Sanne van der Niet scite author profile

The Rho GTPase family is involved in actin dynamics and regulates the barrier function of the endothelium. One of the main barrier-promoting Rho GTPases is Cdc42, also known as cell division control protein 42 homolog. Currently, regulation of Cdc42-based signalling networks in endothelial cells (ECs) lack molecular details. To examine these, we focused on a subset of 15 Rho guanine nucleotide exchange factors (GEFs), which are expressed in the endothelium. By performing single cell FRET measurements with Rho GTPase biosensors in primary human ECs, we monitored GEF efficiency towards Cdc42 and Rac1. A new, single cell-based analysis was developed and used to enable the quantitative comparison of cellular activities of the overexpressed full-length GEFs. Our data reveal GEF dependent activation of Cdc42, with the most efficient Cdc42 activation induced by PLEKHG2, FGD1, PLEKHG1 and PREX1 and the highest selectivity for FGD1. Additionally, we generated truncated GEF constructs that comprise only the catalytic dbl homology (DH) domain or together with the adjacent pleckstrin homology domain (DHPH). The DH domain by itself did not activate Cdc42, whereas the DHPH domain of ITSN1, ITSN2 and PLEKHG1 showed activity towards Cdc42. Together, our study characterized endothelial GEFs that may directly or indirectly activate Cdc42, which will be of great value for the field of vascular biology.

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A terpene nucleoside from M. tuberculosis induces lysosomal lipid storage in foamy macrophages

Bedard¹,

Niet²,

Bernard³

et al. 2023

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Induction of lipid-laden foamy macrophages is a cellular hallmark of tuberculosis (TB) disease, which involves transformation of infected phagolysomes from a site of killing into a nutrient-rich replicative niche. Here we show that a terpenyl nucleoside shed from Mycobacterium tuberculosis (Mtb), 1-tuberculosinyladenosine (1-TbAd), causes lysosomal maturation arrest and autophagy blockade, leading to lipid storage in M1 macrophages. Pure 1-TbAd, or infection with terpenyl nucleoside-producing Mtb, caused intralysosomal and peribacillary lipid storage patterns that match both the molecules and subcellular locations known in foamy macrophages. Lipidomics showed that 1-TbAd induced storage of triacylglycerides and cholesterylesters, and 1-TbAd increased Mtb growth under conditions of restricted lipid access in macrophages. Further, lipidomics identified 1-TbAd induced lipid substrates that define Gaucher's disease, Wolman's disease and other inborn lysosomal storage diseases. These data identify genetic and molecular causes of Mtb-induced lysosomal failure, leading to successful testing of an agonist of TRPML1 calcium channels that reverses lipid storage in cells. These data establish the host-directed cellular functions of an orphan effector molecule that promotes survival in macrophages, providing both an upstream cause and detailed picture of lysosome failure in foamy macrophages.

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Sanne van der Niet

Lipid and Nucleocapsid N-Protein Accumulation in COVID-19 Patient Lung and Infected Cells

Biomarkers, measured during therapy, for response of melanoma patients to immune checkpoint inhibitors: a systematic review

Identification of guanine nucleotide exchange factors that increase Cdc42 activity in primary human endothelial cells

A terpene nucleoside from M. tuberculosis induces lysosomal lipid storage in foamy macrophages

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