Your search keyword '"Bezstarosti K"' showing total 172 results

1. Matrix Metalloproteinase-7 in Urinary Extracellular Vesicles Identifies Rapid Disease Progression in Autosomal Dominant Polycystic Kidney Disease

Author

Heugten, M.H. van, Blijdorp, C.J., Arjune, S., Willigenburg, H. van, Bezstarosti, K., Demmers, J.A.A., Musterd-Bhaggoe, U., Meijer, E., Gansevoort, R.T., Zietse, R., Hayat, S., Kramann, R., Müller, R.U., Drenth, J.P.H., Wetzels, J.F.M., Salih, M., Hoorn, E.J., Heugten, M.H. van, Blijdorp, C.J., Arjune, S., Willigenburg, H. van, Bezstarosti, K., Demmers, J.A.A., Musterd-Bhaggoe, U., Meijer, E., Gansevoort, R.T., Zietse, R., Hayat, S., Kramann, R., Müller, R.U., Drenth, J.P.H., Wetzels, J.F.M., Salih, M., and Hoorn, E.J.

Abstract

Contains fulltext : 305024.pdf (Publisher’s version ) (Closed access), SIGNIFICANCE STATEMENT: There is an unmet need for biomarkers of disease progression in autosomal dominant polycystic kidney disease (ADPKD). This study investigated urinary extracellular vesicles (uEVs) as a source of such biomarkers. Proteomic analysis of uEVs identified matrix metalloproteinase 7 (MMP-7) as a biomarker predictive of rapid disease progression. In validation studies, MMP-7 was predictive in uEVs but not in whole urine, possibly because uEVs are primarily secreted by tubular epithelial cells. Indeed, single-nucleus RNA sequencing showed that MMP-7 was especially increased in proximal tubule and thick ascending limb cells, which were further characterized by a profibrotic phenotype. Together, these data suggest that MMP-7 is a biologically plausible and promising uEV biomarker for rapid disease progression in ADPKD. BACKGROUND: In ADPKD, there is an unmet need for early markers of rapid disease progression to facilitate counseling and selection for kidney-protective therapy. Our aim was to identify markers for rapid disease progression in uEVs. METHODS: Six paired case-control groups ( n =10-59/group) of cases with rapid disease progression and controls with stable disease were formed from two independent ADPKD cohorts, with matching by age, sex, total kidney volume, and genetic variant. Candidate uEV biomarkers were identified by mass spectrometry and further analyzed using immunoblotting and an ELISA. Single-nucleus RNA sequencing of healthy and ADPKD tissue was used to identify the cellular origin of the uEV biomarker. RESULTS: In the discovery proteomics experiments, the protein abundance of MMP-7 was significantly higher in uEVs of patients with rapid disease progression compared with stable disease. In the validation groups, a significant >2-fold increase in uEV-MMP-7 in patients with rapid disease progression was confirmed using immunoblotting. By contrast, no significant difference in MMP-7 was found in whole urine using ELISA. Compared with

Published

2024

2. L-propionylcarnitine and myocardial performance in stunned porcine myocardium

Author

Sassen, L. M. A., Duncker, D. J., Hogendoorn, A., McFalls, E. O., Krams, R., Bezstarosti, K., Lamers, J. M. J., Verdouw, P. D., Dhalla, Naranjan S., editor, van der Vusse, Ger J., editor, and Stam, Hans, editor

Published

1992

3. An organoid-derived bronchioalveolar model for SARS-CoV-2 infection of human alveolar type II-like cells

Author

Lamers, M.M. (Mart M.), van der Vaart, J. (Jelte), Knoops, K. (Kèvin), Riesebosch, S. (Samra), Breugem, T.I. (Tim I), Mykytyn, A.Z. (Anna Z), Beumer, J. (Joep), Schipper, D. (Debby), Bezstarosti, K. (Karel), Koopman, C.D. (Charlotte D), Groen, N. (Nathalie), Ravelli, R.B.G. (Raimond B.), Duimel, H.Q. (Hans Q), Demmers, J.A.A. (Jeroen), Verjans, G.M.G.M. (George), Koopmans D.V.M., M.P.G. (Marion), Muraro, M.J. (Mauro J), Peters, P.J. (Peter J), Clevers, H.C. (Hans), Haagmans, B.L. (Bart), Lamers, M.M. (Mart M.), van der Vaart, J. (Jelte), Knoops, K. (Kèvin), Riesebosch, S. (Samra), Breugem, T.I. (Tim I), Mykytyn, A.Z. (Anna Z), Beumer, J. (Joep), Schipper, D. (Debby), Bezstarosti, K. (Karel), Koopman, C.D. (Charlotte D), Groen, N. (Nathalie), Ravelli, R.B.G. (Raimond B.), Duimel, H.Q. (Hans Q), Demmers, J.A.A. (Jeroen), Verjans, G.M.G.M. (George), Koopmans D.V.M., M.P.G. (Marion), Muraro, M.J. (Mauro J), Peters, P.J. (Peter J), Clevers, H.C. (Hans), and Haagmans, B.L. (Bart)

Abstract

Severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) causes coronavirus disease 2019 (COVID-19), which may result in acute respiratory distress syndrome (ARDS), multiorga

Published

2021

4. Identification by a differential proteomic approach of the induced stress and redox proteins by resveratrol in the normal and diabetic rat heart

Author

Dekkers, D. H. W., Bezstarosti, K., Gurusamy, N., Luijk, K., Verhoeven, A. J. M., Rijkers, E. -J., Demmers, J. A., Lamers, J. M. J., Maulik, N., and Das, D. K.

Published

2008

5. Intracoronary trimetazidine does not improve recovery of regional function in a porcine model of repeated ischemia

Author

Koning, M. M. G., Krams, R., Xiao, C. S., van Meegen, J. R., Bezstarosti, K., Lamers, J. M. J., and Verdouw, P. D.

Published

1993

6. Recovery in the myogenic program of congenital myotonic dystrophy myoblasts after excision of the expanded (CTG)n repeat

Author

André, L.M. (Laurène M.), van Cruchten, R.T.P. (Remco T.P.), Willemse, M. (Marieke), Bezstarosti, K. (Karel), Demmers, J.A.A. (Jeroen), van Agtmaal, E.L. (Ellen L.), Wansink, D.G. (Derick G.), Wieringa, B. (Bé), André, L.M. (Laurène M.), van Cruchten, R.T.P. (Remco T.P.), Willemse, M. (Marieke), Bezstarosti, K. (Karel), Demmers, J.A.A. (Jeroen), van Agtmaal, E.L. (Ellen L.), Wansink, D.G. (Derick G.), and Wieringa, B. (Bé)

Abstract

The congenital form of myotonic dystrophy type 1 (cDM) is caused by the large-scale expansion of a (CTG•CAG)n repeat in DMPK and DM1-AS. The production of toxic transcripts with long trinucleotide tracts from these genes results in impairment of the myogenic differentiation capacity as cDM’s most prominent morpho-phenotypic hallmark. In the current in vitro study, we compared the early differentiation programs of isogenic cDM myoblasts with and without a (CTG)2600 repeat obtained by gene editing. We found that excision of the repeat restored the ability of cDM myoblasts to engage in myogenic fusion, preventing the ensuing myotubes from remaining immature. Although the cDM-typical epigenetic status of the DM1 locus and the expression of genes therein were not altered upon removal of the repeat, analyses at the transcriptome and proteome level revealed that early abnormalities in the temporal expression of differentiation regulators, myogenic progression markers, and alternative splicing patterns before and immediately after the onset of differentiation became normalized. Our observation that molecular and cellular features of cDM are reversible in vitro and can be corrected by repeat-directed genome editing in muscle progenitors, when already committed and poised for myogenic differentiation, is important information for the future development of gene therapy for different forms of myotonic dystrophy type 1 (DM1).

Published

2019

7. CAMK2-Dependent Signaling in Neurons Is Essential for Survival

Author

Kool, M.J. (Martijn), Proietti-Onori, M. (Martina), Borgesius, N.Z., van de Bree, J.E. (Jolet E.), Elgersma-Hooisma, M. (Minetta), Nio, E. (Enzo), Bezstarosti, K. (Karel), Buitendijk, G.H.S. (Gabrielle), Aghadavoud Jolfaei, M. (Mehrnoush), Demmers, J.A.A. (Jeroen), Elgersma, Y. (Ype), Woerden, G.M. (Geeske) van, Kool, M.J. (Martijn), Proietti-Onori, M. (Martina), Borgesius, N.Z., van de Bree, J.E. (Jolet E.), Elgersma-Hooisma, M. (Minetta), Nio, E. (Enzo), Bezstarosti, K. (Karel), Buitendijk, G.H.S. (Gabrielle), Aghadavoud Jolfaei, M. (Mehrnoush), Demmers, J.A.A. (Jeroen), Elgersma, Y. (Ype), and Woerden, G.M. (Geeske) van

Abstract

Ca2+/calmodulin-dependent protein kinase II (CAMK2) is a key player in synaptic plasticity and memory formation. Mutations in Camk2a or Camk2b cause intellectual disability in humans, and severe plasticity and learning deficits in mice, indicating unique functions for each isoform. However, considering the high homology between CAMK2A and CAMK2B, it is conceivable that for critical functions, one isoform compensates for the absence of the other, and that the full functional spectrum of neuronal CAMK2 remains to be revealed.Here we show that germline as well as adult deletion of both CAMK2 isoforms in male or female mice is lethal. Moreover, Ca2+-dependent activity as well as autonomous activity of CAMK2 is essential for survival. Loss of both CAMK2 isoforms abolished LTP, whereas synaptic transmission remained intact. The double-mutants showed no gross morphological changes of the brain, and in contrast to the long-considered role for CAMK2 in the structural organization of the postsynaptic density (PSD), deletion of both CAMK2 isoforms did not affect the biochemical composition of the PSD. Together, these results reveal an essential role for CAMK2 signaling in early postnatal development as well as the mature brain, and indicate that the full spectrum of CAMK2 requirements cannot be revealed in the single mutants because of partial overlapping

Published

2019

8. HSF2BP Interacts with a Conserved Domain of BRCA2 and Is Required for Mouse Spermatogenesis

Author

Brandsma, I. (Inger), Sato, K. (Koichi), Rossum-Fikkert, S.E. (Sari) van, Vliet, N. (Nicole) van, Sleddens, E., Reuter, M. (Marcel), Odijk, H. (Hanny), Tempel, N. (Nathalie) van den, Dekkers, D.H. (Dick), Bezstarosti, K. (Karel), Demmers, J.A.A. (Jeroen), Maas, A. (Alex), Lebbink, J.H.G. (Joyce), Wyman, C. (Claire), Essers, J. (Jeroen), Gent, D.C. (Dik) van, Baarends, W.M. (Willy), Knipscheer, P. (Puck), Kanaar, R. (Roland), Zelensky, A. (Alexander), Brandsma, I. (Inger), Sato, K. (Koichi), Rossum-Fikkert, S.E. (Sari) van, Vliet, N. (Nicole) van, Sleddens, E., Reuter, M. (Marcel), Odijk, H. (Hanny), Tempel, N. (Nathalie) van den, Dekkers, D.H. (Dick), Bezstarosti, K. (Karel), Demmers, J.A.A. (Jeroen), Maas, A. (Alex), Lebbink, J.H.G. (Joyce), Wyman, C. (Claire), Essers, J. (Jeroen), Gent, D.C. (Dik) van, Baarends, W.M. (Willy), Knipscheer, P. (Puck), Kanaar, R. (Roland), and Zelensky, A. (Alexander)

Abstract

The tumor suppressor BRCA2 is essential for homologous recombination (HR), replication fork stability, and DNA interstrand crosslink repair in vertebrates. We identify HSF2BP, a protein previously described as testis specific and not characterized functionally, as an interactor of BRCA2 in mouse embryonic stem cells, where the 2 proteins form a constitutive complex. HSF2BP is transcribed in all cultured human cancer cell lines tested and elevated in some tumor samples. Inactivation of the mouse Hsf2bp gene results in male infertility due to a severe HR defect during spermatogenesis. The BRCA2-HSF2BP interaction is highly evolutionarily conserved and maps to armadillo repeats in HSF2BP and a 68-amino acid region between the BRC repeats and the DNA binding domain of human BRCA2 (Gly2270-Thr2337) encoded by exons 12 and 13. This region of BRCA2 does not harbor known cancer-associated missense mutations and may be involved in the reproductive rather than the tumor-suppressing function of BRCA2. BRCA2 is a key homologous recombination mediator in vertebrates. Brandsma et al. show that it directly interacts with a testis-expressed protein, HSF2BP, and that male mice deficient for HSF2BP are infertile due to a meiotic recombination defect. They also find that HSF2BP contributes to DNA repair in mouse embryonic stem cells.

Published

2019

9. FACT subunit Spt16 controls UVSSA recruitment to lesion-stalled RNA Pol II and stimulates TC-NER

Author

Wienholz, F. (Franziska), Zhou, D. (Di), Türkyilmaz, Y. (Yasemin), Schwertman, P. (Petra), Tresini, M. (Maria), Pines, A. (Alex), van Toorn, M. (Marvin), Bezstarosti, K. (Karel), Demmers, J.A.A. (Jeroen), Marteijn, J.A. (Jurgen), Wienholz, F. (Franziska), Zhou, D. (Di), Türkyilmaz, Y. (Yasemin), Schwertman, P. (Petra), Tresini, M. (Maria), Pines, A. (Alex), van Toorn, M. (Marvin), Bezstarosti, K. (Karel), Demmers, J.A.A. (Jeroen), and Marteijn, J.A. (Jurgen)

Abstract

Transcription-coupled nucleotide excision repair (TC-NER) is a dedicated DNA repair pathway that removes transcription-blocking DNA lesions (TBLs). TC-NER is initiated by the recognition of lesion-stalled RNA Polymerase II by the joint action of the TC-NER factors Cockayne Syndrome protein A (CSA), Cockayne Syndrome protein B (CSB) and UV-Stimulated Scaffold Protein A (UVSSA). However, the exact recruitment mechanism of these factors toward TBLs remains elusive. Here, we study the recruitment mechanism of UVSSA using live-cell imaging and show that UVSSA accumulates at TBLs independent of CSA and CSB. Furthermore, using UVSSA deletion mutants, we could separate the CSA interaction function of UVSSA from its DNA damage recruitment activity, which is mediated by the UVSSA VHS and DUF2043 domains, respectively. Quantitative interaction proteomics showed that the Spt16 subunit of the histone chaperone FACT interacts with UVSSA, which is mediated by the DUF2043 domain. Spt16 is recruited to TBLs, independently of UVSSA, to stimulate UVSSA recruitment and TC-NER-mediated repair. Spt16 specifically affects UVSSA, as Spt16 depletion did not affect CSB recruitment, highlighting that different chromatin-modulating factors regulate different reaction steps of the highly orchestrated TC-NER pathway.

Published

2019

10. DNA damage-induced replication stress results in PA200-proteasome-mediated degradation of acetylated histones

Author

Mandemaker, I.K. (Imke), Geijer, M.E. (Marit E), Kik, I. (Iris), Bezstarosti, K. (Karel), Rijkers, E.J., Raams, A. (Anja), Janssens, R. (Roel), Lans, H. (Hannes), Hoeijmakers, J.H.J. (Jan), Demmers, J.A.A. (Jeroen), Vermeulen, W. (Wim), Marteijn, J.A. (Jurgen), Mandemaker, I.K. (Imke), Geijer, M.E. (Marit E), Kik, I. (Iris), Bezstarosti, K. (Karel), Rijkers, E.J., Raams, A. (Anja), Janssens, R. (Roel), Lans, H. (Hannes), Hoeijmakers, J.H.J. (Jan), Demmers, J.A.A. (Jeroen), Vermeulen, W. (Wim), and Marteijn, J.A. (Jurgen)

Abstract

Histone acetylation influences protein interactions and chromatin accessibility and plays an important role in the regulation of transcription, replication, and DNA repair. Conversely, DNA damage affects these crucial cellular processes and induces changes in histone acetylation. However, a comprehensive overview of the effects of DNA damage on the histone acetylation landscape is currently lacking. To quantify changes in histone acetylation, we developed an unbiased quantitative mass spectrometry analysis on affinity-purified acetylated histone peptides, generated by differential parallel proteolysis. We identify a large number of histone acetylation sites and observe an overall reduction of acetylated histone residues in response to DNA damage, indicative of a histone-wide loss of acetyl modifications. This decrease is mainly caused by DNA damage-induced replication stress coupled to specific proteasome-dependent loss of acetylated histones. Strikingly, this degradation of acetylated histones is independent of ubiquitylation but requires the PA200-proteasome activator, a complex that specifically targets acetylated histones for degradation. The uncovered replication stress-induced degradation of acetylated histones represents an important chromatin-modifying response to cope with replication stress.

Published

2018

11. DOC1-Dependent Recruitment of NURD Reveals Antagonism with SWI/SNF during Epithelial-Mesenchymal Transition i

Author

Mohd-Sarip, A. (Adone), Teeuwssen, M. (Miriam), Bot, A.G. (Alice), Herdt, M.J. (Maria) de, Willems, S.M. (Stefan Martin), Baatenburg de Jong, R.J. (Robert Jan), Looijenga, L.H.J. (Leendert), Zatreanu, D. (Diana), Bezstarosti, K. (Karel), Riet, J. (Job) van, Oole, E. (Edwin), IJcken, W.F.J. (Wilfred) van, Werken, H.J.G. (Harmen) van de, Demmers, J.A.A. (Jeroen), Fodde, R. (Riccardo), Verrijzer, C.P. (Peter), Mohd-Sarip, A. (Adone), Teeuwssen, M. (Miriam), Bot, A.G. (Alice), Herdt, M.J. (Maria) de, Willems, S.M. (Stefan Martin), Baatenburg de Jong, R.J. (Robert Jan), Looijenga, L.H.J. (Leendert), Zatreanu, D. (Diana), Bezstarosti, K. (Karel), Riet, J. (Job) van, Oole, E. (Edwin), IJcken, W.F.J. (Wilfred) van, Werken, H.J.G. (Harmen) van de, Demmers, J.A.A. (Jeroen), Fodde, R. (Riccardo), and Verrijzer, C.P. (Peter)

Abstract

The Nucleosome Remodeling and Deacetylase (NURD) complex is a key regulator of cell differentiation that has also been implicated in tumorigenesis. Loss of the NURD subunit Deleted in Oral Cancer 1 (DOC1) is associated with human oral squamous cell carcinomas (OSCCs). Here, we show that restoration of DOC1 expression in OSCC cells leads to a reversal of epithelial-mesenchymal transition (EMT). This is caused by the DOC1-dependent targeting of NURD to repress key transcriptional regulators of EMT. NURD recruitment drives extensive epigenetic reprogramming, including eviction of the SWI/SNF remodeler, formation of inaccessible chromatin, H3K27 deacetylation, and binding of PRC2 and KDM1A, followed by H3K27 methylation and H3K4 demethylation. Strikingly, depletion of SWI/SNF mimics the effects of DOC1 re-expression. Our results suggest that SWI/SNF and NURD function antagonistically to control chromatin state and transcription. We propose that disturbance of this dynamic equilibrium may lead to defects in gene expression that promote oncogenesis.

Published

2017

12. DNA damage-induced histone H1 ubiquitylation is mediated by HUWE1 and stimulates the RNF8-RNF168 pathway

Author

Mandemaker, I.K. (Imke), Cuijk, L.M.A. (Loes) van, Janssens, R.C. (Roel C.), Lans, H. (Hannes), Bezstarosti, K. (Karel), Hoeijmakers, J.H.J. (Jan), Demmers, J.A.A. (Jeroen), Vermeulen, W. (Wim), Marteijn, J.A. (Jurgen), Mandemaker, I.K. (Imke), Cuijk, L.M.A. (Loes) van, Janssens, R.C. (Roel C.), Lans, H. (Hannes), Bezstarosti, K. (Karel), Hoeijmakers, J.H.J. (Jan), Demmers, J.A.A. (Jeroen), Vermeulen, W. (Wim), and Marteijn, J.A. (Jurgen)

Abstract

The DNA damage response (DDR), comprising distinct repair and signalling pathways, safeguards genomic integrity. Protein ubiquitylation is an important regulatory mechanism of the DDR. To study its role in the UV-induced DDR, we characterized changes in protein ubiquitylation following DNA damage using quantitative di-Gly proteomics. Interestingly, we identified multiple sites of histone H1 that are ubiquitylated upon UV-damage. We show that UV-dependent histone H1 ubiquitylation at multiple lysines is mediated by the E3-ligase HUWE1. Recently, it was shown that poly-ubiquitylated histone H1 is an important signalling intermediate in the double strand break response. This poly-ubiquitylation is dependent on RNF8 and Ubc13 which extend pre-existin

Published

2017

13. Semi-quantitative proteomics of mammalian cells upon short-term exposure to nonionizing electromagnetic fields

Author

Kuzniar, A. (Arnold), Laffeber, C., Eppink, B. (Berina), Bezstarosti, K. (Karel), Dekkers, D.H. (Dick), Woelders, H. (Henri), Zwamborn, A.P.M. (Adrianus), Demmers, J.A.A. (Jeroen), Lebbink, J.H.G. (Joyce), Kanaar, R. (Roland), Kuzniar, A. (Arnold), Laffeber, C., Eppink, B. (Berina), Bezstarosti, K. (Karel), Dekkers, D.H. (Dick), Woelders, H. (Henri), Zwamborn, A.P.M. (Adrianus), Demmers, J.A.A. (Jeroen), Lebbink, J.H.G. (Joyce), and Kanaar, R. (Roland)

Abstract

The potential effects of non-ionizing electromagnetic fields (EMFs), such as those emitted by power-lines (in extremely low frequency range), mobile cellular systems and wireless networking devices (in radio frequency range) on human health have been intensively researched and debated. However, how exposure to these EMFs may lead to biological changes underlying possible health effects is still unclear. To reveal EMF-induced molecular changes, unbiased experiments (without a priori focusing on specific biological processes) with sensitive readouts are required. We present the first proteome-wide semi-quantitative mass spectrometry analysis of human fibroblasts, osteosarcomas and mouse embryonic stem cells exposed to three types of non-ionizing EMFs (ELF 50 Hz, UMTS 2.1 GHz and WiFi 5.8 GHz). We performed controlled in vitro EMF exposures of metabolically labeled mammalian cells followed by reliable statistical analyses of differential protein-and pathway-level regulations using an array of established bioinformatics methods. Our results indicate that less than 1% of the quantitated human or mouse proteome responds to the EMFs by small changes in protein abundance. Further network-based analysis of the differentially regulated proteins did not detect significantly perturbed cellular processes or pathways in human and mouse cells in response to ELF, UMTS or WiFi exposure. In conclusion, our extensive bioinformatics analyses of semi-quantitative mass spectrometry data do not support the notion that the short-time exposures to non-ionizing EMFs have a consistent biologically significant bearing on mammalian cells in culture.

Published

2017

14. DNA damage-induced histone H1 ubiquitylation is mediated by HUWE1 and stimulates the RNF8-RNF168 pathway

Author

Mandemaker, I. K., primary, van Cuijk, L., additional, Janssens, R. C., additional, Lans, H., additional, Bezstarosti, K., additional, Hoeijmakers, J. H., additional, Demmers, J. A., additional, Vermeulen, W., additional, and Marteijn, J. A., additional

Published

2017

15. Combgap contributes to recruitment of Polycomb group proteins in Drosophila

Author

Ray, P. (Payal), De, S. (Sandip), Mitra, A. (Apratim), Bezstarosti, K. (Karel), Demmers, J.A.A. (Jeroen), Pfeifer, K. (Karl), Kassis, J.A. (Judith A.), Ray, P. (Payal), De, S. (Sandip), Mitra, A. (Apratim), Bezstarosti, K. (Karel), Demmers, J.A.A. (Jeroen), Pfeifer, K. (Karl), and Kassis, J.A. (Judith A.)

Abstract

Polycomb group (PcG) proteins are responsible for maintaining the silenced transcriptional state of many developmentally regulated genes. PcG proteins are organized into multiprotein complexes that are recruited to DNA via cis-acting elements known as "Polycomb response elements" (PREs). In Drosophila, PREs consist of binding sites for many different DNA-binding proteins, some known and others unknown. Identification of these DNA-binding proteins is crucial to understanding the mechanism of PcG recruitment to PREs. We report here the identification of Combgap (Cg), a sequence-specific DNA-binding protein that is involved in recruitment of PcG proteins. Cg can bind directly to PREs via GTGT motifs and colocalizes with the PcG proteins Pleiohomeotic (Pho) and Polyhomeotic (Ph) at the majority of PREs in the genome. In addition, Cg colocalizes with Ph at a number of targets independent of Pho. Loss of Cg leads to decreased recruitment of Ph at only a subset of sites; some of these sites are binding sites for other Polycomb repressive complex 1 (PRC1) components, others are not. Our data suggest that Cg can recruit Ph in the absence of PRC1 and illustrate the diversity and redundancy of PcG protein recruitment mechanisms.

Published

2016

16. Multicharged ornithine decarboxylase species result from post-translational modification upon targeted overexpression in mouse heart

Author

AGNETTI, GIULIO, GOVONI, MARCO, GUARNIERI, CARLO, CALDARERA, CLAUDIO MARCELLO, GIORDANO, EMANUELE DOMENICO, Shantz L. M., Bezstarosti K., Dekkers D., Pegg A. E., Lamers J. M. J., Agnetti G., Shantz L.M., Bezstarosti K., Dekkers D., Govoni M., Guarnieri C., Caldarera C.M., Pegg A.E., Lamers J.M.J., and Giordano E.

Published

2005

17. A Testis-Specific Chaperone and the Chromatin Remodeler ISWI Mediate Repackaging of the Paternal Genome

Author

Doyen, C.M. (Cécile), Chalkley, G.E. (Gillian), Voets, O. (Olaf), Bezstarosti, K. (Karel), Demmers, J.A.A. (Jeroen), Moshkin, Y.M. (Yuri), Verrijzer, C.P. (Peter), Doyen, C.M. (Cécile), Chalkley, G.E. (Gillian), Voets, O. (Olaf), Bezstarosti, K. (Karel), Demmers, J.A.A. (Jeroen), Moshkin, Y.M. (Yuri), and Verrijzer, C.P. (Peter)

Abstract

During spermatogenesis, the paternal genome is repackaged into a non-nucleosomal, highly compacted chromatin structure. Bioinformatic analysis revealed that Drosophila sperm chromatin proteins are characterized by a motif related to the high-mobility group (HMG) box, which we termed male-specific transcript (MST)-HMG box. MST77F is a MST-HMG-box protein that forms an essential component of sperm chromatin. The deposition of MST77F onto the paternal genome requires the chaperone function of tNAP, a testis-specific NAP protein. MST77F, in turn, enables the stable incorporation of MST35Ba and MST35Bb into sperm chromatin. Following MST-HMG-box protein deposition, the ATP-dependent chromatin remodeler ISWI mediates the appropriate organization of sperm chromatin. Conversely, at fertilization, maternal ISWI targets the paternal genome and drives its repackaging into de-condensed nucleosomal chromatin. Failure of this transition in ISWI mutant embryos is followed by mitotic defects, aneuploidy, and haploid embryonic divisions. Thus, ISWI enables bi-directional transitions between two fundamentally different forms of chromatin.

Published

2015

18. Control of developmentally primed erythroid genes by combinatorial co-repressor actions

Author

Stadhouders, R. (Ralph), Cico, A. (Alba), Stephen, T. (Tharshana), Thongjuea, S. (Supat), Kolovos, P. (Petros), Baymaz, H.I. (H. Irem), Yu, X. (Xiao), Demmers, J.A.A. (Jeroen), Bezstarosti, K. (Karel), Maas, A. (Alex), Barroca, V. (V.), Kockx, C. (Christel), Ozgur, Z. (Zeliha), IJcken, W.F.J. (Wilfred) van, Arcangeli, M.-L. (Marie-Laure), Andrieu-Soler, C. (Charlotte), Lenhard, B. (Boris), Grosveld, F.G. (Frank), Soler, E. (Eric), Stadhouders, R. (Ralph), Cico, A. (Alba), Stephen, T. (Tharshana), Thongjuea, S. (Supat), Kolovos, P. (Petros), Baymaz, H.I. (H. Irem), Yu, X. (Xiao), Demmers, J.A.A. (Jeroen), Bezstarosti, K. (Karel), Maas, A. (Alex), Barroca, V. (V.), Kockx, C. (Christel), Ozgur, Z. (Zeliha), IJcken, W.F.J. (Wilfred) van, Arcangeli, M.-L. (Marie-Laure), Andrieu-Soler, C. (Charlotte), Lenhard, B. (Boris), Grosveld, F.G. (Frank), and Soler, E. (Eric)

Abstract

How transcription factors (TFs) cooperate within large protein complexes to allow rapid modulation of gene expression during development is still largely unknown. Here we show that the key haematopoietic LIM-domain-binding protein-1 (LDB1) TF complex contains several activator and repressor components that together maintain an erythroid-specific gene expression programme primed for rapid activation until differentiation is induced. A combination of proteomics, functional genomics and in vivo studies presented here identifies known and novel co-repressors, most notably the ETO2 and IRF2BP2 proteins, involved in maintaining this primed state. The ETO2-IRF2BP2 axis, interacting with the NCOR1/SMRT co-repressor complex, suppresses the expression of the vast majority of archetypical erythroid genes and pathways until its decommissioning at the onset of terminal erythroid differentiation. Our experiments demonstrate that multimeric regulatory complexes feature a dynamic interplay between activating and repressing components that determines lineage-specific gene expression and cellular differentiation.

Published

2015

19. Evidence of post-translational modifications of ornithine decarboxylase upon targeted overexpression in murine cardiac tissue

Author

AGNETTI, GIULIO, CALDARERA, CLAUDIO MARCELLO, GUARNIERI, CARLO, GIORDANO, EMANUELE DOMENICO, Shantz L. M., Pegg A. E., Lamers J. M. J., Bezstarosti K., Agnetti G., Shantz L.M., Pegg A. E., Caldarera C.M., Lamers J.M.J., Bezstarosti K., Guarnieri C., and Giordano E.

Published

2004

20. Modificazioni post-traduzionali dell'ornitina decarbossilasi sovraespressa nel miocardio murino

Author

AGNETTI, GIULIO, CALDARERA, CLAUDIO MARCELLO, GUARNIERI, CARLO, GIORDANO, EMANUELE DOMENICO, Shantz L. M., Pegg A. E., Lamers J. M. J., Bezstarosti K., Agnetti G., Shantz L.M., Pegg A.E., Caldarera C.M., Lamers J.M.J., Bezstarosti K., Guarnieri C., and Giordano E.

Published

2004

21. Subunits of the Histone Chaperone CAF1 Also Mediate Assembly of Protamine-Based Chromatin

Author

Doyen, C.M. (Cécile), Moshkin, Y. (Yuri), Chalkley, G.E. (Gillian), Bezstarosti, K. (Karel), Demmers, J.A.A. (Jeroen), Rathke, C. (Christina), Renkawitz-Pohl, R. (Renate), Verrijzer, C.P. (Peter), Doyen, C.M. (Cécile), Moshkin, Y. (Yuri), Chalkley, G.E. (Gillian), Bezstarosti, K. (Karel), Demmers, J.A.A. (Jeroen), Rathke, C. (Christina), Renkawitz-Pohl, R. (Renate), and Verrijzer, C.P. (Peter)

Abstract

One of the most dramatic forms of chromatin reorganization occurs during spermatogenesis, when the paternal genome is repackaged from a nucleosomal to a protamine-based structure. We assessed the role of the canonical histone chaperone CAF1 in Drosophila spermatogenesis. In this process, CAF1 does not behave as a complex, but its subunits display distinct chromatin dynamics. During histone-to-protamine replacement, CAF1-p180 dissociates from the DNA while CAF1-p75 binds and stays on as a component of sperm chromatin. Association of CAF1-p75 with the paternal genome depends on CAF1-p180 and protamines. Conversely, CAF1-p75 binds protamines and is required for their incorporation into sperm chromatin. Histone removal, however, occurs independently of CAF1 or protamines. Thus, CAF1-p180 and CAF1-p75 function in a temporal hierarchy during sperm chromatin assembly, with CAF1-p75 acting as a protamine-loading factor. These results show that CAF1 subunits mediate the assembly of two fundamentally different forms of chromatin.

Published

2013

22. Histone Chaperone NAP1 Mediates Sister Chromatid Resolution by Counteracting Protein Phosphatase 2A

Author

Moshkin, Y.M. (Yuri), Doyen, C.M. (Cécile), Kan, T.W. (Tsung Wai), Chalkley, G.E. (Gillian), Sap, K.A. (Karen), Bezstarosti, K. (Karel), Demmers, J.A.A. (Jeroen), Ozgur, Z. (Zeliha), IJcken, W.F.J. (Wilfred) van, Verrijzer, C.P. (Peter), Moshkin, Y.M. (Yuri), Doyen, C.M. (Cécile), Kan, T.W. (Tsung Wai), Chalkley, G.E. (Gillian), Sap, K.A. (Karen), Bezstarosti, K. (Karel), Demmers, J.A.A. (Jeroen), Ozgur, Z. (Zeliha), IJcken, W.F.J. (Wilfred) van, and Verrijzer, C.P. (Peter)

Abstract

Chromosome duplication and transmission into daughter cells requires the precisely orchestrated binding and release of cohesin. We found that the Drosophila histone chaperone NAP1 is required for cohesin release and sister chromatid resolution during mitosis. Genome-wide surveys revealed that NAP1 and cohesin co-localize at multiple genomic loci. Proteomic and biochemical analysis established that NAP1 associates with the full cohesin complex, but it also forms a separate complex with the cohesin subunit stromalin (SA). NAP1 binding to cohesin is cell-cycle regulated and increases during G2/M phase. This causes the dissociation of protein phosphatase 2A (PP2A) from cohesin, increased phosphorylation of SA and cohesin removal in early mitosis. PP2A depletion led to a loss of centromeric cohesion. The distinct mitotic phenotypes caused by the loss of either PP2A or NAP1, were both rescued by their concomitant depletion. We conclude that the balanced antagonism between NAP1 and PP2A controls cohesin dissociation during mitosis.

Published

2013

23. A direct physical interaction between Nanog and Sox2 regulates embryonic stem cell self-renewal

Author

Gagliardi, A, Mullin, N, Ying Tan, Z, Colby, D, Kousa, A, Halbritter, F, Weiss, J, Felker, A, Bezstarosti, K, Favaro, R, Demmers, J, Nicolis, S, Tomlinson, S, Poot, R, Chambers, I, Chambers, I., FAVARO, REBECCA, NICOLIS, SILVIA KIRSTEN, Gagliardi, A, Mullin, N, Ying Tan, Z, Colby, D, Kousa, A, Halbritter, F, Weiss, J, Felker, A, Bezstarosti, K, Favaro, R, Demmers, J, Nicolis, S, Tomlinson, S, Poot, R, Chambers, I, Chambers, I., FAVARO, REBECCA, and NICOLIS, SILVIA KIRSTEN

Abstract

Embryonic stem (ES) cell self-renewal efficiency is determined by the Nanog protein level. However, the protein partners of Nanog that function to direct self-renewal are unclear. Here, we identify a Nanog interactome of over 130 proteins including transcription factors, chromatin modifying complexes, phosphorylation and ubiquitination enzymes, basal transcriptional machinery members, and RNA processing factors. Sox2 was identified as a robust interacting partner of Nanog. The purified Nanog-Sox2 complex identified a DNA recognition sequence present in multiple overlapping Nanog/Sox2 ChIP-Seq data sets. The Nanog tryptophan repeat region is necessary and sufficient for interaction with Sox2, with tryptophan residues required. In Sox2, tyrosine to alanine mutations within a triple-repeat motif (S X T/S Y) abrogates the Nanog-Sox2 interaction, alters expression of genes associated with the Nanog-Sox2 cognate sequence, and reduces the ability of Sox2 to rescue ES cell differentiation induced by endogenous Sox2 deletion. Substitution of the tyrosines with phenylalanine rescues both the Sox2-Nanog interaction and efficient self-renewal. These results suggest that aromatic stacking of Nanog tryptophans and Sox2 tyrosines mediates an interaction central to ES cell self-renewal

Published

2013

24. Transcription-independent function of polycomb group protein PSC in cell cycle control

Author

Mohd-Sarip, A. (Adone), Lagarou, A. (Anna), Doyen, C.M. (Cécile), Knaap, J.A. (Jan) van der, Aslan, E. (Ece), Bezstarosti, K. (Karel), Yassin, Y. (Yosuf), Brock, H.W. (Hugh), Demmers, J.A.A. (Jeroen), Verrijzer, C.P. (Peter), Mohd-Sarip, A. (Adone), Lagarou, A. (Anna), Doyen, C.M. (Cécile), Knaap, J.A. (Jan) van der, Aslan, E. (Ece), Bezstarosti, K. (Karel), Yassin, Y. (Yosuf), Brock, H.W. (Hugh), Demmers, J.A.A. (Jeroen), and Verrijzer, C.P. (Peter)

Published

2012

25. Drosophila transcription factor tramtrack69 binds MEP1 to recruit the chromatin remodeler NuRD

Author

Reddy, A.B.A. (Ashok), Bajpe, P.K. (Prashanth Kumar), Bassett, A. (Andrew), Moshkin, Y.M. (Yuri), Kozhevnikova, E. (Elena), Bezstarosti, K. (Karel), Demmers, J.A.A. (Jeroen), Travers, A.A. (Andrew), Verrijzer, C.P. (Peter), Reddy, A.B.A. (Ashok), Bajpe, P.K. (Prashanth Kumar), Bassett, A. (Andrew), Moshkin, Y.M. (Yuri), Kozhevnikova, E. (Elena), Bezstarosti, K. (Karel), Demmers, J.A.A. (Jeroen), Travers, A.A. (Andrew), and Verrijzer, C.P. (Peter)

Abstract

ATP-dependent chromatin-remodeling complexes (remodelers) are essential regulators of chromatin structure and gene transcription. How remodelers can act in a gene-selective manner has remained enigmatic. A yeast two-hybrid screen for proteins binding the Drosophila transcription factor Tramtrack69 (TTK69) identified MEP1. Proteomic characterization revealed that MEP1 is a tightly associated subunit of the NuRD remodeler, harboring the Mi2 enzymatic core ATPase. In addition, we identified the fly homolog of human Deleted in oral cancer 1 (DOC1), also known as CDK2-associated protein 1 (CDK2AP1), as a bona fide NuRD subunit. Biochemical and genetic assays supported the functional association between MEP1, Mi2, and TTK69. Genomewide expression analysis established that TTK69, MEP1, and Mi2 cooperate closely to control transcription. The TTK69 transcriptome profile correlates poorly with remodelers other than NuRD, emphasizing the selectivity of remodeler action. On the genes examined, TTK69 is able to bind chromatin in the absence of NuRD, but targeting of NuRD is dependent on TTK69. Thus, there appears to be a hierarchical relationship in which transcription factor binding precedes remodeler recruitment.

Published

2010

26. dKDM2 couples histone H2A ubiquitylation to histone H3 demethylation during Polycomb group silencing

Author

Lagarou, A. (Anna), Mohd Sarip, A.B., Moshkin, Y.M. (Yuri), Chalkley, G.E. (Gillian), Bezstarosti, K. (Karel), Demmers, J.A.A. (Jeroen), Verrijzer, C.P. (Peter), Lagarou, A. (Anna), Mohd Sarip, A.B., Moshkin, Y.M. (Yuri), Chalkley, G.E. (Gillian), Bezstarosti, K. (Karel), Demmers, J.A.A. (Jeroen), and Verrijzer, C.P. (Peter)

Abstract

Transcription regulation involves enzyme-mediated changes in chromatin structure. Here, we describe a novel mode of histone crosstalk during gene silencing, in which histone H2A monoubiquitylation is coupled to the removal of histone H3 Lys 36 dimethylation (H3K36me2). This pathway was uncovered through the identification of dRING-associated factors (dRAF), a novel Polycomb group (PcG) silencing complex harboring the histone H2A ubiquitin ligase dRING, PSC and the F-box protein, and demethylase dKDM2. In vivo, dKDM2 shares many transcriptional targets with Polycomb and counteracts the histone methyltransferases TRX and ASH1. Importantly, cellular depletion and in vitro reconstitution assays revealed that dKDM2 not only mediates H3K36me2 demethylation but is also required for efficient H2A ubiquitylation by dRING/PSC. Thus, dRAF removes an active mark from histone H3 and adds a repressive one to H2A. These findings reveal coordinate trans-histone regulation by a PcG complex to mediate gene repression.

Published

2008

27. The transcriptional coactivator SAYP is a trithorax group signature subunit of the PBAP chromatin remodeling complex

Author

Chalkley, G.E. (Gillian), Moshkin, Y.M. (Yuri), Langenberg, K. (Karin), Bezstarosti, K. (Karel), Blastyak, A. (Andras), Gyurkovics, H. (Henrik), Demmers, J.A.A. (Jeroen), Verrijzer, C.P. (Peter), Chalkley, G.E. (Gillian), Moshkin, Y.M. (Yuri), Langenberg, K. (Karin), Bezstarosti, K. (Karel), Blastyak, A. (Andras), Gyurkovics, H. (Henrik), Demmers, J.A.A. (Jeroen), and Verrijzer, C.P. (Peter)

Abstract

SWI/SNF ATP-dependent chromatin remodeling complexes (remodelers) perform critical functions in eukaryotic gene expression control. BAP and PBAP are the fly representatives of the two evolutionarily conserved major subclasses of SWI/SNF remodelers. Both complexes share seven core subunits, including the Brahma ATPase, but differ in a few signature subunits; POLYBROMO and BAP170 specify PBAP, whereas OSA defines BAP. Here, we show that the transcriptional coactivator and PHD finger protein SAYP is a novel PBAP subunit. Biochemical analysis established that SAYP is tightly associated with PBAP but absent from BAP. SAYP, POLYBROMO, and BAP170 display an intimately overlapping distribution on larval salivary gland polytene chromosomes. Genome-wide expression analysis revealed that SAYP is critical for PBAP-dependent transcription. SAYP is required for normal development and interacts genetically with core- and PBAP-selective subunits. Genetic analysis suggested that, like BAP, PBAP also counteracts Polycomb silencing. SAYP appears to be a key architectural component required for the integrity and association of the PBAP-specific module. We conclude that SAYP is a signature subunit that plays a major role in the functional specificity of the PBAP holoenzyme. Copyright

Published

2008

28. Estrogen-related receptor beta interacts with Oct4 to positively regulate Nanog gene expression

Author

Berg, D.L.C. (Debbie) van den, Zhang, W. (Wensheng), Yates, A. (Adam), Engelen, M.P. (Erik), Takacs, K. (Katalin), Bezstarosti, K. (Karel), Demmers, J.A.A. (Jeroen), Chambers, I. (Ian), Poor, R.A. (Raymond), Berg, D.L.C. (Debbie) van den, Zhang, W. (Wensheng), Yates, A. (Adam), Engelen, M.P. (Erik), Takacs, K. (Katalin), Bezstarosti, K. (Karel), Demmers, J.A.A. (Jeroen), Chambers, I. (Ian), and Poor, R.A. (Raymond)

Abstract

Embryonic stem (ES) cell self-renewal is regulated by transcription factors, including Oct4, Sox2, and Nanog. A number of additional transcriptional regulators of ES cell self-renewal have recently been identified, including the orphan nuclear receptor estrogen-related receptor beta (Esrrb). However, the mode of action of Esrrb in ES cells is unknown. Here, using an Oct4 affinity screen, we identify Esrrb as an Oct4 partner protein. Esrrb can interact with Oct4 independently of DNA. Esrrb is recruited near the Oct-Sox element in the Nanog proximal promoter, where it positively regulates Nanog expression. Esrrb recruitment to the Nanog promoter requires both the presence of Oct4 and a degenerate estrogen-related receptor DNA element. Consistent with its role in Nanog regulation, expression of the Esrrb protein within the Oct4-positive ES cell population is mosaic and correlates with the mosaic expression of the Nanog protein. Together with previous reports that Nanog may regulate Esrrb gene expression, our results suggest that Esrrb and Nanog act as part of a feedback regulatory circuit that modulates the fluctuating self-renewal capacity of ES cell populations. Copyright

Published

2008

29. Deubiquitylating enzyme UBP64 controls cell fate through stabilization of the transcriptional repressor tramtrack

Author

Bajpe, P.K. (Prashanth Kumar), Knaap, J.A. (Jan) van der, Demmers, J.A.A. (Jeroen), Bezstarosti, K. (Karel), Bassett, A. (Andrew), Beusekom, H.M.M. (Heleen) van, Travers, A.A. (Andrew), Verrijzer, C.P. (Peter), Bajpe, P.K. (Prashanth Kumar), Knaap, J.A. (Jan) van der, Demmers, J.A.A. (Jeroen), Bezstarosti, K. (Karel), Bassett, A. (Andrew), Beusekom, H.M.M. (Heleen) van, Travers, A.A. (Andrew), and Verrijzer, C.P. (Peter)

Abstract

Protein ubiquitylation plays a central role in multiple signal transduction pathways. However, the substrate specificity and potential developmental roles of deubiquitylating enzymes remain poorly understood. Here, we show that the Drosophila ubiquitin protease UBP64 controls cell fate in the developing eye. UBP64 represses neuronal cell fate but promotes the formation of nonneuronal cone cells. Using a proteomics approach, we identified the transcriptional repressor Tramtrack (TTK) as a primary UBP64 substrate. In common with TTK, reduced UBP64 levels lead to a loss of cone cells, supernumerary photoreceptors, and mechanosensory bristle cells. Previously, it was demonstrated that the blockade of neuronal cell fate was relieved by SINA-dependent ubiquitylation and degradation of TTK. We found that UBP64 counteracts SINA function by deubiquitylating TTK, leading to its stabilization and thereby promoting a nonneuronal cell fate. Mass spectrometric mapping revealed that SINA ubiquitylates multiple sites dispersed throughout TTK, which are duly deubiquitylated by UBP64. This observation suggests that both E3 SINA and UBP64 use a scanning mechanism to (de)ubiquitylate TTK. We conclude that the balance of TTK ubiquitylation by SINA and deubiquitylation by UBP64 constitutes a specific posttranslational switch controlling cell fate. Copyright

Published

2008

30. Dynamic assembly of end-joining complexes requires interaction between Ku70/80 and XRCC4

Author

Mari, P.O. (Pierre-Olivier), Luider, T.M. (Theo), Houtsmuller, A.B. (Adriaan), Gent, D.C. (Dik) van, Florea, B.I. (Bogdan), Persengiev, S.P. (Stephan), Verkaik, N.S. (Nicole), Brüggenwirth, H.T. (Hennie), Modesti, M. (Mauro), Giglia-Mari, G. (Giuseppina), Bezstarosti, K. (Karel), Demmers, J.A.A. (Jeroen), Mari, P.O. (Pierre-Olivier), Luider, T.M. (Theo), Houtsmuller, A.B. (Adriaan), Gent, D.C. (Dik) van, Florea, B.I. (Bogdan), Persengiev, S.P. (Stephan), Verkaik, N.S. (Nicole), Brüggenwirth, H.T. (Hennie), Modesti, M. (Mauro), Giglia-Mari, G. (Giuseppina), Bezstarosti, K. (Karel), and Demmers, J.A.A. (Jeroen)

Abstract

DNA double-strand break (DSB) repair by nonhomologous end joining (NHEJ) requires the assembly of several proteins on DNA ends. Although biochemical studies have elucidated several aspects of the NHEJ reaction mechanism, much less is known about NHEJ in living cells, mainly because of the inability to visualize NHEJ repair proteins at DNA damage. Here we provide evidence that a pulsed near IR laser can produce DSBs without any visible alterations in the nucleus, and we show that NHEJ proteins accumulate in the irradiated areas. The levels of DSBs and Ku accumulation diminished in time, showing that this approach allows us to study DNA repair kinetics in vivo. Remarkably, the Ku heterodimers on DNA ends we

Published

2006

31. The human bone proteome: Much more than the classical players

Author

Alves, R.D.A.M., primary, Eijken, M., additional, Bezstarosti, K., additional, Demmers, J.A.A., additional, and van Leeuwen, J.P.T.M., additional

Published

2010

32. Adenovirus-based phospholamban antisense expression as a novel approach to improve cardiac contractile dysfunction: comparison of a constitutive viral versus an endothelin-1-responsive cardiac promoter

Author

Eizema, K. (Karin), Fechner, H., Bezstarosti, K. (Karel), Schneider-Rasp, S., Laarse, A. (Arnoud) van der, Wang, H. (Haili), Schultheiss, H.P., Poller, W.C., Lamers, J.M.J. (Jos), Eizema, K. (Karin), Fechner, H., Bezstarosti, K. (Karel), Schneider-Rasp, S., Laarse, A. (Arnoud) van der, Wang, H. (Haili), Schultheiss, H.P., Poller, W.C., and Lamers, J.M.J. (Jos)

Abstract

BACKGROUND: A decrease in sarcoplasmic reticulum Ca(2+) pump (SERCA2) activity is believed to play a role in the impairment of diastolic function of the failing heart. Because the expression ratio of phospholamban (PL) to SERCA2 may be a target to improve contractile dysfunction, a PL antisense RNA strategy was developed under the control of either a constitutive cytomegalovirus (CMV) or an inducible atrial natriuretic factor (ANF) promoter. The latter is upregulated in hypertrophied and failing heart, allowing "induction-by-disease" gene therapy. METHODS AND RESULTS: Part of the PL cDNA was cloned in antisense and sense directions into adenovectors under the control of either a CMV (Ad5CMVPLas and Ad5CMVPLs, respectively) or ANF (Ad5ANFPLas and Ad5ANFPLs, respectively) promoter. Infection of cultured rat neonatal cardiomyocytes with Ad5CMVPLas reduced PL mRNA to 30+/-7% of baseline and PL protein to 24+/-3% within 48 and 72 hours, respectively. The effects were vector dose dependent. Ad5CMVPLas increased the Ca(2+) sensitivity of SERCA2 and reduced the time to 50% recovery of the Ca(2+) transient. A decrease of PL protein was also achieved by infection with Ad5ANFPLas, and the presence of the hypertrophic stimulus, endothelin-1, led to enhanced downregulation of PL. The adenovectors expressing PL sense RNA had no effect on any of the tested parameters. CONCLUSIONS: Vector-mediated PL antisense RNA expression may become a feasible approach to modulate myocyte Ca(2+) homeostasis in the failing heart. The inducible ANF promoter for the first time offers the perspective for induction-by-disease gene therapy, ie, selective expression of therapeutic genes in hypertrophied and failing cardiomyocytes.

Published

2000

33. Mitochondrial adaptations within chronically ischemic swine myocardium

Author

MCFALLS, E, primary, SLUITER, W, additional, SCHOONDERWOERD, K, additional, MANINTVELD, O, additional, LAMERS, J, additional, BEZSTAROSTI, K, additional, VANBEUSEKOM, H, additional, SIKORA, J, additional, WARD, H, additional, and MERKUS, D, additional

Published

2006

34. The effect of a thiadiazinone derived Ca2+ sensitizer on the responsiveness of Mg2+-ATPase to Ca2+ in myofibrils isolated from stunned and nonstunned porcine and human myocardium

Author

Bezstarosti, K. (Karel), Soei, L.K. (Lou Kie), Krams, R. (Rob), Cate, F.J. (Folkert) ten, Verdouw, P.D. (Pieter), Lamers, J.M.J. (Jos), Bezstarosti, K. (Karel), Soei, L.K. (Lou Kie), Krams, R. (Rob), Cate, F.J. (Folkert) ten, Verdouw, P.D. (Pieter), and Lamers, J.M.J. (Jos)

Published

1996

35. Intracellular signaling and genetic reprogramming during agonist-induced hypertrophy of cardiomyocytes

Author

Heugten, H.A. (Han) van, Jonge, H.W. (H.) de, Bezstarosti, K. (Karel), Sharma, H.S. (Hari), Verdouw, P.D. (Pieter), Lamers, J.M.J. (Jos), Heugten, H.A. (Han) van, Jonge, H.W. (H.) de, Bezstarosti, K. (Karel), Sharma, H.S. (Hari), Verdouw, P.D. (Pieter), and Lamers, J.M.J. (Jos)

Published

1995

36. Endothelin-induced response of the phosphatidylinositol cycle in cultured cardiomyocytes exposed to substrate-free hypoxia-reoxygenation

Author

Heugten, H.A. (Han) van, Bezstarosti, K. (Karel), Lamers, J.M.J. (Jos), Heugten, H.A. (Han) van, Bezstarosti, K. (Karel), and Lamers, J.M.J. (Jos)

Published

1994

37. Uptake of thyroid hormones in neonatal rat cardiac myocytes.

Author

Everts, M E, primary, Verhoeven, F A, additional, Bezstarosti, K, additional, Moerings, E P, additional, Hennemann, G, additional, Visser, T J, additional, and Lamers, J M, additional

Published

1996

38. Eicosapentaenoic Acid Incorporation in Membrane Phospholipids Modulates Receptor-mediated Phospholipase C and Membrane Fluidity in Rat Ventricular Myocytes in Culture

Author

DEJONGE, H, primary, DEKKERS, D, additional, BASTIAANSE, L, additional, BEZSTAROSTI, K, additional, VANDERLAARSE, A, additional, and LAMERS, J, additional

Published

1996

39. Intracellular Signaling and Genetic Reprogramming during Agonist-Induced Hypertrophy of Cardiomyocytes

Author

HEUGTEN, H. A. A., primary, JONGE, H. W., additional, BEZSTAROSTI, K., additional, SHARMA, H. S., additional, VERDOUW, P. D., additional, and LAMERS, J. M. J., additional

Published

1995

40. Endothelin-1-Induced Phospholipase C-β and D and Protein Kinase C Isoenzyme Signaling Leading to Hypertrophy in Rat Cardiomyocytes

Author

Lamers, J. M. J., primary, Eskildsen-Helmond, Y. E. G., additional, Resink, A. M., additional, de Jonge, H. W., additional, Bezstarosti, K., additional, Sharma, H. S., additional, and van Heugten, H. A. A., additional

Published

1995

41. Distinct α1-Adrenergic Agonist- and Endothelin-1-Evoked Phosphoinositide Cycle Responses in Cultured Neonatal Rat Cardiomyocytes

Author

Dejonge, H.W., primary, Vanheugten, H.A.A., additional, Bezstarosti, K., additional, and Lamers, J.M.J., additional

Published

1994

42. Increased activity of the sarcoplasmic reticular calcium pump in porcine stunned myocardium

Author

Lamers, J. M J, primary, Duncker, D. J, additional, Bezstarosti, K., additional, McFalls, E. O, additional, Sassen, L. M A, additional, and Verdouw, P. D, additional

Published

1993

43. Negative inotropy of lidocaine: possible biochemical mechanisms

Author

WILSON, R. A., primary, SOEI, L. K., additional, BEZSTAROSTI, K., additional, LAMERS, J. M. J., additional, and VERDOUW, P. D., additional

Published

1993

44. L-propionylcarnitine and myocardial performance in stunned porcine myocardium

Author

Sassen, L. M. A., primary, Duncker, D. J., additional, Hogendoorn, A., additional, McFalls, E. O., additional, Krams, R., additional, Bezstarosti, K., additional, Lamers, J. M. J., additional, and Verdouw, P. D., additional

Published

1992

45. L-propionylcarnitine increases postischemic blood flow but does not affect recovery of energy charge

Author

Sassen, L. M., primary, Bezstarosti, K., additional, Van der Giessen, W. J., additional, Lamers, J. M., additional, and Verdouw, P. D., additional

Published

1991

46. Intracellular Signaling and Genetic Reprogramming during Agonist-Induced Hypertrophy of Cardiomyocytesa.

Author

HEUGTEN, H. A. A., JONGE, H. W., BEZSTAROSTI, K., SHARMA, H. S., VERDOUW, P. D., and LAMERS, J. M. J.

Published

1995

47. The influence of the chain length of aldehydes on the fluorescence of chromolipids

Author

Montfoort, A., Bezstarosti, K., Groh, M.M.J., and Koster, J.F.

Abstract

Incubation of phosphatidylethanolamine containing liposomes with malondialdehyde and other aldehydes with different chain lengths results in the fluorescence of chromolipids. Relative to malondialdehyde, the fluorescence was greatly enhanced with increasing chain length upon incubation of 2-alkenals with phospholipids. Similar results were found using the total lipid extracted from erythrocyte ghosts. It seems that the hydrophobic character of the aldehydes is important for the amount of fluorescence detected in lipid bilayers.

Published

1987

48. The effect of a thiadiazinone derived Ca^2^+ sensitizer on the responsiveness of Mg^2^+-ATPase to Ca^2^+ in myofibrils isolated from stunned and nonstunned porcine and human myocardium

Author

Bezstarosti, K., Soei, Loe Kie, Krams, R., Cate, F. J. Ten, Verdouw, P. D., and Lamers, J. M. J.

Published

1996

49. Proteomics of Urinary Vesicles Links Plakins and Complement to Polycystic Kidney Disease

Author

Salih M, Jeroen Demmers, Bezstarosti K, Wn, Leonhard, Losekoot M, van Kooten C, Rt, Gansevoort, Dj, Peters, Zietse R, Ej, Hoorn, and Dipak, Consortium

50. 70 Differential proteomic profiling and hemodynamic characterization of the pressure overloaded right ventricule in young rats: a novel approach

Author

Faber, M.J., Dalinghaus, M., Lankhuizen, I.M., Bezstarosti, K., Duncker, D.J., Steendijk, P., Lamers, J.M.J., and Helbing, W.A.

Subjects

PROTEOMICS, HEMODYNAMICS

Abstract

An abstract of the study "Differential Proteomic Profiling and Hemodynamic Characterization of the Pressure Overloaded Right Ventricule in Young Rats: A Novel Approach," by M. J. Faber and colleagues is presented.

Published

2004