaling Networks Under Nutrient Stress

Author

Galhuber, Markus, primary, Michenthaler, Helene, additional, Heininger, Christoph, additional, Reinisch, Isabel, additional, Nössing, Christoph, additional, Krstic, Jelena, additional, Kupper, Nadja, additional, Moyschewitz, Elisabeth, additional, Auer, Martina, additional, Heitzer, Ellen, additional, Ulz, Peter, additional, Birner-Gruenberger, Ruth, additional, Liesinger, Laura, additional, Lenihan-Geels, Georgia Ngawai, additional, Oster, Moritz, additional, Spreitzer, Emil, additional, Zenezini Chiozzi, Riccardo, additional, Schulz, Tim Julius, additional, Schupp, Michael, additional, Madl, Tobias, additional, Heck, Albert J.R., additional, and Prokesch, Andreas, additional

Published

2021

8. p53 as a dichotomous regulator of liver disease

Author

Krstic, Jelena, Galhuber, Markus, Schulz, Tim Julius (Prof. Dr.), Schupp, Michael, and Prokesch, Andreas

Subjects

Institut für Ernährungswissenschaft, ddc:610

Abstract

Lifestyle-related disorders, such as the metabolic syndrome, have become a primary risk factor for the development of liver pathologies that can progress from hepatic steatosis, hepatic insulin resistance, steatohepatitis, fibrosis and cirrhosis, to the most severe condition of hepatocellular carcinoma (HCC). While the prevalence of liver pathologies is steadily increasing in modern societies, there are currently no approved drugs other than chemotherapeutic intervention in late stage HCC. Hence, there is a pressing need to identify and investigate causative molecular pathways that can yield new therapeutic avenues. The transcription factor p53 is well established as a tumor suppressor and has recently been described as a central metabolic player both in physiological and pathological settings. Given that liver is a dynamic tissue with direct exposition to ingested nutrients, hepatic p53, by integrating cellular stress response, metabolism and cell cycle regulation, has emerged as an important regulator of liver homeostasis and dysfunction. The underlying evidence is reviewed herein, with a focus on clinical data and animal studies that highlight a direct influence of p53 activity on different stages of liver diseases. Based on current literature showing that activation of p53 signaling can either attenuate or fuel liver disease, we herein discuss the hypothesis that, while hyper-activation or loss of function can cause disease, moderate induction of hepatic p53 within physiological margins could be beneficial in the prevention and treatment of liver pathologies. Hence, stimuli that lead to a moderate and temporary p53 activation could present new therapeutic approaches through several entry points in the cascade from hepatic steatosis to HCC.

Published

2018

9. Age-related oxidative changes in pancreatic islets are predominantly located in the vascular system

Author

Kehm, Richard, primary, König, Jeannette, additional, Nowotny, Kerstin, additional, Jung, Tobias, additional, Deubel, Stephanie, additional, Gohlke, Sabrina, additional, Schulz, Tim Julius, additional, and Höhn, Annika, additional

Published

2018

10. Lysophosphatidic Acid Inhibits Insulin Signaling in Primary Rat Hepatocytes via the LPA3 Receptor Subtype and is Increased in Obesity

Author

Fayyaz, Susann, primary, Japtok, Lukasz, additional, Schumacher, Fabian, additional, Wigger, Dominik , additional, Schulz, Tim Julius, additional, Haubold, Kathrin , additional, Gulbins, Erich, additional, Völler, Heinz , additional, and Kleuser, Burkhard, additional

Published

2017

11. Induction of Steatohepatitis (NASH) with Insulin Resistance in Wild-type B6 Mice by a Western-type Diet Containing Soybean Oil and Cholesterol

Author

Henkel, Janin, primary, Coleman, Charles Dominic, additional, Schraplau, Anne, additional, Jöhrens, Korinna, additional, Weber, Daniela, additional, Castro, José Pedro, additional, Hugo, Martin, additional, Schulz, Tim Julius, additional, Krämer, Stephanie, additional, Schürmann, Annette, additional, and Püschel, Gerhard Paul, additional

Published

2017

12. Lysophosphatidic Acid Inhibits Insulin Signaling in Primary Rat Hepatocytes via the LPA3 Receptor Subtype and is Increased in Obesity.

Author

Fayyaz, Susann, Japtok, Lukasz, Schumacher, Fabian, Wigger, Dominik, Schulz, Tim Julius, Haubold, Kathrin, Gulbins, Erich, Völler, Heinz, and Kleuser, Burkhard

Subjects

LYSOPHOSPHOLIPIDS, AUTOTAXIN, HYPERTROPHY, PREVENTION of obesity, PHOSPHATIDYLSERINE synthase, DIAGNOSIS

Abstract

Background/Aims: Obesity is a main risk factor for the development of hepatic insulin resistance and it is accompanied by adipocyte hypertrophy and an elevated expression of different adipokines such as autotaxin (ATX). ATX converts lysophosphatidylcholine to lysophosphatidic acid (LPA) and acts as the main producer of extracellular LPA. This bioactive lipid regulates a broad range of physiological and pathological responses by activation of LPA receptors (LPA1-6). Methods: The activation of phosphatidylinositide 3-kinases (PI3K) signaling (Akt and GSK-3ß) was analyzed via western blotting in primary rat hepatocytes. Incorporation of glucose into glycogen was measured by using radio labeled glucose. Real-time PCR analysis and pharmacological modulation of LPA receptors were performed. Human plasma LPA levels of obese (BMI > 30, n = 18) and normal weight individuals (BMI 18.5-25, n = 14) were analyzed by liquid chromatography tandem-mass spectrometry (LC-MS/MS). Results: Pretreatment of primary hepatocytes with LPA resulted in an inhibition of insulin-mediated Gck expression, PI3K activation and glycogen synthesis. Pharmacological approaches revealed that the LPA3- receptor subtype is responsible for the inhibitory effect of LPA on insulin signaling. Moreover, human plasma LPA concentrations (16:0 LPA) of obese participants (BMI > 30) are significantly elevated in comparison to normal weight individuals (BMI 18.5-25). Conclusion: LPA is able to interrupt insulin signaling in primary rat hepatocytes via the LPA3 receptor subtype. Moreover, the bioactive lipid LPA (16:0) is increased in obesity. [ABSTRACT FROM AUTHOR]

Published

2017

13. Induction of steatohepatitis (NASH) with insulin resistance in wildtype B6 mice by a western-type diet containing soybean oil and cholesterol.

Author

Henkel J, Coleman CD, Schraplau A, Jӧhrens K, Weber D, Castro JP, Hugo M, Schulz TJ, Krämer S, Schürmann A, and Püschel GP

Subjects

Animals, Apoptosis drug effects, Cells, Cultured, Cytokines metabolism, Diet, High-Fat, Diet, Western, Hepatocytes drug effects, Kupffer Cells drug effects, Kupffer Cells metabolism, Male, Mice, Inbred C57BL, Non-alcoholic Fatty Liver Disease metabolism, Non-alcoholic Fatty Liver Disease pathology, Oxidative Stress, Cholesterol, Dietary, Insulin Resistance, Non-alcoholic Fatty Liver Disease etiology, Soybean Oil

Abstract

Non-alcoholic fatty liver disease (NAFLD) and non-alcoholic steatohepatitis (NASH) are hepatic manifestations of the metabolic syndrome. Many currently used animal models of NAFLD/NASH lack clinical features of either NASH or metabolic syndrome such as hepatic inflammation and fibrosis (e.g. high-fat diets) or overweight and insulin resistance (e.g. methionine-choline-deficient diets) or they are based on monogenetic defects (e.g. ob/ob mice). In the current study, a western-type diet containing soybean oil with high n 6-PUFA and 0.75% cholesterol (SOD+Cho) induced steatosis, inflammation and fibrosis accompanied by hepatic lipid peroxidation and oxidative stress in livers of C57BL/6-mice which in addition showed increased weight gain and insulin resistance, thus displaying a phenotype closely resembling all clinical features of NASH in patients with metabolic syndrome. In striking contrast a soybean oil-containing western-type diet without cholesterol (SOD) induced only mild steatosis but neither hepatic inflammation nor fibrosis, weight gain or insulin resistance. Another high-fat diet mainly consisting of lard and supplemented with fructose in drinking water (LAD+Fru) resulted in more prominent weight gain, insulin resistance and hepatic steatosis than SOD+Cho but livers were devoid of inflammation and fibrosis. Although both LAD+Fru- and SOD+Cho-fed animals had high plasma cholesterol, liver cholesterol was elevated only in SOD+Cho animals. Cholesterol induced expression of chemotactic and inflammatory cytokines in cultured Kupffer cells and rendered hepatocytes more susceptible to apoptosis. Summarizing, dietary cholesterol in SOD+Cho diet may trigger hepatic inflammation and fibrosis. SOD+Cho-fed animals may be a useful disease model displaying many clinical features of patients with the metabolic syndrome and NASH.

Published

2017

14. Report on an EFSD/MSD Travel Fellowship for Young Scientists.

Author

Schulz TJ

Subjects

Animals, Biopsy, Foundations, Germany, Insulin metabolism, Islets of Langerhans Transplantation, Kidney surgery, Liver pathology, Mice, Mice, Knockout genetics, Pancreas pathology, Receptor, Insulin genetics, Tissue Fixation, Transplantation, Heterotopic, Travel, Diabetes Mellitus genetics, Diabetes Mellitus metabolism, Diabetes Mellitus pathology, Fellowships and Scholarships

Published

2003