Your search keyword '"Laura C. Hinte"' showing total 2 results

1. Adipocyte p53 coordinates the response to intermittent fasting by regulating adipose tissue immune cell landscape

Author

Isabel Reinisch, Helene Michenthaler, Alba Sulaj, Elisabeth Moyschewitz, Jelena Krstic, Markus Galhuber, Ruonan Xu, Zina Riahi, Tongtong Wang, Nemanja Vujic, Melina Amor, Riccardo Zenezini Chiozzi, Martin Wabitsch, Dagmar Kolb, Anastasia Georgiadi, Lisa Glawitsch, Ellen Heitzer, Tim J. Schulz, Michael Schupp, Wenfei Sun, Hua Dong, Adhideb Ghosh, Anne Hoffmann, Dagmar Kratky, Laura C. Hinte, Ferdinand von Meyenn, Albert J. R. Heck, Matthias Blüher, Stephan Herzig, Christian Wolfrum, and Andreas Prokesch

Subjects

Science

Abstract

Abstract In obesity, sustained adipose tissue (AT) inflammation constitutes a cellular memory that limits the effectiveness of weight loss interventions. Yet, the impact of fasting regimens on the regulation of AT immune infiltration is still elusive. Here we show that intermittent fasting (IF) exacerbates the lipid-associated macrophage (LAM) inflammatory phenotype of visceral AT in obese mice. Importantly, this increase in LAM abundance is strongly p53 dependent and partly mediated by p53-driven adipocyte apoptosis. Adipocyte-specific deletion of p53 prevents LAM accumulation during IF, increases the catabolic state of adipocytes, and enhances systemic metabolic flexibility and insulin sensitivity. Finally, in cohorts of obese/diabetic patients, we describe a p53 polymorphism that links to efficacy of a fasting-mimicking diet and that the expression of p53 and TREM2 in AT negatively correlates with maintaining weight loss after bariatric surgery. Overall, our results demonstrate that p53 signalling in adipocytes dictates LAM accumulation in AT under IF and modulates fasting effectiveness in mice and humans.

Published

2024

2. H3K18 lactylation marks tissue-specific active enhancers

Author

Eva Galle, Chee-Wai Wong, Adhideb Ghosh, Thibaut Desgeorges, Kate Melrose, Laura C. Hinte, Daniel Castellano-Castillo, Magdalena Engl, Joao Agostinho de Sousa, Francisco Javier Ruiz-Ojeda, Katrien De Bock, Jonatan R. Ruiz, and Ferdinand von Meyenn

Subjects

Lactylation, H3K18la, Lactate, Epigenetics, Embryonic stem cell, Muscle, Biology (General), QH301-705.5, Genetics, QH426-470

Abstract

Abstract Background Histone lactylation has been recently described as a novel histone post-translational modification linking cellular metabolism to epigenetic regulation. Results Given the expected relevance of this modification and current limited knowledge of its function, we generate genome-wide datasets of H3K18la distribution in various in vitro and in vivo samples, including mouse embryonic stem cells, macrophages, adipocytes, and mouse and human skeletal muscle. We compare them to profiles of well-established histone modifications and gene expression patterns. Supervised and unsupervised bioinformatics analysis shows that global H3K18la distribution resembles H3K27ac, although we also find notable differences. H3K18la marks active CpG island-containing promoters of highly expressed genes across most tissues assessed, including many housekeeping genes, and positively correlates with H3K27ac and H3K4me3 as well as with gene expression. In addition, H3K18la is enriched at active enhancers that lie in proximity to genes that are functionally important for the respective tissue. Conclusions Overall, our data suggests that H3K18la is not only a marker for active promoters, but also a mark of tissue specific active enhancers.

Published

2022