Your search keyword '"Van Raemdonck G"' showing total 14 results

1. Numerical and Wind Tunnel Analysis Together with Road Test of Aerodynamic Add-Ons for Trailers

Author

van Raemdonck, G. M. R., van Tooren, M. J. L., Pfeiffer, Friedrich, Series editor, Wriggers, Peter, Series editor, Dillmann, Andreas, editor, and Orellano, Alexander, editor

Published

2016

2. Numerical and Wind Tunnel Analysis Together with Road Test of Aerodynamic Add-Ons for Trailers

Author

van Raemdonck, G. M. R., primary and van Tooren, M. J. L., additional

Published

2015

3. 166 Mitochondrial stress responses in bovine cumulus cells and oocytes matured under lipotoxic conditions: a proteomic insight

Author

Marei, W. F. A., primary, Van Raemdonck, G., additional, Baggerman, G., additional, Bols, P. E. J., additional, and Leroy, J. L. M. R., additional

Published

2019

4. Chronic exposure to multiple stressors alters the salivary proteome of piglets.

Author

Prims S, Van Ostade X, Ayuso M, Dom M, Van Raemdonck G, Van Cruchten S, Casteleyn C, and Van Ginneken C

Subjects

Animals, Swine, Biomarkers metabolism, Saliva metabolism, Animal Welfare, Proteome metabolism, Salivary Proteins and Peptides metabolism

Abstract

Monitoring chronic stress in pigs is not only essential in view of animal welfare but is also important for the farmer, given that stress influences the zootechnical performance of the pigs and increases their susceptibility to infectious diseases. To investigate the use of saliva as a non-invasive, objective chronic stress monitoring tool, twenty-four 4-day-old piglets were transferred to artificial brooders. At the age of 7 days, they were assigned to either the control or the stressed group and reared for three weeks. Piglets in the stressed group were exposed to overcrowding, absence of cage enrichment, and frequent mixing of animals between pens. Shotgun analysis using an isobaric labelling method (iTRAQ) for tandem mass spectrometry performed on saliva samples taken after three weeks of chronic stress identified 392 proteins, of which 20 proteins displayed significantly altered concentrations. From these 20 proteins, eight were selected for further validation using parallel reaction monitoring (PRM). For this validation, saliva samples that were taken one week after the start of the experiment and samples that were taken at the end of the experiment were analysed to verify the profile over time. We wanted to investigate whether the candidate biomarkers responded fast or rather slowly to the onset of chronic exposure to multiple stressors. Furthermore, this validation could indicate whether age influenced the baseline concentrations of these salivary proteins, both in healthy and stressed animals. This targeted PRM analysis confirmed that alpha-2-HS-glycoprotein was upregulated in the stressed group after one and three weeks, while odorant-binding protein, chitinase, long palate lung and nasal epithelium protein 5, lipocalin-1, and vomeromodulin-like protein were present in lower concentrations in the saliva of the stressed pigs, albeit only after three weeks. These results indicate that the porcine salivary proteome is altered by chronic exposure to multiple stressors. The affected proteins could be used as salivary biomarkers to identify welfare problems at the farm and facilitate research to optimise rearing conditions., Competing Interests: The authors have declared that no competing interests exist., (Copyright: © 2023 Prims et al. This is an open access article distributed under the terms of the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are credited.)

Published

2023

5. Starch biosynthesis contributes to the maintenance of photosynthesis and leaf growth under drought stress in maize.

Author

AbdElgawad H, Avramova V, Baggerman G, Van Raemdonck G, Valkenborg D, Van Ostade X, Guisez Y, Prinsen E, Asard H, Van den Ende W, and Beemster GTS

Subjects

Amino Acids metabolism, Antioxidants metabolism, Cell Division, Dehydration, Gene Expression Regulation, Plant, Mutation, Photosynthesis physiology, Plant Leaves physiology, Plant Proteins genetics, Plant Stomata physiology, Starch biosynthesis, Zea mays cytology, Droughts, Plant Leaves growth & development, Plant Proteins metabolism, Starch metabolism, Zea mays physiology

Abstract

To understand the growth response to drought, we performed a proteomics study in the leaf growth zone of maize (Zea mays L.) seedlings and functionally characterized the role of starch biosynthesis in the regulation of growth, photosynthesis and antioxidant capacity, using the shrunken-2 mutant (sh2), defective in ADP-glucose pyrophosphorylase. Drought altered the abundance of 284 proteins overrepresented for photosynthesis, amino acid, sugar and starch metabolism, and redox-regulation. Changes in protein levels correlated with enzyme activities (increased ATP synthase, cysteine synthase, starch synthase, RuBisCo, peroxiredoxin, glutaredoxin, thioredoxin and decreased triosephosphate isomerase, ferredoxin, cellulose synthase activities, respectively) and metabolite concentrations (increased ATP, cysteine, glycine, serine, starch, proline and decreased cellulose levels). The sh2 mutant showed a reduced increase of starch levels under drought conditions, leading to soluble sugar starvation at the end of the night and correlating with an inhibition of leaf growth rates. Increased RuBisCo activity and pigment concentrations observed in WT, in response to drought, were lacking in the mutant, which suffered more oxidative damage and recovered more slowly after re-watering. These results demonstrate that starch biosynthesis contributes to maintaining leaf growth under drought stress and facilitates enhanced carbon acquisition upon recovery., (© 2020 John Wiley & Sons Ltd.)

Published

2020

6. Separation efficiency kinetics of capillary flow micro-pillar array columns for liquid chromatography.

Author

Desmet G, de Beeck JO, Van Raemdonck G, Van Mol K, Claerebout B, Van Landuyt N, and Jacobs P

Subjects

Kinetics, Pressure, Chromatography, High Pressure Liquid methods

Abstract

We report on a comparative study of the basic separation kinetics of commercial packed bed columns and a micro-pillar array column (μPAC) working in the 1-10μL/min flow rate range, i.e., operating in the area of capillary flow LC. This is done using a basic test mixture of 8 alkylphenones under both isocratic and gradient separation conditions. Care was taken the μPAC and the packed bed columns have similar volumes (around 10μL) and hence also similar t 0 -times when compared at the same flow rate. In addition, the isocratic mobile phase composition and gradient programs were selected such to have similar elution windows (in absolute times) for all 4 column types. It was found that the μPAC produces significantly more theoretical plates (up to 3 times) in the 1-4μL/min range, while, the packed bed columns perform better at the higher flow rates because of the relatively large inter-pillar distance in the μPAC. Under gradient conditions, the μPAC produces a clearly higher peak capacity than any of the three packed bed columns over the entire range of investigated flow rates, albeit that this is also partly to be owed to the steeper gradient that needed to be used in the μPAC in order to maintain a similar elution window on all columns., Competing Interests: Declaration of Competing Interest GD is a shareholder and founder of PharmaFluidcs NV, commercializing micro-pillar array columns, PJ is a shareholder and founder of PharmaFluidcs NV, commercializing micro-pillar array columns, All other authors are employees of PharmaFluidcs NV, (Copyright © 2020. Published by Elsevier B.V.)

Published

2020

7. Redox homeostasis in the growth zone of the rice leaf plays a key role in cold tolerance.

Author

Gázquez A, Abdelgawad H, Baggerman G, Van Raemdonck G, Asard H, Maiale SJ, Rodríguez AA, and Beemster GTS

Subjects

Cold Temperature, Homeostasis, Oxidation-Reduction, Plant Leaves growth & development, Proteome, Acclimatization, Antioxidants metabolism, Oryza physiology, Plant Leaves metabolism

Abstract

We analysed the cellular and molecular changes in the leaf growth zone of tolerant and sensitive rice varieties in response to suboptimal temperatures. Cold reduced the final leaf length by 35% and 51% in tolerant and sensitive varieties, respectively. Tolerant lines exhibited a smaller reduction of the leaf elongation rate and greater compensation by an increased duration of leaf growth. Kinematic analysis showed that cold reduced cell production in the meristem and the expansion rate in the elongation zone, but the latter was compensated for by a doubling of the duration of cell expansion. We performed iTRAQ proteome analysis on proliferating and expanding parts of the leaf growth zone. We identified 559 and 542 proteins, of which 163 and 210 were differentially expressed between zones, and 96 and 68 between treatments, in the tolerant and sensitive lines, respectively. The categories protein biosynthesis and redox homeostasis were significantly overrepresented in the up-regulated proteins. We therefore measured redox metabolites and enzyme activities in the leaf growth zone, demonstrating that tolerance of rice lines to suboptimal temperatures correlates with the ability to up-regulate enzymatic antioxidants in the meristem and non-enzymatic antioxidants in the elongation zone., (© The Author(s) 2019. Published by Oxford University Press on behalf of the Society for Experimental Biology. All rights reserved. For permissions, please email: journals.permissions@oup.com.)

Published

2020

8. Improved Sensitivity in Low-Input Proteomics Using Micropillar Array-Based Chromatography.

Author

Stadlmann J, Hudecz O, Krššáková G, Ctortecka C, Van Raemdonck G, Op De Beeck J, Desmet G, Penninger JM, Jacobs P, and Mechtler K

Subjects

Chromatography, High Pressure Liquid methods, HeLa Cells, Humans, Spectrometry, Mass, Electrospray Ionization methods, Tandem Mass Spectrometry methods, Proteins analysis, Proteomics methods

Abstract

Capitalizing on the massive increase in sample concentrations which are produced by extremely low elution volumes, nanoliquid chromatography-electrospray ionization-tandem mass spectrometry (nano-LC-ESI-MS/MS) is currently one of the most sensitive analytical technologies for the comprehensive characterization of complex protein samples. However, despite tremendous technological improvements made in the production and the packing of monodisperse spherical particles for nanoflow high-pressure liquid chromatography (HPLC), current state-of-the-art systems still suffer from limits in operation at the maximum potential of the technology. With the recent introduction of the μPAC system, which provides perfectly ordered micropillar array based chromatographic support materials, completely new chromatographic concepts for optimization toward the needs of ultrasensitive proteomics become available. Here we report on a series of benchmarking experiments comparing the performance of a commercially available 50 cm micropillar array column to a widely used nanoflow HPLC column for the proteomics analysis of 10 ng of tryptic HeLa cell digest. Comparative analysis of LC-MS/MS-data corroborated that micropillar array cartridges provide outstanding chromatographic performance, excellent retention time stability, and increased sensitivity in the analysis of low-input proteomics samples and thus repeatedly yielded almost twice as many unique peptide and unique protein group identifications when compared to conventional nanoflow HPLC columns.

Published

2019

9. MALDI Mass Spectrometry Imaging Linked with Top-Down Proteomics as a Tool to Study the Non-Small-Cell Lung Cancer Tumor Microenvironment.

Author

Berghmans E, Van Raemdonck G, Schildermans K, Willems H, Boonen K, Maes E, Mertens I, Pauwels P, and Baggerman G

Abstract

Advanced non-small-cell lung cancer (NSCLC) is generally linked with a poor prognosis and is one of the leading causes of cancer-related deaths worldwide. Since only a minority of the patients respond well to chemotherapy and/or targeted therapies, immunotherapy might be a valid alternative in the lung cancer treatment field, as immunotherapy attempts to strengthen the body's own immune response to recognize and eliminate malignant tumor cells. However, positive response patterns to immunotherapy remain unclear. In this study, we demonstrate how immune-related factors could be visualized from single NSCLC tissue sections (Biobank@UZA) while retaining their spatial information by using matrix assisted laser desorption/ionization (MALDI) mass spectrometry imaging (MSI), in order to unravel the molecular profile of NSCLC patients. In this way, different regions in lung cancerous tissues could be discriminated based on the molecular composition. In addition, we linked visualization (MALDI MSI) and identification (based on liquid chromatography higher resolution mass spectrometry) of the molecules of interest for the correct biological interpretation of the observed molecular differences within the area in which these molecules are detected. This is of major importance to fully understand the underlying molecular profile of the NSCLC tumor microenvironment., Competing Interests: The authors declare no conflict of interest.

Published

2019

10. On the characterisation of the porcine gland-specific salivary proteome.

Author

Prims S, Van Raemdonck G, Vanden Hole C, Van Cruchten S, Van Ginneken C, Van Ostade X, and Casteleyn C

Subjects

Animals, Isoproterenol pharmacology, Pilocarpine pharmacology, Swine, Parotid Gland metabolism, Proteome metabolism, Salivary Proteins and Peptides metabolism, Sublingual Gland metabolism

Abstract

To expand the knowledge on the porcine salivary proteome, secretions from the three major salivary glands were collected from anaesthetised piglets. Pilocarpine and isoproterenol were simultaneously injected intraperitoneally to increase the volume and protein concentration of the saliva, respectively. The protein composition and relative protein-specific abundance of saliva secreted by the parotid gland and by the mandibular and monostomatic sublingual gland, were determined using iTRAQ. When combining two detection methods, MALDI-TOF/TOF MS and Q-Exactive orbitrap MS/MS, a total of 122 porcine salivary proteins and 6 mammalian salivary proteins with a predicted porcine homolog were identified. Only a quantitative and not a qualitative difference was observed between both ductal secretions. The 128 proteins were detected in both secretions, however, at different levels. Twenty-four proteins (20 porcine and 4 mammalian with a predicted porcine homolog) were predominantly secreted by the parotid gland, such as carbonic anhydrase VI and alpha-amylase. Twenty-nine proteins (all porcine) were predominantly secreted by the mandibular and sublingual glands, for example salivary lipocalin and submaxillary apomucin protein. Data are available via ProteomeXchange with identifier PXD008853. SIGNIFICANCE: In humans, more than 3000 salivary proteins have been identified. To our knowledge, previous studies on porcine saliva only identified a total of 34 proteins. This research increased the total number of identified proteins in porcine saliva to 143. This insight into the porcine salivary proteome will facilitate the search for potential biomarkers that may help in the early detection of pathologies and follow-up of animal welfare. Moreover, it can also endorse the value of a porcine animal model and contribute to a better understanding of the animal's physiology. Additionally, this was the first study to collect and analyse gland specific saliva of pigs. The obtained relative-quantitative knowledge of the identified proteins is valuable when comparing data of stimulated (chewing on a device) vs. unstimulated (passive) saliva collection in the future, since salivary stimulation changes the relative contribution of the major salivary glands to the whole saliva in the oral cavity. For example, carbonic anhydrase VI, which is present in higher concentrations in parotid saliva, has a higher concentration in stimulated whole saliva because of the larger contribution of the parotid gland after stimulation by chewing., (Copyright © 2019 Elsevier B.V. All rights reserved.)

Published

2019

11. Proteomic changes in oocytes after in vitro maturation in lipotoxic conditions are different from those in cumulus cells.

Author

Marei WFA, Van Raemdonck G, Baggerman G, Bols PEJ, and Leroy JLMR

Subjects

Animals, Apoptosis drug effects, Blastocyst cytology, Blastocyst physiology, Cattle, Cumulus Cells drug effects, Embryo Culture Techniques, Female, Male, Mitochondria drug effects, Oocytes drug effects, Oxidative Stress drug effects, Proteomics, Reactive Oxygen Species metabolism, Cumulus Cells metabolism, In Vitro Oocyte Maturation Techniques methods, Oocytes metabolism, Palmitic Acid toxicity, Proteins metabolism

Abstract

Maternal lipolytic metabolic disorders result in a lipotoxic microenvironment in the ovarian follicular fluid (FF) which deteriorates oocyte quality. Although cellular stress response mechanisms are well defined in somatic cells, they remain largely unexplored in oocytes, which have distinct organelle structure and nuclear transcription patterns. Here we used shotgun proteomic analyses to study cellular responses of bovine oocytes and cumulus cells (CCs) after in vitro maturation under lipotoxic conditions; in the presence of pathophysiological palmitic acid (PA) concentration as a model. Differentially regulated proteins (DRPs) were mainly localized in the endoplasmic reticulum, mitochondria and nuclei of CCs and oocytes, however the DRPs and their direction of change were cell-type specific. Proteomic changes in PA-exposed CCs were predominantly pro-apoptotic unfolded protein responses (UPRs), mitochondrial and metabolic dysfunctions, and apoptotic pathways. This was also functionally confirmed. Interestingly, although the oocytes were enclosed by CCs during PA exposure, elevated cellular stress levels were also evident. However, pro-survival UPRs, redox regulatory and compensatory metabolic mechanisms were prominent despite evidence of mitochondrial dysfunction, oxidative stress, and reduced subsequent embryo development. The data provides a unique insight that enriches the understanding of the cellular stress responses in metabolically-compromised oocytes and forms a fundamental base to identify new targets for fertility treatments as discussed within.

Published

2019

12. Ethylene Receptors, CTRs and EIN2 Target Protein Identification and Quantification Through Parallel Reaction Monitoring During Tomato Fruit Ripening.

Author

Mata CI, Fabre B, Parsons HT, Hertog MLATM, Van Raemdonck G, Baggerman G, Van de Poel B, Lilley KS, and Nicolaï BM

Abstract

Ethylene, the plant ripening hormone of climacteric fruit, is perceived by ethylene receptors which is the first step in the complex ethylene signal transduction pathway. Much progress has been made in elucidating the mechanism of this pathway, but there is still a lot to be done in the proteomic quantification of the main proteins involved, particularly during fruit ripening. This work focuses on the mass spectrometry based identification and quantification of the ethylene receptors (ETRs) and the downstream components of the pathway, CTR-like proteins (CTRs) and ETHYLENE INSENSITIVE 2 (EIN2). We used tomato as a model fruit to study changes in protein abundance involved in the ethylene signal transduction during fruit ripening. In order to detect and quantify these low abundant proteins located in the membrane of the endoplasmic reticulum, we developed a workflow comprising sample fractionation and MS analysis using parallel reaction monitoring. This work shows the feasibility of the identification and absolute quantification of all seven ethylene receptors, three out of four CTRs and EIN2 in four ripening stages of tomato. In parallel, gene expression was analyzed through real-time qPCR. Correlation between transcriptomic and proteomic profiles during ripening was only observed for three of the studied proteins, suggesting that the other signaling proteins are likely post-transcriptionally regulated. Based on our quantification results we were able to show that the protein levels of SlETR3 and SlETR4 increased during ripening, probably to control ethylene sensitivity. The other receptors and CTRs showed either stable levels that could sustain, or decreasing levels that could promote fruit ripening.

Published

2018

13. The effect of reactive oxygen and nitrogen species on the structure of cytoglobin: A potential tumor suppressor.

Author

De Backer J, Razzokov J, Hammerschmid D, Mensch C, Hafideddine Z, Kumar N, van Raemdonck G, Yusupov M, Van Doorslaer S, Johannessen C, Sobott F, Bogaerts A, and Dewilde S

Subjects

Humans, Models, Molecular, Neoplasms metabolism, Oxidation-Reduction, Protein Conformation, Recombinant Proteins chemistry, Recombinant Proteins metabolism, Cytoglobin chemistry, Cytoglobin metabolism, Oxidative Stress, Reactive Nitrogen Species metabolism, Reactive Oxygen Species metabolism

Abstract

Many current anti-cancer therapies rely on increasing the intracellular reactive oxygen and nitrogen species (RONS) contents with the aim to induce irreparable damage, which subsequently results in tumor cell death. A novel tool in cancer therapy is the use of cold atmospheric plasma (CAP), which has been found to be very effective in the treatment of many different cancer cell types in vitro as well as in vivo, mainly through the vast generation of RONS. One of the key determinants of the cell's fate will be the interaction of RONS, generated by CAP, with important proteins, i.e. redox-regulatory proteins. One such protein is cytoglobin (CYGB), a recently discovered globin proposed to be involved in the protection of the cell against oxidative stress. In this study, the effect of plasma-produced RONS on CYGB was investigated through the treatment of CYGB with CAP for different treatment times. Spectroscopic analysis of CYGB showed that although chemical modifications occur, its secondary structure remains intact. Mass spectrometry experiments identified these modifications as oxidations of mainly sulfur-containing and aromatic amino acids. With longer treatment time, the treatment was also found to induce nitration of the heme. Furthermore, the two surface-exposed cysteine residues of CYGB were oxidized upon treatment, leading to the formation of intermolecular disulfide bridges, and potentially also intramolecular disulfide bridges. In addition, molecular dynamics and docking simulations confirmed, and further show, that the formation of an intramolecular disulfide bond, due to oxidative conditions, affects the CYGB 3D structure, thereby opening the access to the heme group, through gate functioning of His 117 . Altogether, the results obtained in this study (1) show that plasma-produced RONS can extensively oxidize proteins and (2) that the oxidation status of two redox-active cysteines lead to different conformations of CYGB., (Copyright © 2018 The Authors. Published by Elsevier B.V. All rights reserved.)

Published

2018

14. Candidate biomarkers in the cervical vaginal fluid for the (self-)diagnosis of cervical precancer.

Author

Van Ostade X, Dom M, Tjalma W, and Van Raemdonck G

Subjects

Adult, DNA Methylation, Female, Humans, Mass Screening, Middle Aged, Papillomaviridae physiology, Papillomavirus Infections diagnosis, Precancerous Conditions metabolism, Uterine Cervical Dysplasia diagnosis, Uterine Cervical Neoplasms diagnosis, Uterine Cervical Neoplasms virology, Vaginal Smears, Biomarkers, Tumor metabolism, Body Fluids metabolism, Cervix Uteri metabolism, Neoplasm Proteins metabolism, Uterine Cervical Neoplasms metabolism, Vagina metabolism

Abstract

Purpose: Despite improvement in vaccines against human papilloma virus (HPV), the causative agent of cervical cancer, screening women for cervical precancer will remain indispensable in the coming 30-40 years. A simple test that could be performed at home or at a doctor's practice and that informs the woman whether she is at risk would significantly help make a broader group of patients who aware that they need medical treatment. Cervical vaginal fluid (CVF) is a body fluid that is very well suited for such a test., Methods: Narrative review of cervical (pre)cancer candidate biomarkers from cervicovaginal fluid, is based on a detailed review of the literature. We will also discuss the possibilities that these biomarkers create for the development of a self-test or point-of-care test for cervical (pre)cancer., Results: Several DNA, DNA methylation, miRNA, and protein biomarkers were identified in the cervical vaginal fluid; however, not all of these biomarkers are suited for development of a simple diagnostic assay., Conclusions: Proteins, especially alpha-actinin-4, are most suited for development of a simple assay for cervical (pre)cancer. Accuracy of the test could further be improved by combination of several proteins or by combination with a new type of biomarker, e.g., originating from the cervicovaginal microbiome or metabolome.

Published

2018