Your search keyword '"Cappuccio, Elia"' showing total 2 results

1. High Glycolytic Activity Enhances Stem Cell Reprogramming of Fahd1-KO Mouse Embryonic Fibroblasts

Author

Salti, Ahmad, Etemad, Solmaz, Cubero, Marta Suarez, Albertini, Eva, Kovacs-Szalka, Beata, Holzknecht, Max, Cappuccio, Elia, Cavinato, Maria, Edenhofer, Frank, and Dürr, Pidder Jansen

Subjects

Mice, Knockout, Neurons, QH301-705.5, Hydrolases, Induced Pluripotent Stem Cells, oxidative phosphorylation, reprogramming, iPSCs, Cell Differentiation, Fibroblasts, Cellular Reprogramming, DNA, Mitochondrial, Article, Cell Line, Mitochondria, Mice, Inbred C57BL, Mice, FAHD1, Animals, Biology (General), neuronal differentiation, Glycolysis, glycolytic activity

Abstract

Mitochondria play a key role in metabolic transitions involved in the reprogramming of somatic cells into induced pluripotent stem cells (iPSCs), but the underlying molecular mechanisms remain largely unexplored. To obtain new insight into the mechanisms of cellular reprogramming, we studied the role of FAH domain-containing protein 1 (FAHD1) in the reprogramming of murine embryonic fibroblasts (MEFs) into iPSCs and their subsequent differentiation into neuronal cells. MEFs from wild type (WT) and Fahd1-knock-out (KO) mice were reprogrammed into iPSCs and characterized for alterations in metabolic parameters and the expression of marker genes indicating mitochondrial biogenesis. Fahd1-KO MEFs showed a higher reprogramming efficiency accompanied by a significant increase in glycolytic activity as compared to WT. We also observed a strong increase of mitochondrial DNA copy number and expression of biogenesis marker genes in Fahd1-KO iPSCs relative to WT. Neuronal differentiation of iPSCs was accompanied by increased expression of mitochondrial biogenesis genes in both WT and Fahd1-KO neurons with higher expression in Fahd1-KO neurons. Together these observations establish a role of FAHD1 as a potential negative regulator of reprogramming and add additional insight into mechanisms by which FAHD1 modulates mitochondrial functions.

Published

2021

2. Structural and functional comparison of fumarylacetoacetate domain containing protein 1 in human and mouse.

Author

Weiss, Alexander K. H., Naschberger, Andreas, Cappuccio, Elia, Metzger, Christina, Mottes, Lorenza, Holzknecht, Max, von Velsen, Jill, Bowler, Matthew W., Rupp, Bernhard, and Jansen-Dürr, Pidder

Subjects

PROTEIN domains, MITOCHONDRIAL proteins, MICE, CRYSTAL structure, DEACETYLATION, SIRTUINS

Abstract

FAH domain containing protein 1 (FAHD1) is a mammalian mitochondrial protein, displaying bifunctionality as acylpyruvate hydrolase (ApH) and oxaloacetate decarboxylase (ODx) activity. We report the crystal structure of mouse FAHD1 and structural mapping of the active site of mouse FAHD1. Despite high structural similarity with human FAHD1, a rabbit monoclonal antibody (RabMab) could be produced that is able to recognize mouse FAHD1, but not the human form, whereas a polyclonal antibody recognized both proteins. Epitope mapping in combination with our deposited crystal structures revealed that the epitope overlaps with a reported SIRT3 deacetylation site in mouse FAHD1. [ABSTRACT FROM AUTHOR]

Published

2020