Your search keyword '"Martin, Eliza C."' showing total 2 results

1. EDEM3 Domains Cooperate to Perform Its Overall Cell Functioning.

Author

Manica, Georgiana, Ghenea, Simona, Munteanu, Cristian V. A., Martin, Eliza C., Butnaru, Cristian, Surleac, Marius, Chiritoiu, Gabriela N., Alexandru, Petruta R., Petrescu, Andrei-Jose, Petrescu, Stefana M., and Sandonà, Dorianna

Subjects

CELL physiology, CATALYTIC domains, GLYCOPROTEINS, PROTEOLYSIS, MANNOSE

Abstract

EDEM3 recognizes and directs misfolded proteins to the ER-associated protein degradation (ERAD) process. EDEM3 was predicted to act as lectin or as a mannosidase because of its homology with the GH47 catalytic domain of the Man1B1, but the contribution of the other regions remained unresolved. Here, we dissect the molecular determinants governing EDEM3 function and its cellular interactions. LC/MS analysis indicates very few stable ER interactors, suggesting EDEM3 availability for transient substrate interactions. Sequence analysis reveals that EDEM3 consists of four consecutive modules defined as GH47, intermediate (IMD), protease-associated (PA), and intrinsically disordered (IDD) domain. Using an EDEM3 knock-out cell line, we expressed EDEM3 and domain deletion mutants to address EDEM3 function. We find that the mannosidase domain provides substrate binding even in the absence of mannose trimming and requires the IMD domain for folding. The PA and IDD domains deletions do not impair the trimming, but specifically modulate the turnover of two misfolded proteins, NHK and the soluble tyrosinase mutant. Hence, we demonstrate that EDEM3 provides a unique ERAD timing to misfolded glycoproteins, not only by its mannose trimming activity, but also by the positive and negative feedback modulated by the protease-associated and intrinsically disordered domain, respectively. [ABSTRACT FROM AUTHOR]

Published

2021

2. Analysis of EYA3 Phosphorylation by Src Kinase Identifies Residues Involved in Cell Proliferation.

Author

Ionescu, Aura E., Mentel, Mihaela, Munteanu, Cristian V.A., Sima, Livia E., Martin, Eliza C., Necula-Petrareanu, Georgiana, and Szedlacsek, Stefan E.

Subjects

DEPHOSPHORYLATION, PHOSPHORYLATION, CELL proliferation, PHOSPHOPROTEIN phosphatases, PROTEIN-tyrosine kinases, MASS spectrometry, PHOSPHORYLATION kinetics

Abstract

Eyes absent (EYA) are non-thiol-based protein tyrosine phosphatases (PTPs) that also have transcriptional co-activator functions. Their PTP activity is involved in various pathologies. Recently, we demonstrated that Src tyrosine kinase phosphorylates human EYA3 by controlling its subcellular localization. We also found EYA3′s ability to autodephosphorylate, while raising the question if the two opposing processes could be involved in maintaining a physiologically adequate level of phosphorylation. Using native and bottom-up mass spectrometry, we performed detailed mapping and characterization of human EYA3 Src-phosphorylation sites. Thirteen tyrosine residues with different phosphorylation and autodephosphorylation kinetics were detected. Among these, Y77, 96, 237, and 508 displayed an increased resistance to autodephosphorylation. Y77 and Y96 were found to have the highest impact on the overall EYA3 phosphorylation. Using cell cycle analysis, we showed that Y77, Y96, and Y237 are involved in HEK293T proliferation. Mutation of the three tyrosine residues abolished the pro-proliferative effect of EYA3 overexpression. We have also identified a Src-induced phosphorylation pattern of EYA3 in these cells. These findings suggest that EYA3′s tyrosine phosphorylation sites are non-equivalent with their phosphorylation levels being under the control of Src-kinase activity and of EYA3′s autodephosphorylation. [ABSTRACT FROM AUTHOR]

Published

2019