Your search keyword '"Jannie Borst"' showing total 4 results

1. N-terminal acetylation can stabilize proteins independent of their ubiquitination

Author

Bert van de Kooij, Evert de Vries, Rogier W. Rooswinkel, George M. C. Janssen, Frédérique K. Kok, Peter A. van Veelen, and Jannie Borst

Subjects

Medicine, Science

Abstract

Abstract The majority of proteins in mammalian cells are modified by covalent attachment of an acetyl-group to the N-terminus (Nt-acetylation). Paradoxically, Nt-acetylation has been suggested to inhibit as well as to promote substrate degradation. Contrasting these findings, proteome-wide stability measurements failed to detect any correlation between Nt-acetylation status and protein stability. Accordingly, by analysis of protein stability datasets, we found that predicted Nt-acetylation positively correlates with protein stability in case of GFP, but this correlation does not hold for the entire proteome. To further resolve this conundrum, we systematically changed the Nt-acetylation and ubiquitination status of model substrates and assessed their stability. For wild-type Bcl-B, which is heavily modified by proteasome-targeting lysine ubiquitination, Nt-acetylation did not correlate with protein stability. For a lysine-less Bcl-B mutant, however, Nt-acetylation correlated with increased protein stability, likely due to prohibition of ubiquitin conjugation to the acetylated N-terminus. In case of GFP, Nt-acetylation correlated with increased protein stability, as predicted, but our data suggest that Nt-acetylation does not affect GFP ubiquitination. Similarly, in case of the naturally lysine-less protein p16, Nt-acetylation correlated with protein stability, regardless of ubiquitination on its N-terminus or on an introduced lysine residue. A direct effect of Nt-acetylation on p16 stability was supported by studies in NatB-deficient cells. Together, our studies argue that Nt-acetylation can stabilize proteins in human cells in a substrate-specific manner, by competition with N-terminal ubiquitination, but also by other mechanisms that are independent of protein ubiquitination status.

Published

2023

2. CD4 + helper T cells endow cDC1 with cancer-impeding functions in the human tumor micro-environment

Author

Xin Lei, Indu Khatri, Tom de Wit, Iris de Rink, Marja Nieuwland, Ron Kerkhoven, Hans van Eenennaam, Chong Sun, Abhishek D. Garg, Jannie Borst, and Yanling Xiao

Subjects

Science

Abstract

The presence of classical type 1 dendritic cells (cDC1) positively influences prognosis in cancer, but their intricate networking with the various T cell types found in the tumour microenvironment is not fully appreciated. Here the authors show that cDC1 encounter with CD4+ helper T-cells transforms their gene expression signature, and these “helped” dendritic cells enable the function of anti-tumour cytotoxic T-cells.

Published

2023

3. Proteomics reveals unique identities of human TGF-β-induced and thymus-derived CD4+ regulatory T cells

Author

Mark Mensink, Ellen Schrama, Eloy Cuadrado, Derk Amsen, Sander de Kivit, and Jannie Borst

Subjects

Medicine, Science

Abstract

Abstract The CD4+ regulatory T (Treg) cell lineage, defined by FOXP3 expression, comprises thymus-derived (t)Treg cells and peripherally induced (p)Treg cells. As a model for Treg cells, studies employ TGF-β-induced (i)Treg cells generated from CD4+ conventional T (Tconv) cells in vitro. Here, we describe how human iTreg cells relate to human blood-derived tTreg and Tconv cells according to proteomic analysis. Each of these cell populations had a unique protein expression pattern. iTreg cells had very limited overlap in protein expression with tTreg cells, regardless of cell activation status and instead shared signaling and metabolic proteins with Tconv cells. tTreg cells had a uniquely modest response to CD3/CD28-mediated stimulation. As a benchmark, we used a previously defined proteomic signature that discerns ex vivo naïve and effector Treg cells from Tconv cells and includes conserved Treg cell properties. iTreg cells largely lacked this Treg cell core signature and highly expressed e.g. STAT4 and NFATC2, which may contribute to inflammatory responses. We also used a proteomic signature that distinguishes ex vivo effector Treg cells from Tconv cells and naïve Treg cells. iTreg cells contained part of this effector Treg cell signature, suggesting acquisition of pTreg cell features. In conclusion, iTreg cells are distinct from tTreg cells and share limited features with ex vivo Treg cells at the proteomic level.

Published

2022

4. CD4+ T cell help creates memory CD8+ T cells with innate and help-independent recall capacities

Author

Tomasz Ahrends, Julia Busselaar, Tesa M. Severson, Nikolina Bąbała, Evert de Vries, Astrid Bovens, Lodewyk Wessels, Fred van Leeuwen, and Jannie Borst

Subjects

Science

Abstract

Help from CD4+ T cells is important to induce CD8+ T cell memory responses, but mechanistic insights are lacking. Here, the authors show, by transcriptomics and epigenetics, how CD4+ T cells help program memory CD8+ T cells for help-independent recall by antigens, as well as for innate-like recall responses by IL-12/IL-18 and promoting survival by IL-15.

Published

2019