Your search keyword '"De Coster T"' showing total 42 results

1. Genome-wide equine preimplantation genetic testing enabled by simultaneous haplotyping and copy number detection

Author

De Coster, T., Zhao, Y., Tšuiko, O., Demyda-Peyrás, S., Van Soom, A., Vermeesch, J. R., and Smits, K.

Published

2024

2. Coulomb excitation of re-accelerated 208Rn and 206Po beams

Author

Grahn T., Albers M., Auranen K., Bauer C., Bernards C., Blazhev A., Butler P., Bönig S., Damyanova A., De Coster T., De Witte H., Elseviers J., Gaffney L. P., Huyse M., Herzáň A., Jakobsson U., Kesteloot N., Konki J., Kröll Th., Lewandowski L., Mosher K., Pakarinen J., Peura P., Pfeiffer M., Radeck D., Rahkila P., Rapisarda E., Reiter P., Reynders K., Rudiger M., Salsac M.-D., Sambi S., Scheck M., Siebeck B., Seidlitz M., Steinbach T., Stolze S., Thoele P., Thürauf M., Warr N., Van Duppen P., Venhart M., Vermeulen M. J., Werner V., Veselsky M., Vogt A., Wenander F., Wrzosek-Lipska K., and Zielinska M.

Subjects

Physics, QC1-999

Abstract

In the present study, B(E2; 2+ → 0+) values have been measured in the 208Rn and 206Po nuclei through Coulomb excitation of re-accelerated radioactive beams in inverse kinematics at CERN-ISOLDE. The resulting B(E2; 2+ → 0+) in 208Rn is ∼ 0.08 e2b2. These nuclei lie in, or at the boundary of the region where seniority scheme should persist. However, contributions from collective excitations may be present when moving away from the N = 126 shell closure. To date, surprisingly little is known of the transition probabilities between the low-spin states in this region.

Published

2013

3. Single closed-tube quantitative real-time PCR assay with dual-labelled probes for improved sex determination of equine embryos

Author

De Coster, T., Van Poucke, M., Bogado Pascottini, O., Angel-Velez, D., Van den Branden, E., Peere, S., Papas, M., Gerits, I., Govaere, J., Peelman, L., Vermeesch, J.R., Van Soom, A., and Smits, K.

Published

2023

4. Real-time (re)shaping of cardiac action potentials by an opto-electronic feedback control system in the multicellular setting

Author

Ordog, B, primary, De Coster, T, additional, Bart, C I, additional, Zhang, J, additional, Boink, G J J, additional, Bax, W, additional, Deng, S, additional, Den Ouden, B L, additional, De Vries, A A F, additional, and Pijnappels, D A, additional

Published

2024

5. Exploring translational approaches for fully biological cardiac rhythm restoration through ion channel gene therapy

Author

De Coster, T, primary, Ordog, B, additional, De Vries, A A F, additional, Panfilov, A V, additional, and Pijnappels, D A, additional

Published

2024

6. Translational exploration of fully biological restoration of cardiac rhythm via ion channel gene therapy

Author

De Coster, T, primary, Ordog, B O, additional, De Vries, A A F, additional, Panfilov, A V, additional, and Pijnappels, D A, additional

Published

2024

7. Recent advancements in the control of Taenia solium: A systematic review

Author

de Coster, T., Van Damme, I., Baauw, J., and Gabriël, S.

Published

2018

8. Trapped re-entry challenges the binary view on cardiac arrhythmias

Author

De Coster, T, primary, Teplenin, A S, additional, Feola, I, additional, Bart, C I, additional, Ramkisoensing, A A, additional, Ypey, D L, additional, Panfilov, A V, additional, Zeppenfeld, K, additional, De Vries, A A F, additional, and Pijnappels, D A, additional

Published

2023

9. An opto-electronic control system for real-time complete (re)shaping of cardiac action potentials on a multicellular scale

Author

Ordog, B, primary, De Coster, T, additional, Dekker, S O, additional, Bart, C I, additional, Zhang, J, additional, Deng, S, additional, Den Ouden, B L, additional, De Vries, A F, additional, and Pinappels, D A, additional

Published

2023

10. Sbk2, a Newly Discovered Atrium-Enriched Regulator of Sarcomere Integrity

Author

van Gorp, P R R, Zhang, J, Liu, J, Tsonaka, R, Mei, H, Dekker, S O, Bart, C I, De Coster, T, Post, H, Heck, A J R, Schalij, M J, Atsma, D E, Pijnappels, D A, de Vries, A A F, Afd Biomol.Mass Spect. and Proteomics, Sub Biomol.Mass Spectrometry & Proteom., Biomolecular Mass Spectrometry and Proteomics, Afd Biomol.Mass Spect. and Proteomics, Sub Biomol.Mass Spectrometry & Proteom., and Biomolecular Mass Spectrometry and Proteomics

Subjects

protein kinases, sequence analysis, Physiology, cardiac, Myocardium, Cell Differentiation, cell line, myocytes, sequence analysis, RNA, sarcomeres, Rats, Animals, RNA, Myocytes, Cardiac, myocytes, cardiac, Heart Atria, Cardiology and Cardiovascular Medicine

Abstract

Background: Heart development relies on tight spatiotemporal control of cardiac gene expression. Genes involved in this intricate process have been identified using animals and pluripotent stem cell-based models of cardio(myo)genesis. Recently, the repertoire of cardiomyocyte differentiation models has been expanded with iAM-1, a monoclonal line of conditionally immortalized neonatal rat atrial myocytes (NRAMs), which allows toggling between proliferative and differentiated (ie, excitable and contractile) phenotypes in a synchronized and homogenous manner. Methods: In this study, the unique properties of conditionally immortalized NRAMs (iAMs) were exploited to identify and characterize (lowly expressed) genes with an as-of-yet uncharacterized role in cardiomyocyte differentiation. Results: Transcriptome analysis of iAM-1 cells at different stages during one cycle of differentiation and subsequent dedifferentiation identified ≈13 000 transcripts, of which the dynamic changes in expression upon cardiomyogenic differentiation mostly opposed those during dedifferentiation. Among the genes whose expression increased during differentiation and decreased during dedifferentiation were many with known (lineage-specific) functions in cardiac muscle formation. Filtering for cardiac-enriched low-abundance transcripts, identified multiple genes with an uncharacterized role during cardio(myo)genesis including Sbk2 (SH3 domain binding kinase family member 2). Sbk2 encodes an evolutionarily conserved putative serine/threonine protein kinase, whose expression is strongly up- and downregulated during iAM-1 cell differentiation and dedifferentiation, respectively. In neonatal and adult rats, the protein is muscle-specific, highly atrium-enriched, and localized around the A-band of cardiac sarcomeres. Knockdown of Sbk2 expression caused loss of sarcomeric organization in NRAMs, iAMs and their human counterparts, consistent with a decrease in sarcomeric gene expression as evinced by transcriptome and proteome analyses. Interestingly, co-immunoprecipitation using Sbk2 as bait identified possible interaction partners with diverse cellular functions (translation, intracellular trafficking, cytoskeletal organization, chromatin modification, sarcomere formation). Conclusions: iAM-1 cells are a relevant and suitable model to identify (lowly expressed) genes with a hitherto unidentified role in cardiomyocyte differentiation as exemplified by Sbk2: a regulator of atrial sarcomerogenesis.

Published

2022

11. Sbk2, a Newly Discovered Atrium-Enriched Regulator of Sarcomere Integrity

Author

Afd Biomol.Mass Spect. and Proteomics, Sub Biomol.Mass Spectrometry & Proteom., Biomolecular Mass Spectrometry and Proteomics, van Gorp, P R R, Zhang, J, Liu, J, Tsonaka, R, Mei, H, Dekker, S O, Bart, C I, De Coster, T, Post, H, Heck, A J R, Schalij, M J, Atsma, D E, Pijnappels, D A, de Vries, A A F, Afd Biomol.Mass Spect. and Proteomics, Sub Biomol.Mass Spectrometry & Proteom., Biomolecular Mass Spectrometry and Proteomics, van Gorp, P R R, Zhang, J, Liu, J, Tsonaka, R, Mei, H, Dekker, S O, Bart, C I, De Coster, T, Post, H, Heck, A J R, Schalij, M J, Atsma, D E, Pijnappels, D A, and de Vries, A A F

Published

2022

12. Trapped re-entry: a dormant source of arrhythmia

Author

De Coster, T, primary, Teplenin, AS, additional, Feola, I, additional, Van Brakel, T, additional, Zeppenfeld, K, additional, Ypey, D, additional, Panfilov, AV, additional, De Vries, AAF, additional, and Pijnappels, DA, additional

Published

2022

13. Identification of electrical rotational activity in noisy cardiac tissue recordings using a deep neural network

Author

De Coster, T, primary, Kudryashova, N, additional, Derevyanko, G, additional, De Vries, AAF, additional, Pijnappels, DA, additional, and Panfilov, AV, additional

Published

2022

14. Computational translational exploration of fully biological restoration of cardiac rhythm via ion channel gene therapy

Author

De Coster, T, primary, Ordog, B, additional, De Vries, AAF, additional, Panfilov, AV, additional, and Pijnappels, DA, additional

Published

2022

15. 51 Genome-wide abnormalities resulting from heterogoneic cell division persist in the blastocyst-stage bovine embryo

Author

De Coster, T, Masset, H, Tsuiko, O, Smits, K, Van Soom, A, and Vermeesch, J

Abstract

ispartof: Reprod Fertil Dev vol:34 issue:2 pages:260-261 ispartof: location:Australia status: published

Published

2021

16. Emancipating a Neo-liberal society? Initial thoughts on the progressive pedagogical heritage in Flanders since the 1960s.

Author

De Coster, T., Depaepe, M., and Simon, F.

Published

2004

17. Transcriptome analysis of conditionally immortalized atrial myocytes: identification of a novel atrium-enriched protein involved in sarcomere assembly and maintenance

Author

Van Gorp, P R R, primary, Zhang, J, additional, Liu, J, additional, Tsonaka, R, additional, Mei, H, additional, Dekker, S O, additional, Bart, C I, additional, Schalij, M J, additional, De Coster, T, additional, Atsma, D A, additional, Pijnappels, D A, additional, and De Vries, A A F, additional

Published

2021

18. Realization of fully biological restoration of cardiac rhythm: a computational translational exploration

Author

De Coster, T, primary, Ordog, B, additional, De Vries, A A F, additional, Panfilov, A V, additional, and Pijnappels, D A, additional

Published

2021

19. Anatomical Model of Rat Ventricles to Study Cardiac Arrhythmias under Infarction Injury

Author

Rokeakh, R., Nesterova, T., Ushenin, K., Polyakova, E., Sonin, D., Galagudza, M., De Coster, T., Panfilov, A., Solovyova, O., Rokeakh, R., Nesterova, T., Ushenin, K., Polyakova, E., Sonin, D., Galagudza, M., De Coster, T., Panfilov, A., and Solovyova, O.

Abstract

Species-specific computer models of the heart are a novel powerful tool in studies of life-threatening cardiac arrhythmias. Here, we develop such a model aimed at studying infarction injury in a rat heart, the most common experimental system to investigate the effects of myocardial damage. We updated the Gattoni2016 cellular ionic model by fitting its parameters to experimental data using a population modeling approach. Using four selected cellular models, we studied 2D spiral wave dynamics and found that they include meandering and break-up. Then, using an anatomically realistic ventricular geometry and fiber orientation in the rat heart, we built a model with a postinfarction scar to study the electrophysiological effects of myocardial damage. A post-infarction scar was simulated as an inexcitable obstacle surrounded by a border zone with modified cardiomyocyte properties. For cellular models, we studied the rotation of scroll waves and found that, depending on the model, we can observe different types of dynamics: anchoring, self-termination or stable rotation of the scroll wave. The observed arrhythmia characteristics coincide with those measured in the experiment. The developed model can be used to study arrhythmia in rat hearts with myocardial damage from ischemia reperfusion and to examine the possible arrhythmogenic effects of various experimental interventions. © 2021 by the authors. Licensee MDPI, Basel, Switzerland.

Published

2021

20. Self-restoration of cardiac excitation rhythm by anti-arrhythmic ion channel gating

Author

Majumder, R., De Coster, T., Kudryashova, N., Verkerk, A. O., Kazbanov, I. V., Ördög, B., Harlaar, N., Wilders, R., de Vries, A. A. F., Ypey, D. L., Panfilov, A. V., Pijnappels, D. A., Majumder, R., De Coster, T., Kudryashova, N., Verkerk, A. O., Kazbanov, I. V., Ördög, B., Harlaar, N., Wilders, R., de Vries, A. A. F., Ypey, D. L., Panfilov, A. V., and Pijnappels, D. A.

Abstract

Homeostatic regulation protects organisms against hazardous physiological changes. However, such regulation is limited in certain organs and associated biological processes. For example, the heart fails to self-restore its normal electrical activity once disturbed, as with sustained arrhythmias. Here we present proof-of-concept of a biological self-restoring system that allows automatic detection and correction of such abnormal excitation rhythms. For the heart, its realization involves the integration of ion channels with newly designed gating properties into cardiomyocytes. This allows cardiac tissue to i) discriminate between normal rhythm and arrhythmia based on frequency-dependent gating and ii) generate an ionic current for termination of the detected arrhythmia. We show in silico, that for both human atrial and ventricular arrhythmias, activation of these channels leads to rapid and repeated restoration of normal excitation rhythm. Experimental validation is provided by injecting the designed channel current for arrhythmia termination in human atrial myocytes using dynamic clamp. © Majumder et al.

Published

2020

21. “Trapped reentry” as a dormant source of acute focal arrhythmia and fractionated atrial electrograms under sinus rhythm

Author

De Coster, T, primary, Teplenin, A.S, additional, Feola, I, additional, Van Brakel, T.J, additional, De Vries, A.A.F, additional, Zeppenfeld, K, additional, and Pijnappels, D.A, additional

Published

2020

22. 1275First evidence of "trapped reentry" as dormant source of acute atrial fibrillation and fractionated atrial electrograms under sinus rhythm

Author

De Coster, T, primary, Teplenin, A S, additional, Feola, I, additional, Van Brakel, T J, additional, De Vries, A A F, additional, Zeppenfeld, K, additional, and Pijnappels, D A, additional

Published

2020

23. P309Myocyte remodelling due to fibro-fatty infiltrations influences arrhythmogenicity

Author

De Coster, T, primary, Claus, P, additional, and Panfilov, A, additional

Published

2018

24. Collective 2(1)(+) excitations in Po-206 and Rn-208,Rn-210

Author

Grahn, T, Pakarinen, J, Jokiniemi, L, Albers, M, Auranen, K, Bauer, C, Bernards, C, Blazhev, A, Butler, PA, Boenig, S, Damyanova, A, De Coster, T, De Witte, H, Elseviers, J, Gaffney, LP, Huyse, M, Herzan, A, Jakobsson, U, Julin, R, Kesteloot, N, Konki, J, Kroell, Th, Lewandowski, L, Moschner, K, Peura, P, Pfeiffer, M, Radeck, D, Rahkila, P, Rapisarda, E, Reiter, P, Reynders, K, Rudiger, M, Salsac, M-D, Sambi, S, Scheck, M, Seidlitz, M, Siebeck, B, Steinbach, T, Stolze, S, Suhonen, J, Thoele, P, Thuerauf, M, Warr, N, Van Duppen, P, Venhart, M, Vermeulen, MJ, Werner, V, Veselsky, M, Vogt, A, Wrzosek-Lipska, K, and Zielinska, M

Subjects

Nuclear Theory, Physics::Accelerator Physics, Nuclear Experiment

Abstract

In the present study, values have been measured in the 208,210Rn and 206Po nuclei through Coulomb excitation of re-accelerated radioactive beams in inverse kinematics at CERN-ISOLDE. These nuclei have been proposed to lie in, or at the boundary of the region where the seniority scheme should persist. However, contributions from collective excitations are likely to be present when moving away from the N=126 closed shell. Such an effect is confirmed by the observed increased collectivity of the transitions. Experimental results have been interpreted with the aid of theoretical studies carried out within the BCS-based QRPA framework. ispartof: European Physical Journal A, Hadrons and Nuclei vol:52 issue:11 status: published

Published

2016

25. Collective 2(1)(+) excitations in Po-206 and Rn-208,Rn-210

Author

Grahn, T., Pakarinen, J., Jokiniemi, L., Albers, M., Auranen, K., Bauer, C., Bernards, C., Blazhev, A., Butler, P. A., Boenig, S., Damyanova, A., De Coster, T., De Witte, H., Elseviers, J., Gaffney, L. P., Huyse, M., Herzan, A., Jakobsson, U., Julin, R., Kesteloot, N., Konki, J., Kroell, Th., Lewandowski, L., Moschner, K., Peura, P., Pfeiffer, M., Radeck, D., Rahkila, P., Rapisarda, E., Reiter, P., Reynders, K., Rudiger, M., Salsac, M. -D., Sambi, S., Scheck, M., Seidlitz, M., Siebeck, B., Steinbach, T., Stolze, S., Suhonen, J., Thoele, P., Thuerauf, M., Warr, N., Van Duppen, P., Venhart, M., Vermeulen, M. J., Werner, V., Veselsky, M., Vogt, A., Wrzosek-Lipska, K., Zielinska, M., Grahn, T., Pakarinen, J., Jokiniemi, L., Albers, M., Auranen, K., Bauer, C., Bernards, C., Blazhev, A., Butler, P. A., Boenig, S., Damyanova, A., De Coster, T., De Witte, H., Elseviers, J., Gaffney, L. P., Huyse, M., Herzan, A., Jakobsson, U., Julin, R., Kesteloot, N., Konki, J., Kroell, Th., Lewandowski, L., Moschner, K., Peura, P., Pfeiffer, M., Radeck, D., Rahkila, P., Rapisarda, E., Reiter, P., Reynders, K., Rudiger, M., Salsac, M. -D., Sambi, S., Scheck, M., Seidlitz, M., Siebeck, B., Steinbach, T., Stolze, S., Suhonen, J., Thoele, P., Thuerauf, M., Warr, N., Van Duppen, P., Venhart, M., Vermeulen, M. J., Werner, V., Veselsky, M., Vogt, A., Wrzosek-Lipska, K., and Zielinska, M.

Abstract

In the present study, B(E2; 2(1)(+) -> 0(1)(+)) values have been measured in the Rn-208,Rn-210 and Po-206 nuclei through Coulomb excitation of re-accelerated radioactive beams in inverse kinematics at CERNISOLDE. These nuclei have been proposed to lie in, or at the boundary of the region where the seniority scheme should persist. However, contributions from collective excitations are likely to be present when moving away from the N = 126 closed shell. Such an effect is confirmed by the observed increased collectivity of the 2(1)(+) -> 0(1)(+) transitions. Experimental results have been interpreted with the aid of theoretical studies carried out within the BCS-based QRPA framework.

Published

2016

26. Coulomb excitation of re-accelerated208Rn and206Po beams

Author

Grahn, T., primary, Albers, M., additional, Auranen, K., additional, Bauer, C., additional, Bernards, C., additional, Blazhev, A., additional, Butler, P., additional, Bönig, S., additional, Damyanova, A., additional, De Coster, T., additional, De Witte, H., additional, Elseviers, J., additional, Gaffney, L. P., additional, Huyse, M., additional, Herzáň, A., additional, Jakobsson, U., additional, Kesteloot, N., additional, Konki, J., additional, Kröll, Th., additional, Lewandowski, L., additional, Mosher, K., additional, Pakarinen, J., additional, Peura, P., additional, Pfeiffer, M., additional, Radeck, D., additional, Rahkila, P., additional, Rapisarda, E., additional, Reiter, P., additional, Reynders, K., additional, Rudiger, M., additional, Salsac, M.-D., additional, Sambi, S., additional, Scheck, M., additional, Siebeck, B., additional, Seidlitz, M., additional, Steinbach, T., additional, Stolze, S., additional, Thoele, P., additional, Thürauf, M., additional, Warr, N., additional, Van Duppen, P., additional, Venhart, M., additional, Vermeulen, M. J., additional, Werner, V., additional, Veselsky, M., additional, Vogt, A., additional, Wenander, F., additional, Wrzosek-Lipska, K., additional, and Zielinska, M., additional

Published

2013

27. Coulomb excitation of re-accelerated 208Rn and 206Po beams.

Author

Grahn, T., Albers, M., Auranen, K., Bauer, C., Bernards, C., Blazhev, A., Butler, P., Bönig, S., Damyanova, A., De Coster, T., De Witte, H., Elseviers, J., Gaffney, L. P., Huyse, M., Herzáň, A., Jakobsson, U., Kesteloot, N., Konki, J., Kröll, Th., and Lewandowski, L.

Subjects

COULOMB excitation, KINEMATICS, RADIOACTIVE nuclear beams, FINITE nuclei, COLLECTIVE excitations

Abstract

In the present study, B(E2; 2+ → 0+) values have been measured in the 208Rn and 206Po nuclei through Coulomb excitation of re-accelerated radioactive beams in inverse kinematics at CERN-ISOLDE. The resulting B(E2; 2+ → 0+) in 208Rn is ~ 0.08 e²b². These nuclei lie in, or at the boundary of the region where seniority scheme should persist. However, contributions from collective excitations may be present when moving away from the N = 126 shell closure. To date, surprisingly little is known of the transition probabilities between the low-spin states in this region. [ABSTRACT FROM AUTHOR]

Published

2013

28. Cactus thorn embedded in the cartilaginous proximal tibia

Author

Stevens, M A, De Coster, T A, and Renwick, S E

Subjects

Cartilage, Articular, Male, Tibia, Child, Preschool, Humans, Foreign Bodies, Magnetic Resonance Imaging, Research Article

Published

1995

29. 'Trapped re-entry' as source of acute focal atrial arrhythmias.

Author

De Coster T, Teplenin AS, Feola I, Bart CI, Ramkisoensing AA, den Ouden BL, Ypey DL, Trines SA, Panfilov AV, Zeppenfeld K, de Vries AAF, and Pijnappels DA

Subjects

Humans, Heart Atria, Ion Channels, Tachycardia pathology, Fibrosis, Atrial Fibrillation

Abstract

Aims: Diseased atria are characterized by functional and structural heterogeneities, adding to abnormal impulse generation and propagation. These heterogeneities are thought to lie at the origin of fractionated electrograms recorded during sinus rhythm (SR) in atrial fibrillation (AF) patients and are assumed to be involved in the onset and perpetuation (e.g. by re-entry) of this disorder. The underlying mechanisms, however, remain incompletely understood. Here, we tested whether regions of dense fibrosis could create an electrically isolated conduction pathway (EICP) in which re-entry could be established via ectopy and local block to become 'trapped'. We also investigated whether this could generate local fractionated electrograms and whether the re-entrant wave could 'escape' and cause a global tachyarrhythmia due to dynamic changes at a connecting isthmus., Methods and Results: To precisely control and explore the geometrical properties of EICPs, we used light-gated depolarizing ion channels and patterned illumination for creating specific non-conducting regions in silico and in vitro. Insight from these studies was used for complementary investigations in virtual human atria with localized fibrosis. We demonstrated that a re-entrant tachyarrhythmia can exist locally within an EICP with SR prevailing in the surrounding tissue and identified conditions under which re-entry could escape from the EICP, thereby converting a local latent arrhythmic source into an active driver with global impact on the heart. In a realistic three-dimensional model of human atria, unipolar epicardial pseudo-electrograms showed fractionation at the site of 'trapped re-entry' in coexistence with regular SR electrograms elsewhere in the atria. Upon escape of the re-entrant wave, acute arrhythmia onset was observed., Conclusions: Trapped re-entry as a latent source of arrhythmogenesis can explain the sudden onset of focal arrhythmias, which are able to transgress into AF. Our study might help to improve the effectiveness of ablation of aberrant cardiac electrical signals in clinical practice., Competing Interests: Conflict of interest: none declared., (© The Author(s) 2023. Published by Oxford University Press on behalf of the European Society of Cardiology.)

Published

2024

30. Opto-electronic feedback control of membrane potential for real-time control of action potentials.

Author

Ördög B, De Coster T, Dekker SO, Bart CI, Zhang J, Boink GJJ, Bax WH, Deng S, den Ouden BL, de Vries AAF, and Pijnappels DA

Subjects

Membrane Potentials, Action Potentials, Feedback, Myocytes, Cardiac

Abstract

To unlock new research possibilities by acquiring control of action potential (AP) morphologies in excitable cells, we developed an opto-electronic feedback loop-based system integrating cellular electrophysiology, real-time computing, and optogenetic approaches and applied it to monolayers of heart muscle cells. This allowed accurate restoration and preservation of cardiac AP morphologies in the presence of electrical perturbations of different origin in an unsupervised, self-regulatory manner, without any prior knowledge of the disturbance. Moreover, arbitrary AP waveforms could be enforced onto these cells. Collectively, these results set the stage for the refinement and application of opto-electronic control systems to enable in-depth investigation into the regulatory role of membrane potential in health and disease., Competing Interests: Declaration of interests The authors declare no competing interests., (Copyright © 2023 The Authors. Published by Elsevier Inc. All rights reserved.)

Published

2023

31. Transcriptomics Reveal Molecular Differences in Equine Oocytes Vitrified before and after In Vitro Maturation.

Author

Angel-Velez D, Meese T, Hedia M, Fernandez-Montoro A, De Coster T, Pascottini OB, Van Nieuwerburgh F, Govaere J, Van Soom A, Pavani K, and Smits K

Subjects

Horses genetics, Animals, Oocytes metabolism, Cryopreservation veterinary, Cryopreservation methods, Vitrification, In Vitro Oocyte Maturation Techniques methods, Transcriptome

Abstract

In the last decade, in vitro embryo production in horses has become an established clinical practice, but blastocyst rates from vitrified equine oocytes remain low. Cryopreservation impairs the oocyte developmental potential, which may be reflected in the messenger RNA (mRNA) profile. Therefore, this study aimed to compare the transcriptome profiles of metaphase II equine oocytes vitrified before and after in vitro maturation. To do so, three groups were analyzed with RNA sequencing: (1) fresh in vitro matured oocytes as a control (FR), (2) oocytes vitrified after in vitro maturation (VMAT), and (3) oocytes vitrified immature, warmed, and in vitro matured (VIM). In comparison with fresh oocytes, VIM resulted in 46 differentially expressed (DE) genes (14 upregulated and 32 downregulated), while VMAT showed 36 DE genes (18 in each category). A comparison of VIM vs. VMAT resulted in 44 DE genes (20 upregulated and 24 downregulated). Pathway analyses highlighted cytoskeleton, spindle formation, and calcium and cation ion transport and homeostasis as the main affected pathways in vitrified oocytes. The vitrification of in vitro matured oocytes presented subtle advantages in terms of the mRNA profile over the vitrification of immature oocytes. Therefore, this study provides a new perspective for understanding the impact of vitrification on equine oocytes and can be the basis for further improvements in the efficiency of equine oocyte vitrification.

Published

2023

32. Embryo morphokinetics derived from fresh and vitrified bovine oocytes predict blastocyst development and nuclear abnormalities.

Author

Angel-Velez D, De Coster T, Azari-Dolatabad N, Fernández-Montoro A, Benedetti C, Pavani K, Van Soom A, Bogado Pascottini O, and Smits K

Subjects

Animals, Cattle, Embryo, Mammalian, Blastocyst, Vitrification, Cryopreservation methods, Oocytes, Embryonic Development genetics

Abstract

Embryo development is a dynamic process and critical stages may go unnoticed with the use of traditional morphologic assessments, especially the timing of embryonic divisions and aberrant zygotic cleavage patterns. Bovine embryo development is impaired after oocyte vitrification, but little is known about the underlying morphokinetic behavior. Here, bovine zygotes from fresh (n = 708) and vitrified oocytes (n = 182) were monitored by time-lapse imaging and the timing and nature of early blastomere divisions were modeled to find associations with blastocyst development at day 8. The predictive potential of morphokinetic parameters was analyzed by logistic regression and receiver operating characteristic curve analysis to determine optimal cut-off values. Lag-phase was highly correlated with embryo development. Remarkably, 100% of zygotes that reached the blastocyst stage showed a lag-phase. Fast first cleavage increased the chance of blastocyst development to 30% with a cut-off of 32 h and 22 min. Aberrant zygotic cleavage events, including multipolar division, unequal blastomere sizes, and membrane ruffling resulted in decreased blastocyst development. Multipolar division leads to uneven blastomeres, which was associated with anuclear and multinuclear blastomeres, indicating genome segregation errors. Moreover, we described for the first time morphokinetics of embryos derived from vitrified bovine oocytes. Vitrification severely affected blastocyst development, although lower cryoprotectant concentration in equilibration solutions seems to be less detrimental for embryo yield. Impaired development was linked to slow cleavages, lower lag-phase incidence, and increased early embryonic arrest. Typically, less than 15% of the embryos produced from vitrified oocytes reached more than eight cells. Interestingly, the rate of abnormal first cleavage events was not affected by oocyte vitrification. In conclusion, time to first cleavage, the presence of a lag-phase, and the absence of aberrant zygotic cleavage were the best predictors of bovine blastocyst development for both fresh and vitrified oocytes., (© 2023. The Author(s).)

Published

2023

33. Parental genomes segregate into distinct blastomeres during multipolar zygotic divisions leading to mixoploid and chimeric blastocysts.

Author

De Coster T, Masset H, Tšuiko O, Catteeuw M, Zhao Y, Dierckxsens N, Aparicio AL, Dimitriadou E, Debrock S, Peeraer K, de Ruijter-Villani M, Smits K, Van Soom A, and Vermeesch JR

Subjects

Animals, Blastocyst, Cattle, Female, Genome, Humans, Mitosis, Blastomeres, Zygote

Abstract

Background: During normal zygotic division, two haploid parental genomes replicate, unite and segregate into two biparental diploid blastomeres., Results: Contrary to this fundamental biological tenet, we demonstrate here that parental genomes can segregate to distinct blastomeres during the zygotic division resulting in haploid or uniparental diploid and polyploid cells, a phenomenon coined heterogoneic division. By mapping the genomic landscape of 82 blastomeres from 25 bovine zygotes, we show that multipolar zygotic division is a tell-tale of whole-genome segregation errors. Based on the haplotypes and live-imaging of zygotic divisions, we demonstrate that various combinations of androgenetic, gynogenetic, diploid, and polyploid blastomeres arise via distinct parental genome segregation errors including the formation of additional paternal, private parental, or tripolar spindles, or by extrusion of paternal genomes. Hence, we provide evidence that private parental spindles, if failing to congress before anaphase, can lead to whole-genome segregation errors. In addition, anuclear blastomeres are common, indicating that cytokinesis can be uncoupled from karyokinesis. Dissociation of blastocyst-stage embryos further demonstrates that whole-genome segregation errors might lead to mixoploid or chimeric development in both human and cow. Yet, following multipolar zygotic division, fewer embryos reach the blastocyst stage and diploidization occurs frequently indicating that alternatively, blastomeres with genome-wide errors resulting from whole-genome segregation errors can be selected against or contribute to embryonic arrest., Conclusions: Heterogoneic zygotic division provides an overarching paradigm for the development of mixoploid and chimeric individuals and moles and can be an important cause of embryonic and fetal arrest following natural conception or IVF., (© 2022. The Author(s).)

Published

2022

34. Sbk2, a Newly Discovered Atrium-Enriched Regulator of Sarcomere Integrity.

Author

van Gorp PRR, Zhang J, Liu J, Tsonaka R, Mei H, Dekker SO, Bart CI, De Coster T, Post H, Heck AJR, Schalij MJ, Atsma DE, Pijnappels DA, and de Vries AAF

Subjects

Animals, Cell Differentiation, Heart Atria, Myocardium, Rats, Myocytes, Cardiac metabolism, Sarcomeres metabolism

Abstract

Background: Heart development relies on tight spatiotemporal control of cardiac gene expression. Genes involved in this intricate process have been identified using animals and pluripotent stem cell-based models of cardio(myo)genesis. Recently, the repertoire of cardiomyocyte differentiation models has been expanded with iAM-1, a monoclonal line of conditionally immortalized neonatal rat atrial myocytes (NRAMs), which allows toggling between proliferative and differentiated (ie, excitable and contractile) phenotypes in a synchronized and homogenous manner., Methods: In this study, the unique properties of conditionally immortalized NRAMs (iAMs) were exploited to identify and characterize (lowly expressed) genes with an as-of-yet uncharacterized role in cardiomyocyte differentiation., Results: Transcriptome analysis of iAM-1 cells at different stages during one cycle of differentiation and subsequent dedifferentiation identified ≈13 000 transcripts, of which the dynamic changes in expression upon cardiomyogenic differentiation mostly opposed those during dedifferentiation. Among the genes whose expression increased during differentiation and decreased during dedifferentiation were many with known (lineage-specific) functions in cardiac muscle formation. Filtering for cardiac-enriched low-abundance transcripts, identified multiple genes with an uncharacterized role during cardio(myo)genesis including Sbk2 (SH3 domain binding kinase family member 2). Sbk2 encodes an evolutionarily conserved putative serine/threonine protein kinase, whose expression is strongly up- and downregulated during iAM-1 cell differentiation and dedifferentiation, respectively. In neonatal and adult rats, the protein is muscle-specific, highly atrium-enriched, and localized around the A-band of cardiac sarcomeres. Knockdown of Sbk2 expression caused loss of sarcomeric organization in NRAMs, iAMs and their human counterparts, consistent with a decrease in sarcomeric gene expression as evinced by transcriptome and proteome analyses. Interestingly, co-immunoprecipitation using Sbk2 as bait identified possible interaction partners with diverse cellular functions (translation, intracellular trafficking, cytoskeletal organization, chromatin modification, sarcomere formation)., Conclusions: iAM-1 cells are a relevant and suitable model to identify (lowly expressed) genes with a hitherto unidentified role in cardiomyocyte differentiation as exemplified by Sbk2: a regulator of atrial sarcomerogenesis.

Published

2022

35. New Alternative Mixtures of Cryoprotectants for Equine Immature Oocyte Vitrification.

Author

Angel-Velez D, De Coster T, Azari-Dolatabad N, Fernandez-Montoro A, Benedetti C, Bogado Pascottini O, Woelders H, Van Soom A, and Smits K

Abstract

Equine oocyte vitrification would benefit the growing in vitro embryo production programs, but further optimization of the protocol is necessary to reach clinical efficiency. Therefore, we aimed to perform a direct comparison of non-permeating and permeating cryoprotective agents (CPAs) during the vitrification and warming of equine immature oocytes. In the first experiment, cumulus oocytes complexes (COCs) were vitrified comparing sucrose, trehalose, and galactose in combination with ethylene glycol (EG) and dimethyl sulfoxide (DMSO). In the second experiment, the COCs were vitrified using three mixtures of permeating CPAs in a 50:50 volume ratio (ethylene glycol-dimethyl sulfoxide (ED), propylene glycol-ethylene glycol (PE), and propylene glycol-dimethyl sulfoxide (PD)) with galactose and warmed in different galactose concentrations (0.3 or 0.5 mol/L). Overall, all the treatments supported blastocyst formation, but the developmental rates were lower for all the vitrified groups in the first (4.3 to 7.6%) and the second (3.5 to 9.4%) experiment compared to the control (26.5 and 34.2%, respectively; p < 0.01). In the first experiment, the maturation was not affected by vitrification. The sucrose exhibited lower cleavage than the control ( p = 0.02). Although the galactose tended to have lower maturation than trehalose ( p = 0.060) and control ( p = 0.069), the highest numerical cleavage and blastocyst rates were obtained with this CPA. In the second experiment, the maturation, cleavage, and blastocyst rates were similar between the treatments. Compared to the control, only the ED reached similar maturation ( p = 0.02) and PE similar cleavage ( p = 0.1). The galactose concentration during warming did not affect the maturation, cleavage, or blastocyst rates ( p > 0.1), but the PE-0.3 exhibited the highest blastocyst rate (15.1%) among the treatments, being the only one comparable to the control (34.2%). As such, PE-galactose provides a valuable option for equine immature oocyte vitrification and should be considered for the future optimization of the protocol.

Published

2021

36. The Effects of Repetitive Use and Pathological Remodeling on Channelrhodopsin Function in Cardiomyocytes.

Author

Ördög B, Teplenin A, De Coster T, Bart CI, Dekker SO, Zhang J, Ypey DL, de Vries AAF, and Pijnappels DA

Abstract

Aim: Channelrhodopsins (ChRs) are a large family of light-gated ion channels with distinct properties, which is of great importance in the selection of a ChR variant for a given application. However, data to guide such selection for cardiac optogenetic applications are lacking. Therefore, we investigated the functioning of different ChR variants in normal and pathological hypertrophic cardiomyocytes subjected to various illumination protocols. Methods and Results: Isolated neonatal rat ventricular cardiomyocytes (NRVMs) were transduced with lentiviral vectors to express one of the following ChR variants: H134R, CatCh, ReaChR, or GtACR1. NRVMs were treated with phenylephrine (PE) to induce pathological hypertrophy (PE group) or left untreated [control (CTL) group]. In these groups, ChR currents displayed unique and significantly different properties for each ChR variant on activation by a single 1-s light pulse (1 mW/mm 2 : 470, 565, or 617 nm). The concomitant membrane potential ( V m ) responses also showed a ChR variant-specific profile, with GtACR1 causing a slight increase in average V m during illumination ( V plateau : -38 mV) as compared with a V plateau > -20 mV for the other ChR variants. On repetitive activation at increasing frequencies (10-ms pulses at 1-10 Hz for 30 s), peak currents, which are important for cardiac pacing, decreased with increasing activation frequencies by 17-78% ( p < 0.05), while plateau currents, which are critical for arrhythmia termination, decreased by 10-75% ( p < 0.05), both in a variant-specific manner. In contrast, the corresponding V plateau remained largely stable. Importantly, current properties and V m responses were not statistically different between the PE and CTL groups, irrespective of the variant used ( p > 0.05). Conclusion: Our data show that ChR variants function equally well in cell culture models of healthy and pathologically hypertrophic myocardium but show strong, variant-specific use-dependence. This use-dependent nature of ChR function should be taken into account during the design of cardiac optogenetic studies and the interpretation of the experimental findings thereof., Competing Interests: The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest., (Copyright © 2021 Ördög, Teplenin, De Coster, Bart, Dekker, Zhang, Ypey, de Vries and Pijnappels.)

Published

2021

37. Anti-Müllerian Hormone and OPU-ICSI Outcome in the Mare.

Author

Papas M, Govaere J, Peere S, Gerits I, Van de Velde M, Angel-Velez D, De Coster T, Van Soom A, and Smits K

Abstract

Anti-Müllerian hormone (AMH) reflects the population of growing follicles and has been related to mammalian fertility. In the horse, clinical application of ovum pick-up and intracytoplasmic sperm injection (OPU-ICSI) is increasing, but results depend largely on the individuality of the mare. The aim of this study was to assess AMH as a predictor for the OPU-ICSI outcome in horses. Therefore, 103 mares with a total follicle count above 10 were included in a commercial OPU-ICSI session and serum AMH was determined using ELISA. Overall, the AMH level was significantly correlated with the number of aspirated follicles and the number of recovered oocytes ( p < 0.001). Mares with a high AMH level (≥2.5 µg/L) yielded significantly greater numbers of follicles (22.9 ± 1.2), oocytes (13.5 ± 0.8), and blastocysts (2.1 ± 0.4) per OPU-ICSI session compared to mares with medium (1.5-2.5 µg/L) or low AMH levels (<1.5 µg/L), but no significant differences in blastocyst rates were observed. Yet, AMH levels were variable and 58% of the mares with low AMH also produced an embryo. In conclusion, measurement of serum AMH can be used to identify mares with higher chances of producing multiple in vitro embryos, but not as an independent predictor of successful OPU-ICSI in horses.

Published

2021

38. A shock-free approach for ambulatory cardioversion in atrial fibrillation.

Author

De Coster T

Subjects

Animals, Atrial Fibrillation diagnosis, Atrial Fibrillation physiopathology, Humans, Recovery of Function, Treatment Outcome, Action Potentials, Ambulatory Care, Atrial Fibrillation therapy, Electric Countershock, Heart Conduction System physiopathology, Heart Rate

Abstract

Atrial fibrillation (AF), the most common persistent arrhythmia, is terminated most effectively by electrical cardioversion. This therapy requires in-hospital sedation to relieve the pain caused by electric shocks. Recently, our research group showed how the heart itself could be enabled to detect and terminate arrhythmias, including AF, thereby revealing the discovery of fully biological, shock-free cardioversion. Because of its biological nature, neither electric shocks nor hardware/software is required for sinus rhythm (SR) restoration, which creates a new perspective for ambulatory AF termination. Increasing evidence suggests that patients may indeed benefit from such continuous real-time rhythm control.

Published

2021

39. Self-restoration of cardiac excitation rhythm by anti-arrhythmic ion channel gating.

Author

Majumder R, De Coster T, Kudryashova N, Verkerk AO, Kazbanov IV, Ördög B, Harlaar N, Wilders R, de Vries AA, Ypey DL, Panfilov AV, and Pijnappels DA

Subjects

Cell Line, Computer Simulation, Humans, Patch-Clamp Techniques, Reproducibility of Results, Arrhythmias, Cardiac metabolism, Electrophysiological Phenomena physiology, Ion Channel Gating, Ion Channels physiology, Myocytes, Cardiac physiology

Abstract

Homeostatic regulation protects organisms against hazardous physiological changes. However, such regulation is limited in certain organs and associated biological processes. For example, the heart fails to self-restore its normal electrical activity once disturbed, as with sustained arrhythmias. Here we present proof-of-concept of a biological self-restoring system that allows automatic detection and correction of such abnormal excitation rhythms. For the heart, its realization involves the integration of ion channels with newly designed gating properties into cardiomyocytes. This allows cardiac tissue to i) discriminate between normal rhythm and arrhythmia based on frequency-dependent gating and ii) generate an ionic current for termination of the detected arrhythmia. We show in silico, that for both human atrial and ventricular arrhythmias, activation of these channels leads to rapid and repeated restoration of normal excitation rhythm. Experimental validation is provided by injecting the designed channel current for arrhythmia termination in human atrial myocytes using dynamic clamp., Competing Interests: RM, TD, NK, AV, IK, BÖ, NH, RW, Ad, DY, AP, DP No competing interests declared, (© 2020, Majumder et al.)

Published

2020

40. Myocyte Remodeling Due to Fibro-Fatty Infiltrations Influences Arrhythmogenicity.

Author

De Coster T, Claus P, Seemann G, Willems R, Sipido KR, and Panfilov AV

Abstract

The onset of cardiac arrhythmias depends on the electrophysiological and structural properties of cardiac tissue. Electrophysiological remodeling of myocytes due to the presence of adipocytes constitutes a possibly important pathway in the pathogenesis of atrial fibrillation. In this paper we perform an in-silico study of the effect of such myocyte remodeling on the onset of atrial arrhythmias and study the dynamics of arrhythmia sources-spiral waves. We use the Courtemanche model for atrial myocytes and modify their electrophysiological properties based on published cellular electrophysiological measurements in myocytes co-cultered with adipocytes (a 69-87 % increase in APD 90 and an increase of the RMP by 2.5-5.5 mV). In a generic 2D setup we show that adipose tissue remodeling substantially affects the spiral wave dynamics resulting in complex arrhythmia and such arrhythmia can be initiated under high frequency pacing if the size of the remodeled tissue is sufficiently large. These results are confirmed in simulations with an anatomically accurate model of the human atria.

Published

2018

41. Arrhythmogenicity of fibro-fatty infiltrations.

Author

De Coster T, Claus P, Kazbanov IV, Haemers P, Willems R, Sipido KR, and Panfilov AV

Subjects

Adipocytes physiology, Arrhythmias, Cardiac physiopathology, Cell Movement, Humans, Myocytes, Cardiac pathology, Myofibroblasts physiology, Adipocytes pathology, Arrhythmias, Cardiac pathology, Models, Cardiovascular, Myofibroblasts pathology

Abstract

The onset of cardiac arrhythmias depends on electrophysiological and structural properties of cardiac tissue. One of the most important changes leading to arrhythmias is characterised by the presence of a large number of non-excitable cells in the heart, of which the most well-known example is fibrosis. Recently, adipose tissue was put forward as another similar factor contributing to cardiac arrhythmias. Adipocytes infiltrate into cardiac tissue and produce in-excitable obstacles that interfere with myocardial conduction. However, adipose infiltrates have a different spatial texture than fibrosis. Over the course of time, adipose tissue also remodels into fibrotic tissue. In this paper we investigate the arrhythmogenic mechanisms resulting from the presence of adipose tissue in the heart using computer modelling. We use the TP06 model for human ventricular cells and study how the size and percentage of adipose infiltrates affects basic properties of wave propagation and the onset of arrhythmias under high frequency pacing in a 2D model for cardiac tissue. We show that although presence of adipose infiltrates can result in the onset of cardiac arrhythmias, its impact is less than that of fibrosis. We quantify this process and discuss how the remodelling of adipose infiltrates affects arrhythmia onset.

Published

2018

42. Cactus thorn embedded in the cartilaginous proximal tibia.

Author

Stevens MA, De Coster TA, and Renwick SE

Subjects

Child, Preschool, Foreign Bodies surgery, Humans, Magnetic Resonance Imaging, Male, Cartilage, Articular, Foreign Bodies diagnosis, Tibia

Published

1995