Your search keyword '"Cruys, Bert"' showing total 8 results

1. Diagnostic Validation of a Comprehensive Targeted Panel for Broad Mutational and Biomarker Analysis in Solid Tumors.

Author

Froyen, Guy, Geerdens, Ellen, Berden, Severine, Cruys, Bert, and Maes, Brigitte

Subjects

TUMOR diagnosis, BIOMARKERS, SEQUENCE analysis, DNA, RESEARCH methodology, SINGLE nucleotide polymorphisms, RNA, EARLY detection of cancer, GENE expression profiling, GENOMICS, GENE rearrangement, GENES, SENSITIVITY & specificity (Statistics)

Abstract

Simple Summary: The analysis of tumor-associated genetic variants and biomarkers is critical for therapy choice, as specific mutations allow for a personalized treatment. Because more and more mutation-treatment combinations become available, screening should be performed on many genes simultaneously. The use of large and comprehensive gene panel screenings in molecular diagnostics, however, requires an extensive and thorough validation to demonstrate the correctness of all clinically relevant data. Here, we describe such validation using a large number of samples and confirmed effective detection of several types of mutations for different validation parameters. Samples of tumor patients thus can be reliably tested with a comprehensive assay to maximize their personalized treatment regimen. The use of targeted Next Generation Sequencing (NGS) for the diagnostic screening of somatic variants in solid tumor samples has proven its high clinical value. Because of the large number of ongoing clinical trials for a multitude of variants in a growing number of genes, as well as the detection of proven and emerging pan-cancer biomarkers including microsatellite instability (MSI) and tumor mutation burden (TMB), the currently employed diagnostic gene panels will become vastly insufficient in the near future. Here, we describe the validation and implementation of the hybrid capture-based comprehensive TruSight Oncology (TSO500) assay that is able to detect single-nucleotide variants (SNVs) and subtle deletions and insertions (indels) in 523 tumor-associated genes, copy-number variants (CNVs) of 69 genes, fusions with 55 cancer driver genes, and MSI and TMB. Extensive validation of the TSO500 assay was performed on DNA or RNA from 170 clinical samples with neoplastic content down to 10%, using multiple tissue and specimen types. Starting with 80 ng DNA and 40 ng RNA extracted from formalin-fixed and paraffine-embedded (FFPE) samples revealed a precision and accuracy >99% for all variant types. The analytical sensitivity and specificity were at least 99% for SNVs, indels, CNVs, MSI, and gene rearrangements. For TMB, only values around the threshold could yield a deviating outcome. The limit-of-detection for SNVs and indels was well below the set threshold of 5% variant allele frequency (VAF). This validated comprehensive genomic profiling assay was then used to screen 624 diagnostic samples, and its success rate for adoption in a clinical diagnostic setting of broad solid tumor screening was assessed on this cohort. [ABSTRACT FROM AUTHOR]

Published

2022

2. Role of glutamine synthetase in angiogenesis beyond glutamine synthesis.

Author

Eelen, Guy, Dubois, Charlotte, Cantelmo, Anna Rita, Goveia, Jermaine, Brüning, Ulrike, DeRan, Michael, Jarugumilli, Gopala, van Rijssel, Jos, Saladino, Giorgio, Comitani, Federico, Zecchin, Annalisa, Rocha, Susana, Chen, Rongyuan, Huang, Hongling, Vandekeere, Saar, Kalucka, Joanna, Lange, Christian, Morales-Rodriguez, Francisco, Cruys, Bert, and Treps, Lucas

Abstract

Glutamine synthetase, encoded by the gene GLUL, is an enzyme that converts glutamate and ammonia to glutamine. It is expressed by endothelial cells, but surprisingly shows negligible glutamine-synthesizing activity in these cells at physiological glutamine levels. Here we show in mice that genetic deletion of Glul in endothelial cells impairs vessel sprouting during vascular development, whereas pharmacological blockade of glutamine synthetase suppresses angiogenesis in ocular and inflammatory skin disease while only minimally affecting healthy adult quiescent endothelial cells. This relies on the inhibition of endothelial cell migration but not proliferation. Mechanistically we show that in human umbilical vein endothelial cells GLUL knockdown reduces membrane localization and activation of the GTPase RHOJ while activating other Rho GTPases and Rho kinase, thereby inducing actin stress fibres and impeding endothelial cell motility. Inhibition of Rho kinase rescues the defect in endothelial cell migration that is induced by GLUL knockdown. Notably, glutamine synthetase palmitoylates itself and interacts with RHOJ to sustain RHOJ palmitoylation, membrane localization and activation. These findings reveal that, in addition to the known formation of glutamine, the enzyme glutamine synthetase shows unknown activity in endothelial cell migration during pathological angiogenesis through RHOJ palmitoylation. The enzyme glutamine synthetase is active in endothelial cell migration during angiogenesis, through autopalmitoylation and the regulation of RHOJ signalling. [ABSTRACT FROM AUTHOR]

Published

2018

3. Defective endothelial cell migration in the absence of Cdc42 leads to capillary-venous malformations.

Author

Laviña, Bàrbara, Castro, Marco, Niaudet, Colin, Cruys, Bert, Álvarez-Aznar, Alberto, Carmeliet, Peter, Bentley, Katie, Brakebusch, Cord, Betsholtz, Christer, and Gaengel, Konstantin

Subjects

ENDOTHELIAL cells, CELL migration, FILOPODIA

Abstract

Formation and homeostasis of the vascular system requires several coordinated cellular functions, but their precise interplay during development and their relative importance for vascular pathologies remain poorly understood. Here, we investigated the endothelial functions regulated by Cdc42 and their in vivo relevance during angiogenic sprouting and vascular morphogenesis in the postnatal mouse retina. We found that Cdc42 is required for endothelial tip cell selection, directed cell migration and filopodia formation, but dispensable for cell proliferation or apoptosis. Although the loss of Cdc42 seems generally compatible with apical-basal polarization and lumen formation in retinal blood vessels, it leads to defective endothelial axial polarization and to the formation of severe vascular malformations in capillaries and veins. Tracking of Cdc42- depleted endothelial cells in mosaic retinas suggests that these capillary-venous malformations arise as a consequence of defective cell migration, when endothelial cells that proliferate at normal rates are unable to re-distribute within the vascular network. [ABSTRACT FROM AUTHOR]

Published

2018

4. Role of glutamine and interlinked asparagine metabolism in vessel formation.

Author

Huang, Hongling, Vandekeere, Saar, Kalucka, Joanna, Bierhansl, Laura, Zecchin, Annalisa, Brüning, Ulrike, Visnagri, Asjad, Yuldasheva, Nadira, Goveia, Jermaine, Cruys, Bert, Brepoels, Katleen, Wyns, Sabine, Rayport, Stephen, Ghesquière, Bart, Vinckier, Stefan, Schoonjans, Luc, Cubbon, Richard, Dewerchin, Mieke, Eelen, Guy, and Carmeliet, Peter

Subjects

GLUTAMINE, ENDOTHELIAL cells, NEOVASCULARIZATION, GLUTAMINASES, TRICARBOXYLIC acids, MACROMOLECULES, HOMEOSTASIS

Abstract

Endothelial cell ( EC) metabolism is emerging as a regulator of angiogenesis, but the precise role of glutamine metabolism in ECs is unknown. Here, we show that depriving ECs of glutamine or inhibiting glutaminase 1 ( GLS1) caused vessel sprouting defects due to impaired proliferation and migration, and reduced pathological ocular angiogenesis. Inhibition of glutamine metabolism in ECs did not cause energy distress, but impaired tricarboxylic acid ( TCA) cycle anaplerosis, macromolecule production, and redox homeostasis. Only the combination of TCA cycle replenishment plus asparagine supplementation restored the metabolic aberrations and proliferation defect caused by glutamine deprivation. Mechanistically, glutamine provided nitrogen for asparagine synthesis to sustain cellular homeostasis. While ECs can take up asparagine, silencing asparagine synthetase ( ASNS, which converts glutamine-derived nitrogen and aspartate to asparagine) impaired EC sprouting even in the presence of glutamine and asparagine. Asparagine further proved crucial in glutamine-deprived ECs to restore protein synthesis, suppress ER stress, and reactivate mTOR signaling. These findings reveal a novel link between endothelial glutamine and asparagine metabolism in vessel sprouting. [ABSTRACT FROM AUTHOR]

Published

2017

5. The Cancer Cell Oxygen Sensor PHD2 Promotes Metastasis via Activation of Cancer-Associated Fibroblasts.

Author

Kuchnio, Anna, Moens, Stijn, Bruning, Ulrike, Kuchnio, Karol, Cruys, Bert, Thienpont, Bernard, Broux, Michaël, Ungureanu, Andreea Alexandra, Leite de Oliveira, Rodrigo, Bruyère, Françoise, Cuervo, Henar, Manderveld, Ann, Carton, An, Hernandez-Fernaud, Juan Ramon, Zanivan, Sara, Bartic, Carmen, Foidart, Jean-Michel, Noel, Agnes, Vinckier, Stefan, and Lambrechts, Diether

Abstract

Summary Several questions about the role of the oxygen sensor prolyl-hydroxylase 2 (PHD2) in cancer have not been addressed. First, the role of PHD2 in metastasis has not been studied in a spontaneous tumor model. Here, we show that global PHD2 haplodeficiency reduced metastasis without affecting tumor growth. Second, it is unknown whether PHD2 regulates cancer by affecting cancer-associated fibroblasts (CAFs). We show that PHD2 haplodeficiency reduced metastasis via two mechanisms: (1) by decreasing CAF activation, matrix production, and contraction by CAFs, an effect that surprisingly relied on PHD2 deletion in cancer cells, but not in CAFs; and (2) by improving tumor vessel normalization. Third, the effect of concomitant PHD2 inhibition in malignant and stromal cells (mimicking PHD2 inhibitor treatment) is unknown. We show that global PHD2 haplodeficiency, induced not only before but also after tumor onset, impaired metastasis. These findings warrant investigation of PHD2’s therapeutic potential. [ABSTRACT FROM AUTHOR]

Published

2015

6. The Dynamics of Nucleotide Variants in the Progression from Low–Intermediate Myeloma Precursor Conditions to Multiple Myeloma: Studying Serial Samples with a Targeted Sequencing Approach.

Author

Oben, Bénedith, Cosemans, Charlotte, Geerdens, Ellen, Linsen, Loes, Vanhees, Kimberly, Maes, Brigitte, Theunissen, Koen, Cruys, Bert, Lionetti, Marta, Arijs, Ingrid, Bolli, Niccolò, Froyen, Guy, and Rummens, Jean-Luc

Subjects

DISEASE progression, SEQUENCE analysis, GENETIC mutation, NUCLEOTIDES, MONOCLONAL gammopathies, MOLECULAR biology, DESCRIPTIVE statistics, BONE marrow

Abstract

Simple Summary: Multiple myeloma (MM), characterized by the expansion of plasma cells in the bone marrow, is the second most common hematological malignancy. This incurable cancer is consistently preceded by non-malignant asymptomatic precursor conditions known as monoclonal gammopathy of undetermined significance (MGUS) and/or smoldering multiple myeloma (SMM). These pre-stages are relatively frequent, but only a select percentage of them will progress to MM. However, it is still not possible to individually predict when and which patients will develop MM. Therefore, this study aimed to investigate the mutational profile in the progression in serial bone marrow samples with a custom targeted sequencing panel, designed to detect variants in myeloma-related genes. Remarkably, almost all variants identified in the MM samples were also already present in the pre-stages, sometimes even many years before the progression. These results provide new important insights into the molecular mechanisms of the precursor conditions and progression to MM. Multiple myeloma (MM), or Kahler's disease, is an incurable plasma cell (PC) cancer in the bone marrow (BM). This malignancy is preceded by one or more asymptomatic precursor conditions, monoclonal gammopathy of undetermined significance (MGUS) and/or smoldering multiple myeloma (SMM). The molecular mechanisms and exact cause of this progression are still not completely understood. In this study, the mutational profile underlying the progression from low–intermediate risk myeloma precursor conditions to MM was studied in serial BM smears. A custom capture-based sequencing platform was developed, including 81 myeloma-related genes. The clonal evolution of single nucleotide variants and short insertions and deletions was studied in serial BM smears from 21 progressed precursor patients with a median time of progression of six years. From the 21 patients, four patients had no variation in one of the 81 studied genes. Interestingly, in 16 of the 17 other patients, at least one variant present in MM was also detected in its precursor BM, even years before progression. Here, the variants were present in the pre-stage at a median of 62 months before progression to MM. Studying these paired BM samples contributes to the knowledge of the evolutionary genetic landscape and provides additional insight into the mutational behavior of mutant clones over time throughout progression. [ABSTRACT FROM AUTHOR]

Published

2022

7. P-058: The dynamics of nucleotide variants in the progression from myeloma precursor conditions to multiple myeloma using targeted sequencing of serial bone marrow samples.

Author

Oben, Bénedith, Cosemans, Charlotte, Geerdens, Ellen, Linsen, Loes, Vanhees, Kimberly, Maes, Brigitte, Theunissen, Koen, Cruys, Bert, Lionetti, Marta, Arijs, Ingrid, Bolli, Niccolò, Froyen, Guy, and Rummens, Jean-Luc

Published

2021

8. Glycolytic regulation of cell rearrangement in angiogenesis.

Author

Cruys, Bert, Wong, Brian W., Kuchnio, Anna, Verdegem, Dries, Cantelmo, Anna Rita, Conradi, Lena-Christin, Vandekeere, Saar, Bouché, Ann, Cornelissen, Ivo, Vinckier, Stefan, Merks, Roeland M. H., Dejana, Elisabetta, Gerhardt, Holger, Dewerchin, Mieke, Bentley, Katie, and Carmeliet, Peter

Published

2016