Your search keyword '"EGF-LD"' showing total 3 results

1. The single EGF-like domain of mouse PAMR1 is modified by O-Glucose, O-Fucose and O-GlcNAc.

Author

Pennarubia, Florian, Germot, Agnès, Pinault, Emilie, Maftah, Abderrahman, and Legardinier, Sébastien

Subjects

*GLYCANS, *ATOMIC mass, *MICE, *MEMBRANE proteins, *MUSCLE regeneration, *CLICK chemistry

Abstract

Epidermal growth factor-like domains (EGF-LDs) of membrane and secreted proteins can be modified by N -glycans and/or potentially elongated O -linked monosaccharides such as O -glucose (O -Glc) found at two positions (O -Glc 1 and O -Glc2), O- fucose (O -Fuc) and O - N -acetylglucosamine (O -GlcNAc). The presence of three O -linked sugars within the same EGF-LD, such as in EGF-LD 20 of NOTCH1, has rarely been evidenced. We searched in KEGG GENES database to list mouse and human proteins with an EGF-LD sequence including one, two, three or four potential O -glycosylation consensus sites. Among the 129 murine retrieved proteins, most had predicted O -fucosylation and/or O -GlcNAcylation sites. Around 68% of EGF-LDs were subjected to only one O -linked sugar modification and near 5% to three modifications. Among these latter, we focused on the peptidase domain-containing protein associated with muscle regeneration 1 (PAMR1), having only one EGF-LD. To test the ability of this domain to be glycosylated, a correctly folded EGF-LD was produced in Escherichia coli periplasm, purified and subjected to in vitro incubations with the recombinant O -glycosyltransferases POGLUT1, POFUT1 and EOGT, adding O -Glc1, O -Fuc and O -GlcNAc, respectively. Using click chemistry and mass spectrometry, isolated PAMR1 EGF-LD was demonstrated to be modified by the three O -linked sugars. Their presence was individually confirmed on EGF-LD of full-length mouse recombinant PAMR1, with at least some molecules modified by both O -Glc1 and O -Fuc. Overall, these results are consistent with the presence of a triple O -glycosylated EGF-LD in mouse PAMR1. [ABSTRACT FROM AUTHOR]

Published

2021

2. Mouse WIF1 Is Only Modified with O-Fucose in Its EGF-like Domain III Despite Two Evolutionarily Conserved Consensus Sites

Author

Florian Pennarubia, Emilie Pinault, Bilal Al Jaam, Caroline E. Brun, Abderrahman Maftah, Agnès Germot, and Sébastien Legardinier

Subjects

click chemistry, EGF-LD, O-fucosylation, phylogeny, Pofut1, Wif1, Microbiology, QR1-502

Abstract

The Wnt Inhibitory Factor 1 (Wif1), known to inhibit Wnt signaling pathways, is composed of a WIF domain and five EGF-like domains (EGF-LDs) involved in protein interactions. Despite the presence of a potential O-fucosylation site in its EGF-LDs III and V, the O-fucose sites occupancy has never been demonstrated for WIF1. In this study, a phylogenetic analysis on the distribution, conservation and evolution of Wif1 proteins was performed, as well as biochemical approaches focusing on O-fucosylation sites occupancy of recombinant mouse WIF1. In the monophyletic group of gnathostomes, we showed that the consensus sequence for O-fucose modification by Pofut1 is highly conserved in Wif1 EGF-LD III while it was more divergent in EGF-LD V. Using click chemistry and mass spectrometry, we demonstrated that mouse WIF1 was only modified with a non-extended O-fucose on its EGF-LD III. In addition, a decreased amount of mouse WIF1 in the secretome of CHO cells was observed when the O-fucosylation site in EGF-LD III was mutated. Based on sequence comparison and automated protein modeling, we suggest that the absence of O-fucose on EGF-LD V of WIF1 in mouse and probably in most gnathostomes, could be related to EGF-LD V inability to interact with POFUT1.

Published

2020

3. Mouse WIF1 Is Only Modified with O-Fucose in Its EGF-like Domain III Despite Two Evolutionarily Conserved Consensus Sites.

Author

Pennarubia, Florian, Pinault, Emilie, Al Jaam, Bilal, Brun, Caroline E., Maftah, Abderrahman, Germot, Agnès, and Legardinier, Sébastien

Subjects

*ATOMIC mass, *CLICK chemistry, *CHO cell, *WNT signal transduction, *PROTEIN-protein interactions

Abstract

The Wnt Inhibitory Factor 1 (Wif1), known to inhibit Wnt signaling pathways, is composed of a WIF domain and five EGF-like domains (EGF-LDs) involved in protein interactions. Despite the presence of a potential O-fucosylation site in its EGF-LDs III and V, the O-fucose sites occupancy has never been demonstrated for WIF1. In this study, a phylogenetic analysis on the distribution, conservation and evolution of Wif1 proteins was performed, as well as biochemical approaches focusing on O-fucosylation sites occupancy of recombinant mouse WIF1. In the monophyletic group of gnathostomes, we showed that the consensus sequence for O-fucose modification by Pofut1 is highly conserved in Wif1 EGF-LD III while it was more divergent in EGF-LD V. Using click chemistry and mass spectrometry, we demonstrated that mouse WIF1 was only modified with a non-extended O-fucose on its EGF-LD III. In addition, a decreased amount of mouse WIF1 in the secretome of CHO cells was observed when the O-fucosylation site in EGF-LD III was mutated. Based on sequence comparison and automated protein modeling, we suggest that the absence of O-fucose on EGF-LD V of WIF1 in mouse and probably in most gnathostomes, could be related to EGF-LD V inability to interact with POFUT1. [ABSTRACT FROM AUTHOR]

Published

2020