Your search keyword '"Gent, D.C. (Dik) van"' showing total 57 results

1. Homologous recombination deficiency testing for brca-like tumors: The road to clinical validation

Author

Ladan, M.M. (Marjolijn M.), Gent, D.C. (Dik) van, Jager, A. (Agnes), Ladan, M.M. (Marjolijn M.), Gent, D.C. (Dik) van, and Jager, A. (Agnes)

Abstract

Germline BRCA mutations result in homologous recombination deficiency (HRD) in hereditary breast and ovarian cancer, as well as several types of sporadic tumors. The HRD phenotype makes these tumors sensitive to DNA double strand break-inducing agents, including poly-(ADPribose)-polymerase (PARP) inhibitors. Interestingly, a subgroup of cancers without a BRCA mutation also shows an HRD phenotype. Various methods for selecting patients with HRD tumors beyond BRCA-mutations have been explored. These methods are mainly based on DNA sequencing or functional characteristics of the tumor. We here discuss the various tests and the status of their clinical validation.

Published

2021

2. The RECAP Test Rapidly and Reliably Identifies Homologous Recombination-Deficient Ovarian Carcinomas

Author

Wijk, L.M. (Leen) van, Vermeulen, S., Meijers, M. (Matty), van Diest, M.F., ter Haar, N.T., de Jonge, M.M., Solleveld-Westerink, N., Wezel, T. (Tom) van, Gent, D.C. (Dik) van, Kroep, J. R., Bosse, T., Gaarenstroom, K.N. (Katja), Vrieling, H. (Harry), Vreeswijk, M.P. (Maaike), Wijk, L.M. (Leen) van, Vermeulen, S., Meijers, M. (Matty), van Diest, M.F., ter Haar, N.T., de Jonge, M.M., Solleveld-Westerink, N., Wezel, T. (Tom) van, Gent, D.C. (Dik) van, Kroep, J. R., Bosse, T., Gaarenstroom, K.N. (Katja), Vrieling, H. (Harry), and Vreeswijk, M.P. (Maaike)

Abstract

Recent studies have shown that the efficacy of PARP inhibitors in epithelial ovarian carcinoma (EOC) is related to tumor-specific defects in homologous recombination (HR) and extends beyond BRCA1/2 deficient EOC. A robust method with which to identify HR-deficient (HRD) carcinomas is therefore of utmost clinical importance. In this study, we investigated the proficiency of a functional HR assay based on the detection of RAD51 foci, the REcombination CAPacity (RECAP) test, in identifying HRD tumors in a cohort of prospectively collected epithelial ovarian carcinomas (EOCs). Of the 39 high-grade serous ovarian carcinomas (HGSOC), the RECAP test detected 26% (10/39) to be HRD, whereas ovarian carcinomas of other histologic subtypes (n = 10) were all HR-proficient (HRP). Of the HRD tumors that could be sequenced, 8/9 showed pathogenic BRCA1/2 variants or BRCA1 promoter hypermethylation, indicating that the RECAP test reliably identifies HRD, including but not limited to tumors related to BRCA1/2 deficiency. Furthermore, we found a trend towards better overall survival (OS) of HGSOC patients with RECAP-identified HRD tumors compared to patients with HRP tumors. This study shows that the RECAP test is an attractive alternative to DNA-based HRD tests, and further development of a clinical grade RECAP test is clearly warranted.

Published

2020

3. C-terminal extensions of ku70 and ku80 differentially influence dna end binding properties

Author

Inagawa, T. (Takabumi), Wennink, T. (Thomas), Lebbink, J.H.G. (Joyce), Keijzers, G. (Guido), Florea, B.I. (Bogdan), Verkaik, N.S. (Nicole), Gent, D.C. (Dik) van, Inagawa, T. (Takabumi), Wennink, T. (Thomas), Lebbink, J.H.G. (Joyce), Keijzers, G. (Guido), Florea, B.I. (Bogdan), Verkaik, N.S. (Nicole), and Gent, D.C. (Dik) van

Abstract

The Ku70/80 heterodimer binds to DNA ends and attracts other proteins involved in the non-homologous end-joining (NHEJ) pathway of DNA double-strand break repair. We developed a novel assay to measure DNA binding and release kinetics using differences in Förster resonance e

Published

2020

4. Guide-free Cas9 from pathogenic Campylobacter jejuni bacteria causes severe damage to DNA

Author

Saha, C. (Chinmoy), Mohanraju, P. (Prarthana), Stubbs, A.P. (Andrew), Dugar, G. (Gaurav), Hoogstrate, Y. (Youri), Kremers, G.J. (Gert-Jan), Cappellen, W.A. (Gert) van, Horst-Kreft, D. (Deborah), Laffeber, C., Lebbink, J.H.G. (Joyce), Bruens, S.T. (Serena), Gaskin, D. (Duncan), Beerens, D.M.J.M. (Dior), Klunder, M. (Maarten), Joosten, R. (Rob), Demmers, J.A.A. (Jeroen), Gent, D.C. (Dik) van, Mouton, J.W. (Johan), Spek, P.J. (Peter) van der, Oost, J. van der, Baarlen, P. (Peter) van, Louwen, R.P.L. (Rogier), Saha, C. (Chinmoy), Mohanraju, P. (Prarthana), Stubbs, A.P. (Andrew), Dugar, G. (Gaurav), Hoogstrate, Y. (Youri), Kremers, G.J. (Gert-Jan), Cappellen, W.A. (Gert) van, Horst-Kreft, D. (Deborah), Laffeber, C., Lebbink, J.H.G. (Joyce), Bruens, S.T. (Serena), Gaskin, D. (Duncan), Beerens, D.M.J.M. (Dior), Klunder, M. (Maarten), Joosten, R. (Rob), Demmers, J.A.A. (Jeroen), Gent, D.C. (Dik) van, Mouton, J.W. (Johan), Spek, P.J. (Peter) van der, Oost, J. van der, Baarlen, P. (Peter) van, and Louwen, R.P.L. (Rogier)

Abstract

CRISPR-Cas9 systems are enriched in human pathogenic bacteria and have been linked to cytotoxicity by an unknown mechanism. Here, we show that upon infection of human cells, Campylobacter jejuni secretes its Cas9 (CjeCas9) nuclease into their cytoplasm. Next, a native nuclear localization signal enables CjeCas9 nuclear entry, where it catalyzes metal-dependent nonspecific DNA cleavage leading to cell death. Compared to CjeCas9, native Cas9 of Streptococcus pyogenes (SpyCas9) is more suitable for guide-dependent editing. However, in human cells, native SpyCas9 may still cause some DNA damage, most likely because of its ssDNA cleavage activity. This side effect can be completely prevented by saturation of SpyCas9 with an appropriate guide RNA, which is only partially effective for CjeCas9. We conclude that CjeCas9 plays an active role in attacking human cells rather than in viral defense. Moreover, these unique catalytic features may therefore make CjeCas9 less suitable for genome editing applications.

Published

2020

5. HSF2BP negatively regulates homologous recombination in DNA interstrand crosslink repair

Author

Sato, K. (Koichi), Brandsma, I. (Inger), Rossum-Fikkert, S.E. (Sari) van, Verkaik, N.S. (Nicole), Oostra, A.B. (Anneke), Dorsman, J.C. (Josephine), Gent, D.C. (Dik) van, Knipscheer, P. (Puck), Kanaar, R. (Roland), Zelensky, A. (Alexander), Sato, K. (Koichi), Brandsma, I. (Inger), Rossum-Fikkert, S.E. (Sari) van, Verkaik, N.S. (Nicole), Oostra, A.B. (Anneke), Dorsman, J.C. (Josephine), Gent, D.C. (Dik) van, 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 (ICL) repair in vertebrates. We show that ectopic production of HSF2BP, a BRCA2-interacting protein required for meiotic HR during mouse spermatogenesis, in non-germline human cells acutely sensitize them to ICL-inducing agents (mitomycin C and cisplatin) and PARP inhibitors, resulting in a phenotype characteristic of cells from Fanconi anemia (FA) patients. We biochemically recapitulate the suppression of ICL repair and establish that excess HSF2BP compromises HR by triggering the removal of BRCA2 from the ICL site and thereby preventing the loading of RAD51. This establishes ectopic expression of a wild-type meiotic protein in the absence of any other protein-coding mutations as a new mechanism that can lead to an FA-like cellular phenotype. Naturally occurring elevated production of HSF2BP in tumors may be a source of cancer-promoting genomic instability and also a targetable vulnerability.

Published

2020

6. Uptake and subcellular distribution of radiolabeled polymersomes for radiotherapy

Author

Roobol, S.J. (Stefan), Hartjes, T. (Thomas), Slotman, J.A. (Johan A.), de Kruijff, R.M. (Robin M.), Torrelo, G. (Guzman), Abraham, T.E. (Tsion), Bruchertseifer, F. (Frank), Morgenstern, A. (Alfred), Kanaar, R. (Roland), Gent, D.C. (Dik) van, Houtsmuller, A.B. (Adriaan), Denkova, A.G. (Antonia), Royen, M.E. (Martin), Essers, J. (Jeroen), Roobol, S.J. (Stefan), Hartjes, T. (Thomas), Slotman, J.A. (Johan A.), de Kruijff, R.M. (Robin M.), Torrelo, G. (Guzman), Abraham, T.E. (Tsion), Bruchertseifer, F. (Frank), Morgenstern, A. (Alfred), Kanaar, R. (Roland), Gent, D.C. (Dik) van, Houtsmuller, A.B. (Adriaan), Denkova, A.G. (Antonia), Royen, M.E. (Martin), and Essers, J. (Jeroen)

Abstract

Polymersomes have the potential to be applied in targeted alpha radionuclide therapy, while in addition preventing release of recoiling daughter isotopes. In this study, we investigated the cellular uptake, post uptake processing and intracellular localization of polymersomes. Methods: High-content microscopy was used to validate polymersome uptake kinetics. Confocal (live cell) microscopy was used to elucidate the uptake mechanism and DNA damage induction. Intracellular distribution of polymersomes in 3-D was determined using super-resolution microscopy. Results: We found that altering polymersome size and concentration affects the initial uptake and overall uptake capacity; uptake efficiency and eventual plateau levels varied between cell lines; a

Published

2020

7. Apalutamide sensitizes prostate cancer to ionizing radiation via inhibition of non-homologous end-joining DNA repair

Author

Zhang, W. (Wenhao), Liao, C.-Y. (Chen-Yi), Chtatou, H. (Hajar), Incrocci, L. (Luca), Gent, D.C. (Dik) van, Weerden, W.M. (Wytske) van, Nonnekens, J. (Julie), Zhang, W. (Wenhao), Liao, C.-Y. (Chen-Yi), Chtatou, H. (Hajar), Incrocci, L. (Luca), Gent, D.C. (Dik) van, Weerden, W.M. (Wytske) van, and Nonnekens, J. (Julie)

Abstract

Androgen-deprivation therapy was shown to improve treatment outcome of external beam radiation therapy (EBRT) for locally advanced prostate cancer (PCa). DNA damage response (DDR) was suggested to play a role in the underlying mechanism, but conflicting results were reported. This study aims to reveal the role of the androgen receptor (AR) in EBRT-induced DDR and to investigate whether next-generation AR inhibitor apalutamide can radiosensitize PCa. PCa cell lines and tissue slices were treated with anti-androgen alone or combined with EBRT. The effect of treatments on cell growth, tissue viability, DDR, and cell cycle were investigated. RAD51 and DNA-dependent protein kinase catalytic subunit (DNA-PKcs) levels were determined byWestern blotting. Homologous recombination (HR) capacity was measured with the directed repeats-green fluorescent protein (DR-GFP) assay. We report the radiosensitizing effect of anti-androgens, which showed synergism in combination with EBRT in AR-expressing tumor slices and cell line

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. Role of the DNA damage response in prostate cancer formation, progression and treatment

Author

Zhang, W. (Wenhao), Gent, D.C. (Dik) van, Incrocci, L. (Luca), Weerden, W.M. (Wytske) van, Nonnekens, J. (Julie), Zhang, W. (Wenhao), Gent, D.C. (Dik) van, Incrocci, L. (Luca), Weerden, W.M. (Wytske) van, and Nonnekens, J. (Julie)

Abstract

Background: Clinical and preclinical studies have revealed that alterations in DNA damage response (DDR) pathways may play an important role in prostate cancer (PCa) etiology and progression. These alterations can influence PCa responses to radiotherapy and anti-androgen treatment. The identification of DNA repair gene aberrations in PCa has driven the interest for further evaluation whether these genetic changes may serve as biomarkers for patient stratification. Methods: In this review, we summarize the current knowledge on DDR alterations in PCa, their potential impact on clinical interventions and prospects for improved management of PCa. We particularly focus on the influence of DDR gene mutations on PCa initiation and progression and describe the underlying mechanisms. Results and Conclusions: A better understanding of these mechanisms, will contribute to better disease management as treatment strategies can be chosen based on the specific disease properties, since a growing number of treatments are targeting DDR pathway alterations (such as Poly(ADP-ribose) polymerase inhibitors). Furthermore, the recently discovered crosstalk between the DDR and androgen receptor signaling opens a new array of possible strategies to optimize treatment combinations. We discuss how these recent and ongoing studies will help to improve diagnostic, prognostic and therapeutic approaches for PCa management.

Published

2019

10. Correction to: Role of the DNA damage response in prostate cancer formation, progression and treatment (Prostate Cancer and Prostatic Diseases, (2019), 10.1038/s41391-019-0153-2)

Author

Zhang, W. (Wenhao), Gent, D.C. (Dik) van, Incrocci, L. (Luca), Weerden, W.M. (Wytske) van, Nonnekens, J. (Julie), Zhang, W. (Wenhao), Gent, D.C. (Dik) van, Incrocci, L. (Luca), Weerden, W.M. (Wytske) van, and Nonnekens, J. (Julie)

Abstract

This article was originally published under NPG’s License to Publish, but has now been made available under a CC BY 4.0 license. The PDF and HTML versions of the paper have been modified accordingly.

Published

2019

11. Ex vivo assays to predict enhanced chemosensitization by hyperthermia in urothelial cancer of the bladder

Author

Tempel, N. (Nathalie) van den, Naipal, K.A.T. (Kishan A.T.), Raams, A. (Anja), Gent, D.C. (Dik) van, Franckena, M. (Martine), Boormans, J.L. (Joost), Kanaar, R. (Roland), Tempel, N. (Nathalie) van den, Naipal, K.A.T. (Kishan A.T.), Raams, A. (Anja), Gent, D.C. (Dik) van, Franckena, M. (Martine), Boormans, J.L. (Joost), and Kanaar, R. (Roland)

Abstract

Introduction Bladder cancer (urothelial carcinoma) is a common malignancy characterized by high recurrence rates and intense clinical follow-up, indicating the necessity for more effective therapies. Current treatment regimens include intra-vesical administration of mitomycin C (MMC) for non-muscle invasive disease and systemic cisplatin for muscle-invasive or metastatic disease. Hyperthermia, heating a tumor to 40–44C, enhances the efficacy of these chemotherapeutics by various modes of action, one of which is inhibition of DNA repair via homologous recombination. Here, we explore whether ex vivo assays on freshly obtained bladder tumors can be applied to predict the response towards hyperthermia. Material and methods The cytochrome C release assay (apoptosis) and the RAD51 focus formation assay (DNA repair) were first established in the bladder cancer cell lines RT112 and T24 as measurements for hyperthermia efficiency, and subsequently tested in freshly obtained bladder tumors (n = 59). Results Hyperthermia significantly increased the fraction of apoptotic cells after cisplatin or MMC treatment in both RT112 and T24 cells and in most of the bladder tumors (8/10). The RAD51 focus formation assay detected both morphological and numerical changes of RAD51 foci upon hyperthermia in the RT112 and T24 cell lines. In 64% of 37 analyzed primary bladder tumor samples, hyperthermia induced similar morphological changes in RAD51 foci. Conclusion The cytochrome C assay and the RAD51 focus formation assay are both feasible on freshly obtained bladder tumors, and could serve to predict the efficacy of hyperthermia together with cytotoxic agents, such as MMC or cisplatin.

Published

2018

12. Ex vivo treatment of prostate tumor tissue recapitulates in vivo therapy response

Author

Zhang, W. (Wenhao), Weerden, W.M. (Wytske) van, Ridder, C.M.A. (Corrina) de, Erkens-Schulze, S. (Sigrun), Schönfeld, E. (Edgar), Meijer, T.G. (Titia), Kanaar, R. (Roland), Gent, D.C. (Dik) van, Nonnekens, J. (Julie), Zhang, W. (Wenhao), Weerden, W.M. (Wytske) van, Ridder, C.M.A. (Corrina) de, Erkens-Schulze, S. (Sigrun), Schönfeld, E. (Edgar), Meijer, T.G. (Titia), Kanaar, R. (Roland), Gent, D.C. (Dik) van, and Nonnekens, J. (Julie)

Abstract

Background: In vitro models of prostate cancer (PCa) are not always reliable to evaluate anticancer treatment efficacy. This limitation may be overcome by using viable tumor slice material. Here we report on the establishment of an optimized

Published

2018

13. The CST Complex Mediates End Protection at Double-Strand Breaks and Promotes PARP Inhibitor Sensitivity in BRCA1-Deficient Cells

Author

Barazas, M. (Marco), Annunziato, S. (Stefano), Pettitt, S.J. (Stephen J.), de Krijger, I. (Inge), Ghezraoui, H. (Hind), Roobol, S.J. (Stefan), Lutz, C. (Catrin), Frankum, J. (Jessica), Song, F.F. (Fei Fei), Brough, R. (Rachel), Evers, B. (Bastiaan), Gogola, E. (Ewa), Bhin, J. (Jinhyuk), Ven, H.W.M. (Marieke) van de, Gent, D.C. (Dik) van, Jacobs, J.J.L. (Jacqueline J.L.), Chapman, R. (Ross), Lord, C.J. (Christopher ), Jonkers, J. (Jos), Rottenberg, S. (Sven), Barazas, M. (Marco), Annunziato, S. (Stefano), Pettitt, S.J. (Stephen J.), de Krijger, I. (Inge), Ghezraoui, H. (Hind), Roobol, S.J. (Stefan), Lutz, C. (Catrin), Frankum, J. (Jessica), Song, F.F. (Fei Fei), Brough, R. (Rachel), Evers, B. (Bastiaan), Gogola, E. (Ewa), Bhin, J. (Jinhyuk), Ven, H.W.M. (Marieke) van de, Gent, D.C. (Dik) van, Jacobs, J.J.L. (Jacqueline J.L.), Chapman, R. (Ross), Lord, C.J. (Christopher ), Jonkers, J. (Jos), and Rottenberg, S. (Sven)

Abstract

Selective elimination of BRCA1-deficient cells by inhibitors of poly(ADP-ribose) polymerase (PARP) is a prime example of the concept of synthetic lethality in cancer therapy. This interaction is counteracted by the restoration of BRCA1-independent homologous recombination through loss of factors such as 53BP1, RIF1, and REV7/MAD2L2, which inhibit end resection of DNA double-strand breaks (DSBs). To identify additional factors involved in this process, we performed CRISPR/SpCas9-based loss-of-function screens and selected for factors that confer PARP inhibitor (PARPi) resistance in BRCA1-deficient cells. Loss of members of the CTC1-STN1-TEN1 (CST) complex were found to cause PARPi resistance in BRCA1-deficient cells in vitro and in vivo. We show that CTC1 depletion results in the restoration of end resection and that the CST complex may act downstream of 53BP1/RIF1. These data suggest that, in addition to its role in protecting telomeres, the CST complex also contributes to protecting DSBs from end resection. Using CRISPR/SpCas9-based loss-of-function screens, Barazas et al. show that loss of the CTC1-STN1-TEN1 (CST) complex promotes PARP inhibitor resistance in BRCA1-deficient cells. Mechanistically, the CST complex maintains double-strand break end stability in addition to its role in protecting telomeric ends.

Published

2018

14. Heat-induced BRCA2 degradation in human tumours provides rationale for hyperthermia-PARP-inhibitor combination therapies

Author

Tempel, N. (Nathalie) van den, Odijk, H. (Hanny), Holthe, N. (Netteke) van, Naipal, K.A.T. (Kishan A.T.), Raams, A. (Anja), Eppink, B. (Berina), Gent, D.C. (Dik) van, Hardillo, J.A.U. (José), Verduijn, G.M. (Gerda), Drooger, J.C. (Jan), Rhoon, G.C. (Gerard) van, Smedts, D. (Dineke), van Doorn, H.C. (Helena C.), Boormans, J.L. (Joost), Jager, A. (Agnes), Franckena, M. (Martine), Kanaar, R. (Roland), Tempel, N. (Nathalie) van den, Odijk, H. (Hanny), Holthe, N. (Netteke) van, Naipal, K.A.T. (Kishan A.T.), Raams, A. (Anja), Eppink, B. (Berina), Gent, D.C. (Dik) van, Hardillo, J.A.U. (José), Verduijn, G.M. (Gerda), Drooger, J.C. (Jan), Rhoon, G.C. (Gerard) van, Smedts, D. (Dineke), van Doorn, H.C. (Helena C.), Boormans, J.L. (Joost), Jager, A. (Agnes), Franckena, M. (Martine), and Kanaar, R. (Roland)

Abstract

Purpose: Hyperthermia (40–44 °C) effectively sensitises tumours to radiotherapy by locally altering tumour biology. One of the effects of heat at the cellular level is inhibition of DNA repair by homologous recombination via degradation of the BRCA2-protein. This suggests that hyperthermia can expand the group of patients that benefit from PARP-inhibitors, a drug exploiting homologous recombination deficiency. Here, we explore whether the molecular mechanisms that cause heat-mediated degradation of BRCA2 are conserved in cell lines from various origins and, most importantly, whether, BRCA2 protein levels can be attenuated by heat in freshly biopted human tumours. Experimental design: Cells from four established cell lines and from freshly biopsied material of cervical (15), head- and neck (9) or bladder tumours (27) were heated to 42 °C for 60 min ex vivo. In vivo hyperthermia was studied by taking two biopsies of the same breast or cervical tumour: one before and one after treatment. BRCA2 protein levels were measured by immunoblotting. Results: We found decreased BRCA2-levels after hyperthermia in all established cell lines and in 91% of all tumours treated ex vivo. For tumours treated with hyperthermia in vivo, technical issues and intra-tumour heterogeneity prevented obtaining interpretable results. Conclusions: This study demonstrates that heat-mediated degradation of BRCA2 occurs in tumour material directly derived from patients. Although BRCA2-degradation may not be a practical biomarker for heat deposition in situ, it does suggest that application of hyperthermia could be an effective method to expand the patient group that could benefit from PARP-inhibitors.

Published

2017

15. XLF deficiency results in reduced N-nucleotide addition during V(D)J recombination

Author

IJspeert, H. (Hanna), Rozmus, J. (Jacob), Schwarz, K. (Klaus), Warren, R.L. (René L.), Zessen, D. (David) van, Holt, R. van der, Pico-Knijnenburg, I. (Ingrid), Simons, E.J. (Erik J.), Jerchel, I. (Isabel), Wawer, A. (Angela), Lorenz, M. (Myriam), Patiroglu, T. (Turkan), Akar, H.H. (H. Haluk), Leite, R. (Ricardo), Verkaik, N.S. (Nicole), Stubbs, A.P. (Andrew), Gent, D.C. (Dik) van, Dongen, J.J.M. (Jacques) van, Burg, M. (Mirjam) van der, IJspeert, H. (Hanna), Rozmus, J. (Jacob), Schwarz, K. (Klaus), Warren, R.L. (René L.), Zessen, D. (David) van, Holt, R. van der, Pico-Knijnenburg, I. (Ingrid), Simons, E.J. (Erik J.), Jerchel, I. (Isabel), Wawer, A. (Angela), Lorenz, M. (Myriam), Patiroglu, T. (Turkan), Akar, H.H. (H. Haluk), Leite, R. (Ricardo), Verkaik, N.S. (Nicole), Stubbs, A.P. (Andrew), Gent, D.C. (Dik) van, Dongen, J.J.M. (Jacques) van, and Burg, M. (Mirjam) van der

Abstract

Repair of DNA double-strand breaks (DSBs) by the nonhomologous end-joining pathway (NHEJ) is important not only for repair of spontaneous breaks but also for breaks induced in developing lymphocytes during V(D)J (variable [V], diversity [D], and joining [J] genes) recombination of their antigen receptor loci to create a diverse repertoire. Mutations in the NHEJ factor XLF result in extreme sensitivity for ionizing radiation, microcephaly, and growth retardation comparable to mutations in LIG4 and XRCC4, which together form the NHEJ ligation complex. However, the effect on the immune system is variable (mild to severe immunodeficiency) and less prominent than that seen in deficiencies of NHEJ factors ARTEMIS and DNA-dependent protein kinase catalytic subunit, with defects in the hairp

Published

2016

16. XLF deficiency results in reduced N-nucleotide addition during V(D)J recombination

Author

IJspeert, H. (Hanna), Rozmus, J. (Jacob), Schwarz, K. (Klaus), Warren, R.L. (René L.), Zessen, D. (David) van, Holt, R. van der, Pico-Knijnenburg, I. (Ingrid), Simons, E.J. (Erik J.), Jerchel, I. (Isabel), Wawer, A. (Angela), Lorenz, M. (Myriam), Patiroglu, T. (Turkan), Akar, H.H. (H. Haluk), Leite, R. (Ricardo), Verkaik, N.S. (Nicole), Stubbs, A.P. (Andrew), Gent, D.C. (Dik) van, Dongen, J.J.M. (Jacques) van, Burg, M. (Mirjam) van der, IJspeert, H. (Hanna), Rozmus, J. (Jacob), Schwarz, K. (Klaus), Warren, R.L. (René L.), Zessen, D. (David) van, Holt, R. van der, Pico-Knijnenburg, I. (Ingrid), Simons, E.J. (Erik J.), Jerchel, I. (Isabel), Wawer, A. (Angela), Lorenz, M. (Myriam), Patiroglu, T. (Turkan), Akar, H.H. (H. Haluk), Leite, R. (Ricardo), Verkaik, N.S. (Nicole), Stubbs, A.P. (Andrew), Gent, D.C. (Dik) van, Dongen, J.J.M. (Jacques) van, and Burg, M. (Mirjam) van der

Abstract

Repair of DNA double-strand breaks (DSBs) by the nonhomologous end-joining pathway (NHEJ) is important not only for repair of spontaneous breaks but also for breaks induced in developing lymphocytes during V(D)J (variable [V], diversity [D], and joining [J] genes) recombination of their antigen receptor loci to create a diverse repertoire. Mutations in the NHEJ factor XLF result in extreme sensitivity for ionizing radiation, microcephaly, and growth retardation comparable to mutations in LIG4 and XRCC4, which together form the NHEJ ligation complex. However, the effect on the immune system is variable (mild to severe immunodeficiency) and less prominent than that seen in deficiencies of NHEJ factors ARTEMIS and DNA-dependent protein kinase catalytic subunit, with defects in the hairp

Published

2016

17. Tumor slice culture system to assess drug response of primary breast cancer

Author

Naipal, K.A.T. (Kishan A.T.), Verkaik, N.S. (Nicole), Sanchez, H. (Humberto), Deurzen, C.H.M. (Carolien) van, Bakker, M.A. (Michael) den, Hoeijmakers, J.H.J. (Jan), Kanaar, R. (Roland), Vreeswijk, M.P. (Maaike), Jager, A. (Agnes), Gent, D.C. (Dik) van, Naipal, K.A.T. (Kishan A.T.), Verkaik, N.S. (Nicole), Sanchez, H. (Humberto), Deurzen, C.H.M. (Carolien) van, Bakker, M.A. (Michael) den, Hoeijmakers, J.H.J. (Jan), Kanaar, R. (Roland), Vreeswijk, M.P. (Maaike), Jager, A. (Agnes), and Gent, D.C. (Dik) van

Abstract

Background: The high incidence of breast cancer has sparked the development of novel targeted and personalized therapies. Personalization of cancer treatment requires reliable prediction of chemotherapy responses in individual patients. Effective selection can prevent unnecessary treatment that would mainly result in the unwanted side effects of the therapy. This selection can be facilitated by characterization of individual tumors using robust and specific functional assays, which requires development of powerful ex vivo culture systems and procedures to analyze the response to treatment. Methods: We optimized culture methods for primary breast tumor samples that allowed propagation of tissue ex vivo. We combined several tissue culture strategies, including defined tissue slicing technology, growth medium optimization and use of a rotating platform to increase nutrient exchange. Results: We could maintain tissue cultures for at least 7days without losing tissue morphology, viability or cell proliferation. We also developed methods to determine the cytotoxic response of individual tumors to the chemotherapeutic treatment FAC (5-FU, Adriamycin [Doxorubicin] and Cyclophosphamide). Using this tool we designated tumors as sensitive or resistant and distinguished a clinically proven resistant tumor from other tumors. Conclusion: This method defines conditions that allow ex vivo testing of individual tumor responses to anti-cancer drugs and therefore might improve personalization of breast cancer treatment.

Published

2016

18. BRCA1(185delAG) tumors may acquire therapy resistance through expression of RING-less BRCA1

Author

Drost, R. (Rinske), Dhillon, K.K. (Kiranjit K.), Van Der Gulden, H. (Hanneke), Van Der Heijden, I. (Ingrid), Brandsma, I. (Inger), Cruz, C. (Cristina), Chondronasiou, D. (Dafni), Castroviejo-Bermejo, M. (Marta), Boon, U. (Ute), Schut, E. (Eva), Burg, E. (Eline) van der, Wientjens, E. (Ellen), Pieterse, M. (Mark), Klijn, C. (Christiaan), Klarenbeek, S. (Sjoerd), Loayza-Puch, F. (Fabricio), Elkon, R. (Ran), Van Deemter, L. (Liesbeth), Rottenberg, S. (Sven), Ven, H.W.M. (Marieke) van de, Dekkers, D.H. (Dick), Demmers, J.A.A. (Jeroen), Gent, D.C. (Dik) van, Agami, R. (Reuven), Balmana, J. (Judith), Serra, V. (Violeta), Taniguchi, T. (Toshiyasu), Bouwman, P. (Peter), Jonkers, J. (Jos), Drost, R. (Rinske), Dhillon, K.K. (Kiranjit K.), Van Der Gulden, H. (Hanneke), Van Der Heijden, I. (Ingrid), Brandsma, I. (Inger), Cruz, C. (Cristina), Chondronasiou, D. (Dafni), Castroviejo-Bermejo, M. (Marta), Boon, U. (Ute), Schut, E. (Eva), Burg, E. (Eline) van der, Wientjens, E. (Ellen), Pieterse, M. (Mark), Klijn, C. (Christiaan), Klarenbeek, S. (Sjoerd), Loayza-Puch, F. (Fabricio), Elkon, R. (Ran), Van Deemter, L. (Liesbeth), Rottenberg, S. (Sven), Ven, H.W.M. (Marieke) van de, Dekkers, D.H. (Dick), Demmers, J.A.A. (Jeroen), Gent, D.C. (Dik) van, Agami, R. (Reuven), Balmana, J. (Judith), Serra, V. (Violeta), Taniguchi, T. (Toshiyasu), Bouwman, P. (Peter), and Jonkers, J. (Jos)

Abstract

Heterozygous germline mutations in breast cancer 1 (BRCA1) strongly predispose women to breast cancer. BRCA1 plays an important role in DNA double-strand break (DSB) repair via homologous recombination (HR), which is important for tumor suppression. Although BRCA1-deficient cells are highly sensitive to treatment with DSB-inducing agents through their HR deficiency (HRD), BRCA1-associated tumors display heterogeneous responses to platinum drugs and poly(ADP-ribose) polymerase (PARP) inhibitors in clinical trials. It is unclear whether all pathogenic BRCA1 mutations have similar effects on the response to therapy. Here, we have investigated mammary tumorigenesis and therapy sensitivity in mice carrying the Brca1 _185stop_ and Brca1 _5382stop_ alleles, which respectively mimic the 2 most common BRCA1 founder mutations, BRCA1 _185delAG_ and BRCA1 _5382insC_. Both the Brca1185stop and Brca1 _5382stop_ mutations predisposed animals to mammary tumors, but Brca1 _185stop_ tumors responded markedly worse to HRD-targeted therapy than did Brca1 _5382stop_ tumors. Mice expressing Brca1 _185stop_ mutations also developed therapy resistance more rapidly than did mice expressing Brca1 _5382stop_. We determined that both murine Brca1 _185stop_ tumors and human BRCA1 _185delAG_ breast cancer cells expressed a really interesting new gene domain-less (RING-less) BRCA1 protein that mediated resistance to HRD-targeted therapies. Together, these results suggest that expression of RING-less BRCA1 may serve as a marker to predict poor response to DSB-inducing therapy in human cancer patients.

Published

2016

19. Potentiation of peptide receptor radionuclide therapy by the PARP inhibitor olaparib

Author

Nonnekens, J. (Julie), van Kranenburg, M. (Melissa), Beerens, C.E.M.T. (Cecile), Suker, M. (Mustafa), Doukas, M. (Michael), Eijck, C.H.J. (Casper) van, Jong, M. (Marcel) de, Gent, D.C. (Dik) van, Nonnekens, J. (Julie), van Kranenburg, M. (Melissa), Beerens, C.E.M.T. (Cecile), Suker, M. (Mustafa), Doukas, M. (Michael), Eijck, C.H.J. (Casper) van, Jong, M. (Marcel) de, and Gent, D.C. (Dik) van

Abstract

Metastases expressing tumor-specific receptors can be targeted and treated by binding of radiolabeled peptides (peptide receptor radionuclide therapy or PRRT). For example, patients with metastasized somatostatin receptor-positive neuroendocrine tumors (NETs) can be treated with radiolabeled somatostatin analogues, resulting in strongly increased progression-free survival and quality of life. There is nevertheless still room for improvement, as very few patients can be cured at this stage of disease. We aimed to specifically sensitize replicating tumor cells without further damage to healthy tissues. Thereto we investigated the DNA damaging effects of PRRT with the purpose to enhance these effects through modulation of the DNA damage response. Although PRRT induces DNA double strand breaks (DSBs), a larger fraction of the induced lesions are single strand breaks (expected to be similar to those induced by external beam radiotherapy) that require poly-[ADP-ribose]-polymerase 1 (PARP-1) activity for repair. If these breaks cannot be repaired, they will cause replication fork arrest and DSB formation during replication. Therefore, we used the PARP-1 inhibitor Olaparib to increase the number of cytotoxic DSBs. Here we show that this new combination strategy synergistically sensitized somatostatin receptor expressing cells to PRRT. We observed increased cell death and reduced cellular proliferation compared to the PRRT alone. The enhanced cell death was caused by increased numbers of DSBs that are repaired with remarkably slow kinetics, leading to genome instability. Furthermore, we validated the increased DSB induction after PARP inhibitor addition in the clinically relevant model of living human NET slices. We expect that this combined regimen can thus augment current PRRT outcomes.

Published

2016

20. Targeted inhibition of metastatic melanoma through interference with Pin1-FOXM1 signaling

Author

Kruiswijk, F., Hasenfuss, S.C., Sivapatham, R., Baar, M.P. (Marjolein), Putavet, D., Naipal, K.A.T. (Kishan A.T.), Broek, N.J.F. (Niels) van den, Kruit, W.H.J. (Wim), Van Der Spek, P.J., Gent, D.C. (Dik) van, Brenkman, A.B. (Arjan), Campisi, J., Burgering, B.M. (Boudewijn), Hoeijmakers, J.H.J. (Jan), Keizer, P.L.J. (Peter) de, Kruiswijk, F., Hasenfuss, S.C., Sivapatham, R., Baar, M.P. (Marjolein), Putavet, D., Naipal, K.A.T. (Kishan A.T.), Broek, N.J.F. (Niels) van den, Kruit, W.H.J. (Wim), Van Der Spek, P.J., Gent, D.C. (Dik) van, Brenkman, A.B. (Arjan), Campisi, J., Burgering, B.M. (Boudewijn), Hoeijmakers, J.H.J. (Jan), and Keizer, P.L.J. (Peter) de

Abstract

Melanoma is the most lethal form of skin cancer and successful treatment of metastatic melanoma remains challenging. BRAF/MEK inhibitors only show a temporary benefit due to rapid occurrence of resistance, whereas immunotherapy is mainly effective in selected subsets of patients. Thus, there is a need to identify new targets to improve treatment of metastatic melanoma. To this extent, we searched for markers that are elevated in melanoma and are under regulation of potentially druggable enzymes. Here, we show that the pro-proliferative transcription factor FOXM1 is elevated and activated in malignant melanoma. FOXM1 activity correlated with expression of the enzyme Pin1, which we found to be indicative of a poor prognosis. In functional experiments, Pin1 proved to be a main regulator of FOXM1 activity through MEK-dependent physical regulation during the cell cycle. The Pin1-FOXM1 interaction was enhanced by BRAF V600E, the driver oncogene in the majority of melanomas, and in extrapolation of the correlation data, interference with Pin1 in BRAF V600E-driven metastatic melanoma cells impaired both FOXM1 activity and cell survival. Importantly, cell-permeable Pin1-FOXM1-blocking peptides repressed the proliferation of melanoma cells in freshly isolated human metastatic melanoma ex vivo and in three-dimensional-cultured patient-derived melanoids. When combined with the BRAF V600E-inhibitor PLX4032 a robust repression in melanoid viability was obtained, establishing preclinical value of patient-derived melanoids for prognostic use of drug sensitivity and further underscoring the beneficial effect of Pin1-FOXM1 inhibitory peptides as anti-melanoma drugs. These proof-of-concept results provide a starting point for development of therapeutic Pin1-FOXM1 inhibitors to target metastatic melanoma.

Published

2016

21. Tumor slice culture system to assess drug response of primary breast cancer

Author

Naipal, A.T. (Kishan), Verkaik, N.S. (Nicole), Sanchez, S.H. (Humberto), Deurzen, C.H.M. (Carolien) van, Bakker, M.A. (Michael) den, Hoeijmakers, J.H.J. (Jan), Kanaar, R. (Roland), Vreeswijk, M.P. (Maaike), Jager, A. (Agnes), Gent, D.C. (Dik) van, Naipal, A.T. (Kishan), Verkaik, N.S. (Nicole), Sanchez, S.H. (Humberto), Deurzen, C.H.M. (Carolien) van, Bakker, M.A. (Michael) den, Hoeijmakers, J.H.J. (Jan), Kanaar, R. (Roland), Vreeswijk, M.P. (Maaike), Jager, A. (Agnes), and Gent, D.C. (Dik) van

Abstract

Background The high incidence of breast cancer has sparked the development of novel targeted and personalized therapies. Personalization of cancer treatment requires reliable prediction of chemotherapy responses in individual patients. Effective selection can prevent unnecessary treatment that would mainly result in the unwanted side effects of the therapy. This selection can be facilitated by characterization of individual tumors using robust and specific functional assays, which requires development of powerful ex vivo culture systems and procedures to analyze the response to treatment. Methods We optimized culture methods for primary breast tumor samples that allowed propagation of tissue ex vivo. We combined several tissue culture strategies, including defined tissue slicing technology, growth medium optimization and use of a rotating platform to increase nutrient exchange. Results We could maintain tissue cultures for at least 7 days without losing tissue morphology, viability or cell proliferation. We also developed methods to determine the cytotoxic response of individual tumors to the chemotherapeutic treatment FAC (5-FU, Adriamycin [Doxorubicin] and Cyclophosphamide). Using this tool we designated tumors as sensitive or resistant and distinguished a clinically proven resistant tumor from other tumors. Conclusion This method defines conditions that allow ex vivo testing of individual tumor responses to anti-cancer drugs and therefore might improve personalization of breast cancer treatment.

Published

2016

22. Attenuated XPC expression is not associated with impaired DNA repair in bladder cancer

Author

Naipal, K.A.T. (Kishan A.T.), Raams, A. (Anja), Bruens, S.T. (Serena), Brandsma, I. (Inger), Verkaik, N.S. (Nicole), Jaspers, N.G.J. (Nicolaas), Hoeijmakers, J.H.J. (Jan), Leenders, G.J.H.L. (Geert), Pothof, J. (Joris), Kanaar, R. (Roland), Boormans, J.L. (Joost), Gent, D.C. (Dik) van, Naipal, K.A.T. (Kishan A.T.), Raams, A. (Anja), Bruens, S.T. (Serena), Brandsma, I. (Inger), Verkaik, N.S. (Nicole), Jaspers, N.G.J. (Nicolaas), Hoeijmakers, J.H.J. (Jan), Leenders, G.J.H.L. (Geert), Pothof, J. (Joris), Kanaar, R. (Roland), Boormans, J.L. (Joost), and Gent, D.C. (Dik) van

Abstract

Bladder cancer has a high incidence with significant morbidity and mortality. Attenuated expression of the DNA damage response protein Xeroderma Pigmentosum complementation group C (XPC) has been described in bladder cancer. XPC plays an essential role as the main initiator and damage-detector in global genome nucleotide excision repair (NER) of UV-induced lesions, bulky DNA adducts and intrastrand crosslinks, such as those made by the chemotherapeutic agent Cisplatin. Hence, XPC protein might be an informative biomarker to guide personalized therapy strategies in a subset of bladder cancer cases. Therefore, we measured the XPC protein expression level and functional NER activity of 36 bladder tumors in a standardized manner. We optimized conditions for dissociation and in vitro culture of primary bladder cancer cells and confirmed attenuated XPC expression in approximately 40% of the tumors. However, NER activity was similar to co-cultured wild type cells in all but one of 36 bladder tumors. We conclude, that (i) functional NER deficiency is a relatively rare phenomenon in bladder cancer and (ii) XPC protein levels are not useful as biomarker for NER activity in these tumors.

Published

2015

23. REV7 counteracts DNA double-strand break resection and affects PARP inhibition

Author

Xu, G. (Guotai), Ross Chapman, J., Brandsma, I. (Inger), Yuan, J. (Jingsong), Mistrik, M. (Martin), Bouwman, R.J.P. (Peter), Bartkova, J. (Jirina), Gogola, E. (Ewa), Warmerdam, D.O. (Daniël), Barazas, M. (Marco), Jaspers, J.E. (Janneke), Watanabe, K. (Kenji), Pieterse, M. (Mark), Kersbergen, A. (Ariena), Sol, W. (Wendy), Celie, P.H. (Patrick H.), Schouten, P.C. (Philip), Van Den Broek, B. (Bram), Salman, A. (Ahmed), Nieuwland, M. (Marja), De Rink, I. (Iris), Ronde, J. (Jorma) de, Jalink, K. (Kees), Boulton, S.J. (Simon J.), Chen, J. (Junjie), Gent, D.C. (Dik) van, Bartek, J. (Jiri), Jonkers, J. (Jos), Borst, P. (Piet), Rottenberg, S. (Sven), Xu, G. (Guotai), Ross Chapman, J., Brandsma, I. (Inger), Yuan, J. (Jingsong), Mistrik, M. (Martin), Bouwman, R.J.P. (Peter), Bartkova, J. (Jirina), Gogola, E. (Ewa), Warmerdam, D.O. (Daniël), Barazas, M. (Marco), Jaspers, J.E. (Janneke), Watanabe, K. (Kenji), Pieterse, M. (Mark), Kersbergen, A. (Ariena), Sol, W. (Wendy), Celie, P.H. (Patrick H.), Schouten, P.C. (Philip), Van Den Broek, B. (Bram), Salman, A. (Ahmed), Nieuwland, M. (Marja), De Rink, I. (Iris), Ronde, J. (Jorma) de, Jalink, K. (Kees), Boulton, S.J. (Simon J.), Chen, J. (Junjie), Gent, D.C. (Dik) van, Bartek, J. (Jiri), Jonkers, J. (Jos), Borst, P. (Piet), and Rottenberg, S. (Sven)

Abstract

Error-free repair of DNA double-strand breaks (DSBs) is achieved by homologous recombination (HR), and BRCA1 is an important factor for this repair pathway. In the absence of BRCA1-mediated HR, the administration of PARP inhibitors induces synthetic lethality of tumour cells of patients with breast or ovarian cancers. Despite the benefit of this tailored therapy, drug resistance can occur by HR restoration. Genetic reversion of BRCA1-inactivating mutations can be the underlying mechanism of drug resistance, but this does not explain resistance in all cases. In particular, little is known about BRCA1-independent restoration of HR. Here we show that loss of REV7 (also known as MAD2L2) in mouse and human cell lines re-establishes CTIP-dependent end resection of DSBs in BRCA1-deficient cells, leading to HR restoration and PARP inhibitor resistance, which is reversed by ATM kinase inhibition. REV7 is recruited to DSBs in a manner dependent on the H2AX-MDC1-RNF8-RNF168-53BP1 chromatin pathway, and seems to block HR and promote end joining in addition to its regulatory role in DNA damage tolerance. Finally, we establish that REV7 blocks DSB resection to promote non-homologous end-joining during immunoglobulin class switch recombination. Our results reveal an unexpected crucial function of REV7 downstream of 53BP1 in coordinating pathological DSB repair pathway choices in BRCA1-deficient cells.

Published

2015

24. An XRCC4 splice mutation associated with severe short stature, gonadal failure, and early-onset metabolic syndrome

Author

Bruin, C. (Christiaan) de, Mericq, V. (Veronica), Andrew, S.F. (Shayne F.), Duyvenvoorde, H.A. (Hermine) van, Verkaik, N.S. (Nicole), Losekoot, M. (Monique), Porollo, A. (Aleksey), Garcia, H. (Hernán), Kuang, Y. (Yi), Hanson, D. (Dan), Clayton, P.E. (P.), Gent, D.C. (Dik) van, Wit, J.M. (Jan), Hwa, V. (Vivian), Dauber, A. (Andrew), Bruin, C. (Christiaan) de, Mericq, V. (Veronica), Andrew, S.F. (Shayne F.), Duyvenvoorde, H.A. (Hermine) van, Verkaik, N.S. (Nicole), Losekoot, M. (Monique), Porollo, A. (Aleksey), Garcia, H. (Hernán), Kuang, Y. (Yi), Hanson, D. (Dan), Clayton, P.E. (P.), Gent, D.C. (Dik) van, Wit, J.M. (Jan), Hwa, V. (Vivian), and Dauber, A. (Andrew)

Abstract

Copyright

Published

2015

25. Clinical Spectrum of LIG4 Deficiency Is Broadened with Severe Dysmaturity, Primordial Dwarfism, and Neurological Abnormalities

Author

IJspeert, H. (Hanna), Warris, A. (Adilia), Flier, M. (Michiel) van der, Reisli, I. (Ismail), Keles, S. (Sevgi), Chishimba, S. (Sandra), Dongen, J.J.M. (Jacques) van, Gent, D.C. (Dik) van, Burg, M. (Mirjam) van der, IJspeert, H. (Hanna), Warris, A. (Adilia), Flier, M. (Michiel) van der, Reisli, I. (Ismail), Keles, S. (Sevgi), Chishimba, S. (Sandra), Dongen, J.J.M. (Jacques) van, Gent, D.C. (Dik) van, and Burg, M. (Mirjam) van der

Abstract

DNA double-strand break repair via non-homologous end joining (NHEJ) is involved in recombination of immunoglobulin and T-cell receptor genes. Mutations in NHEJ components result in syndromes that are characterized by microcephaly and immunodeficiency. We present a patient with lymphopenia, extreme radiosensitivity, severe dysmaturity, corpus callosum agenesis, polysyndactily, dysmorphic appearance, and erythema, which are suggestive of a new type of NHEJ deficiency. We identified two heterozygous mutations in LIG4. The p.S205LfsX29 mutation results in lack of the nuclear localization signal and appears to be a null mutation. The second mutation p.K635RfsX10 lacks the C-terminal region responsible for XRCC4 binding and LIG4 stability and activity, and therefore this mutant might be a null mutation as well or have very low residual activity. This is remarkable since Lig4 knockout mice are embryonic lethal and so far in humans no complete LIG4 deficiencies have been described. This case broadens the clinical spectrum of LIG4 deficiencies.

Published

2013

26. A regulatory role for the cohesin loader NIPBL in nonhomologous end joining during immunoglobulin class switch recombination

Author

Enervald, E. (Elin), Du, L. (Likun), Visnes, T. (Torkild), Björkman, A. (Andrea), Lindgren, E. (Emma), Wincent, J. (Josephine), Göbel, H. (Hartmut), Colleaux, L. (Laurence), Cormier-Daire, V. (Valerie), Gent, D.C. (Dik) van, Pie, J. (Juan), Puisac, B. (Beatriz), Miranda, N.F.C.C. (Noel) de, Kracker, S. (Sven), Hammarström, L. (Lennart), Villartay, J.P. de, Durandy, A. (Anne), Schoumans, J. (Jacqueline), Ström, L. (Lena), Pan-Hammarström, Q. (Qiang), Enervald, E. (Elin), Du, L. (Likun), Visnes, T. (Torkild), Björkman, A. (Andrea), Lindgren, E. (Emma), Wincent, J. (Josephine), Göbel, H. (Hartmut), Colleaux, L. (Laurence), Cormier-Daire, V. (Valerie), Gent, D.C. (Dik) van, Pie, J. (Juan), Puisac, B. (Beatriz), Miranda, N.F.C.C. (Noel) de, Kracker, S. (Sven), Hammarström, L. (Lennart), Villartay, J.P. de, Durandy, A. (Anne), Schoumans, J. (Jacqueline), Ström, L. (Lena), and Pan-Hammarström, Q. (Qiang)

Abstract

DNA double strand breaks (DSBs) are mainly repaired via homologous recombination (HR) or nonhomologous end joining (NHEJ). These breaks pose severe threats to genome integrity but can also be necessary intermediates of normal cellular processes such as immunoglobulin class switch recombination (CSR). During CSR, DSBs are produced in the G1 phase of the cell cycle and are repaired by the classical NHEJ machinery. By studying B lymphocytes derived from patients with Cornelia de Lange Syndrome, we observed a strong correlation between heterozygous loss-of-function mutations in the gene encoding the cohesin loading protein NIPBL and a shift toward the use of an alternative, microhomology-based end joining during CSR. Furthermore, the early recruitme

Published

2013

27. Pathway choice in DNA double strand break repair: Observations of a balancing act

Author

Brandsma, I. (Inger), Gent, D.C. (Dik) van, Brandsma, I. (Inger), and Gent, D.C. (Dik) van

Abstract

Proper repair of DNA double strand breaks (DSBs) is vital for the preservation of genomic integrity. There are two main pathways that repair DSBs, Homologous recombination (HR) and Non-homologous end-joining (NHEJ). HR is restricted to the S and G2 phases of the cell cycle due to the requirement for the sister chromatid as a template, while NHEJ is active throughout the cell cycle and does not rely on a template. The balance between both pathways is essential for genome stability and numerous assays have been developed to measure the efficiency of the two pathways. Several proteins are known to affect the balance between HR and NHEJ and the complexity of the break also plays a role. In this review we describe several repair assays to determine the efficiencies of both pathways. We discuss how disturbance of the balance between HR and NHEJ can lead to disease, but also how it can be exploited for cancer treatment.

Published

2012

28. A DNA-PKcs mutation in a radiosensitive T-B- SCID patient inhibits Artemis activation and nonhomologous end-joining

Author

Burg, M. (Mirjam) van der, IJspeert, H. (Hanna), Verkaik, N.S. (Nicole), Turul, T. (Tuba), Wiegant, W.W. (Wouter), Morotomi-Yano, K. (Keiko), Mari, P.O. (Pierre-Olivier), Tezcan, I. (Ilhan), Chen, D.J. (David), Zdzienicka, M.Z. (Malgorzata), Dongen, J.J.M. (Jacques) van, Gent, D.C. (Dik) van, Burg, M. (Mirjam) van der, IJspeert, H. (Hanna), Verkaik, N.S. (Nicole), Turul, T. (Tuba), Wiegant, W.W. (Wouter), Morotomi-Yano, K. (Keiko), Mari, P.O. (Pierre-Olivier), Tezcan, I. (Ilhan), Chen, D.J. (David), Zdzienicka, M.Z. (Malgorzata), Dongen, J.J.M. (Jacques) van, and Gent, D.C. (Dik) van

Abstract

Radiosensitive T-B- severe combined immunodeficiency (RS-SCID) is caused by defects in the nonhomologous end-joining (NHEJ) DNA repair pathway, which results in failure of functional V(D)J recombination. Here we have identified the first human RS-SCID patient to our knowledge with a DNA-PKcs missense mutation (L3062R). The causative mutation did not affect the kinase activity or DNA end-binding capacity of DNA-PKcs itself; rather, the presence of long P-nucleotide stretches in the immunoglobulin coding joints indicated that it caused insufficient Artemis activation, something that is dependent on Artemis interaction with autophosphorylated DNA-PKcs. Moreover, overall end-joining activity was hampered, suggesting that Artemis-independent DNA-PKcs functions were also inhibited. This study demonstrates that the presence of DNA-PKcs kinase activity is not sufficient to rule out a defect in this gene during diagnosis and treatment of RS-SCID patients. Further, the data suggest that residual DNA-PKcs activity is indispensable in humans.

Published

2009

29. A mouse model for chronic lymphocytic leukemia based on expression of the SV40 large T antigen

Author

Brugge, P.J. (Petra) ter, Ta, T.B.V. (Thi), Bruijn, M.J.W. (Marjolein) de, Keijzers, G. (Guido), Maas, A. (Alex), Gent, D.C. (Dik) van, Hendriks, R.W. (Rudi), Brugge, P.J. (Petra) ter, Ta, T.B.V. (Thi), Bruijn, M.J.W. (Marjolein) de, Keijzers, G. (Guido), Maas, A. (Alex), Gent, D.C. (Dik) van, and Hendriks, R.W. (Rudi)

Abstract

The simian virus 40 (SV40) T antigen is a potent oncogene able to transform many cell types and has been implicated in leukemia and lymphoma. In this report, we have achieved sporadic SV40 Tantigen expression in mature B cells in mice, by insertion of a SV40 T antigen gene in opposite transcriptional orientation in the immunoglobulin (Ig) heavy (H) chain locus between the D and JHsegments. SV40 T-antigen expression appeared to result from retention of the targeted germline allele and concomitant antisense transcription of SV40 large T in mature B cells, leading to chronic lymphocytic leukemia (CLL). Although B-cell development was unperturbed in young mice, aging mice showed accumulation of a monoclonal B-cell population in which the targeted IgH allele was in germline configuration and the wild-type IgH allele had a productive V(D)J recombination. These leukemic B cells were IgDlowCD5and manifested nonrandom usage of V, D, and J segments. VHregions were either unmutated, with preferential usage of the VH11 family, or manifested extensive somatic hypermutation. Our findings provide an animal model for B-CLL and show that pathways activated by SV40 T antigen play important roles in the pathogenesis of B-CLL.

Published

2009

30. MicroRNA-mediated gene silencing modulates the UV-induced DNA-damage response

Author

Pothof, J. (Joris), Verkaik, N.S. (Nicole), IJcken, W.F.J. (Wilfred) van, Wiemer, E.A.C. (Erik), Ta, V.T.B. (Van), Horst, G.T.J. (Gijsbertus) van der, Jaspers, N.G.J. (Nicolaas), Gent, D.C. (Dik) van, Hoeijmakers, J.H.J. (Jan), Persengiev, S.P. (Stephan), Pothof, J. (Joris), Verkaik, N.S. (Nicole), IJcken, W.F.J. (Wilfred) van, Wiemer, E.A.C. (Erik), Ta, V.T.B. (Van), Horst, G.T.J. (Gijsbertus) van der, Jaspers, N.G.J. (Nicolaas), Gent, D.C. (Dik) van, Hoeijmakers, J.H.J. (Jan), and Persengiev, S.P. (Stephan)

Abstract

DNA damage provokes DNA repair, cell-cycle regulation and apoptosis. This DNA-damage response encompasses gene-expression regulation at the transcriptional and post-translational levels. We show that cellular responses to UV-induced DNA damage are also regulated at the post-transcriptional level by microRNAs. Survival and checkpoint response after UV damage was severely reduced on microRNA-mediated gene-silencing inhibition by knocking down essential components of the microRNA-processing pathway (Dicer and Ago2). UV damage triggered a cell-cycle-dependent relocalization of Ago2 into stress granules and various microRNA-expression changes. Ago2 relocalization required CDK activity, but was independent of ATM/ATR checkpoint signalling, whereas UV-responsive microRNA expression was only partially ATM/ATR independent. Both microRNA-expression changes and stress-granule formation were most pronounced within the first hours after genotoxic stress, suggesting that microRNA-mediated gene regulation operates earlier than most transcriptional responses. The functionality of the microRNA response is illustrated by the UV-inducible miR-16 that downregulates checkpoint-gene CDC25a and regulates cell proliferation. We conclude that microRNA-mediated gene regulation adds a new dimension to the DNA-damage response.

Published

2009

31. A new type of radiosensitive T-B-NK+ severe combined immunodeficiency caused by a LIG4 mutation

Author

Burg, M. (Mirjam) van der, Zdzienicka, M.Z. (Malgorzata), Dongen, J.J.M. (Jacques) van, Gent, D.C. (Dik) van, Veelen, L.R. (Lieneke) van, Verkaik, N.S. (Nicole), Wiegant, W.W. (Wouter), Hartwig, N.G. (Nico), Barendregt, B.H. (Barbara), Brugmans, L.J.L. (Linda), Raams, A. (Anja), Jaspers, N.G.J. (Nicolaas), Burg, M. (Mirjam) van der, Zdzienicka, M.Z. (Malgorzata), Dongen, J.J.M. (Jacques) van, Gent, D.C. (Dik) van, Veelen, L.R. (Lieneke) van, Verkaik, N.S. (Nicole), Wiegant, W.W. (Wouter), Hartwig, N.G. (Nico), Barendregt, B.H. (Barbara), Brugmans, L.J.L. (Linda), Raams, A. (Anja), and Jaspers, N.G.J. (Nicolaas)

Abstract

V(D)J recombination of Ig and TCR loci is a stepwise process during which site-specific DNA double-strand breaks (DSBs) are made by RAG1/RAG2, followed by DSB repair by nonhomologous end joining. Defects in V(D)J recombination result in SCID characterized by absence of mature B and T cells. A subset of T -B-NK+ SCID patients is sensitive to ionizing radiation, and the majority of these patients have mutations in Artemis. We present a patient with a new type of radiosensitive T-B -NK+ SCID with a defect in DNA ligase IV (LIG4). To date, LIG4 mutations have only been described in a radiosensitive leukemia patient and in 4 patients with a designated LIG4 syndrome, which is associated with chromosomal instability, pancytopenia, and developmental and growth delay. The patient described here shows that a LIG4 mutation can also cause T -B-NK+ SCID without developmental defects. The LIG4-deficient SCID patient had an incomplete but severe block in precursor B cell differentiation, resulting in extremely low levels of blood B cells. The residual DH-JH junctions showed extensive nucleotide deletions, apparently caused by prolonged exonuclease activity during the delayed DH-JH ligation process. In conclusion, different LIG4 mutations can result in either a developmental defect with minor immunological abnormalities or a SCID picture with normal development.

Published

2006

32. A new type of radiosensitive T-B-NK+ severe combined immunodeficiency caused by a LIG4 mutation

Author

Burg, M. (Mirjam) van der, Zdzienicka, M.Z. (Malgorzata), Gent, D.C. (Dik) van, Dongen, J.J.M. (Jacques) van, Veelen, L.R. (Lieneke) van, Verkaik, N.S. (Nicole), Wiegant, W.W. (Wouter), Hartwig, N.G. (Nico), Barendregt, B.H. (Barbara), Brugmans, L.J.L. (Linda), Raams, A. (Anja), Jaspers, N.G.J. (Nicolaas), Burg, M. (Mirjam) van der, Zdzienicka, M.Z. (Malgorzata), Gent, D.C. (Dik) van, Dongen, J.J.M. (Jacques) van, Veelen, L.R. (Lieneke) van, Verkaik, N.S. (Nicole), Wiegant, W.W. (Wouter), Hartwig, N.G. (Nico), Barendregt, B.H. (Barbara), Brugmans, L.J.L. (Linda), Raams, A. (Anja), and Jaspers, N.G.J. (Nicolaas)

Abstract

V(D)J recombination of Ig and TCR loci is a stepwise process during which site-specific DNA double-strand breaks (DSBs) are made by RAG1/RAG2, followed by DSB repair by nonhomologous end joining. Defects in V(D)J recombination result in SCID characterized by absence of mature B and T cells. A subset of T-B-NK+ SCID patients is sensitive to ionizing radiation, and the majority of these patients have mutations in Artemis. We present a patient with a new type of radiosensitive T-B-NK+ SCID with a defect in DNA ligase IV (LIG4). To date, LIG4 mutations have only been described in a radiosensitive leukemia patient and in 4 patients with a designated LIG4 syndrome, which is associated with chromosomal instability, pancytopenia, and developmental and growth delay. The patient described here shows that a LIG4 mutation can also cause T-B-NK+ SCID without developmental defects. The LIG4-deficient SCID patient had an incomplete but severe block in precursor B cell differentiation, resulting in extremely low levels of blood B cells. The residual D(H)-J(H) junctions showed extensive nucleotide deletions, apparently caused by prolonged exonuclease activity during the delayed D(H)-J(H) ligation process. In conclusion, different LIG4 mutations can result in either a developmental defect with minor immunological abnormalities or a SCID picture with normal development.

Published

2006

33. 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

34. Checkpoint kinase 2-mediated phosphorylation of BRCA1 regulates the fidelity of nonhomologous end-joining

Author

Zhuang, J., Zhang, J. (Shuzhong), Willers, H., Wang, H. (Hong), Chung, J.H., Gent, D.C. (Dik) van, Hallahan, D.E., Powell, S.N., Xia, F., Zhuang, J., Zhang, J. (Shuzhong), Willers, H., Wang, H. (Hong), Chung, J.H., Gent, D.C. (Dik) van, Hallahan, D.E., Powell, S.N., and Xia, F.

Abstract

The tumor suppressor gene BRCA1 maintains genomic integrity by protecting cells from the deleterious effects of DNA double-strand breaks (DSBs). Through its interactions with the checkpoint kinase 2 (Chk2) kinase and Rad51, BRCA1 promotes homologous recombination, which is typically an error-free repair process. In addition, accumulating evidence implicates BRCA1 in the regulation of nonhomologous end-joining (NHEJ), which may involve precise religation of the DSB ends if they are compatible (i.e., error-free repair) or sequence alteration upon rejoining (i.e., error-prone or mutagenic repair). However, the precise role of BRCA1 in regulating these different subtypes of NHEJ is not clear. We provide here the genetic and biochemical evidence to show that BRCA1 promotes error-free rejoining of DSBs in human breast carcinoma cells while suppressing microhomology-mediated error-prone end-joining and restricting sequence deletion at the break junction during repair. The repair spectrum in BRCA1-deficient cells was characterized by an increase in the formation of >2 kb deletions and in the usage of long microhomologies distal to the break site, compared with wild-type (WT) cells. This error-prone repair phenotype could also be revealed by disruption of the Chk2 phosphorylation site of BRCA1, or by expression of a dominant-negative kinase-dead Chk2 mutant in cells with WT BRCA1. We suggest that the differential control of NHEJ subprocesses by BRCA1, in concert with Chk2, reduces the mutagenic potential of NHEJ, thereby contributing to the prevention of familial breast cancers.

Published

2006

35. Fen-1 facilitates homologous recombination by removing divergent sequences at DNA break ends

Author

Kikuchi, K. (Koji), Koyama, H. (Hideki), Jasin, M. (Maria), Gent, D.C. (Dik) van, Takeda, S. (Shiunichi), Taniguchi, Y. (Yoshihito), Hatanaka, A. (Atsushi), Sonoda, E. (Eiichiro), Hochegger, H. (Helfrid), Adachi, N. (Noritaka), Kikuchi, K. (Koji), Koyama, H. (Hideki), Jasin, M. (Maria), Gent, D.C. (Dik) van, Takeda, S. (Shiunichi), Taniguchi, Y. (Yoshihito), Hatanaka, A. (Atsushi), Sonoda, E. (Eiichiro), Hochegger, H. (Helfrid), and Adachi, N. (Noritaka)

Abstract

Homologous recombination (HR) requires nuclease activities at multiple steps, but the contribution of individual nucleases to the processing of double-strand DNA ends at different stages of HR has not been clearly defined. We used chicken DT40 cells to investigate the role of flap endonuclease 1 (Fen-1) in HR. FEN-1-deficient cells exhibited a significant decrease in the efficiency of immun

Published

2005

36. Radiosensitive SCID patients with Artemis gene mutations show a complete B-cell differentiation arrest at the pre-B-cell receptor checkpoint in bone marrow

Author

Noordzij, J.G. (Jeroen), Zdzienicka, M.Z. (Malgorzata), Dongen, J.J.M. (Jacques) van, Gent, D.C. (Dik) van, Verkaik, N.S. (Nicole), Burg, M. (Mirjam) van der, Veelen, L.R. (Lieneke) van, Bruin-Versteeg, S. (Sandra) de, Wiegant, W., Vossen, J.M.J.J. (Jaak), Groot, R. (Ronald) de, Weemaes, C.M.R. (Corry), Noordzij, J.G. (Jeroen), Zdzienicka, M.Z. (Malgorzata), Dongen, J.J.M. (Jacques) van, Gent, D.C. (Dik) van, Verkaik, N.S. (Nicole), Burg, M. (Mirjam) van der, Veelen, L.R. (Lieneke) van, Bruin-Versteeg, S. (Sandra) de, Wiegant, W., Vossen, J.M.J.J. (Jaak), Groot, R. (Ronald) de, and Weemaes, C.M.R. (Corry)

Abstract

Severe combined immunodeficiency disease (SCID) can be immunologically classified by the absence or presence of T, B, and natural killer (NK) cells. About 30% of T(-)B(-)NK(+) SCID patients carry mutations in the recombination activating genes (RAG). Some T(-)B(-)NK(+) SCID patients without RAG gene mutations are sensitive to ionizing radiation, and several of these radiosensitive (RS) SCID patients were recently shown to have large deletions or truncation mutations in the Artemis gene, implying a role for Artemis in DNA double-strand break (dsb) repair. We identified 5 RS-SCID patients without RAG gene mutations, 4 of them with Artemis gene mutations. One patient had a large genomic deletion, but the other 3 patients carried simple missense mutations in conserved amino acid residues in the SNM1 homology domain of the Artemis protein. Extrachromosomal V(D)J recombination assays showed normal and precise signal joint formation, but inefficient coding joint formation in fibroblasts of these patients, which could be complemented by the wild-type Artemis gene. The cells containing the missense mutations in the SNM1 homology domain had the same recombination phenotype as the cells with the large deletion, indicating that these amino acid residues are indispensable for Artemis function. Immunogenotyping and immunophenotyping of bone marrow samples of 2 RS-SCID patients showed the absence of complete V(H)-J(H) gene rearrangements and consequently a complete B-cell differentiation arrest at the pre-B-cell receptor checkpoint-that is, at the transition from CyIgmu(-) pre-B-I cells to CyIgmu(+) pre-B-II cells. The completeness of this arrest illustrates the importance of Artemis at this stage of lymphoid differentiation.

Published

2003

37. Multiple roles of Rev3, the catalytic subunit of polzeta in maintaining genome stability in vertebrates

Author

Sonoda, E. (Eiichiro), Takeda, S. (Shiunichi), Okada, T. (Takashi), Zhao, G.Y. (Guang), Tateishi, S. (Satoshi), Araki, K. (Kasumi), Yamaizumi, M. (Masaru), Yagi, T. (Takashi), Verkaik, N.S. (Nicole), Gent, D.C. (Dik) van, Takata, M. (Minoru), Sonoda, E. (Eiichiro), Takeda, S. (Shiunichi), Okada, T. (Takashi), Zhao, G.Y. (Guang), Tateishi, S. (Satoshi), Araki, K. (Kasumi), Yamaizumi, M. (Masaru), Yagi, T. (Takashi), Verkaik, N.S. (Nicole), Gent, D.C. (Dik) van, and Takata, M. (Minoru)

Abstract

Translesion DNA synthesis (TLS) and homologous DNA recombination (HR) are two major postreplicational repair (PRR) pathways. The REV3 gene of Saccharomyces cerevisiae encodes the catalytic subunit of DNA polymerase zeta, which is involved in mutagenic TLS. To investigate the role of REV3 in vertebrates, we disruped the gene in chicken DT40 cells. REV3(-/-) cells are sensitive to various DNA-damaging agents, including UV, methyl

Published

2003

38. The role of DNA dependent protein kinase in synapsis of DNA ends

Author

Weterings, E.P.W.C. (Eric), Verkaik, N.S. (Nicole), Brüggenwirth, H.T. (Hennie), Hoeijmakers, J.H.J. (Jan), Gent, D.C. (Dik) van, Weterings, E.P.W.C. (Eric), Verkaik, N.S. (Nicole), Brüggenwirth, H.T. (Hennie), Hoeijmakers, J.H.J. (Jan), and Gent, D.C. (Dik) van

Abstract

DNA dependent protein kinase (DNA-PK) plays a central role in the non-homologous end-joining pathway of DNA double strand break repair. Its catalytic subunit (DNA-PK(CS)) functions as a serine/threonine protein kinase. We show that DNA-PK forms a stable complex at DNA termini that blocks the action of exonucleases and ligases. The DNA termini become accessible after autophosphorylation of DNA-PK(CS), which we demonstrate to require synapsis of DNA ends. Interestingly, the presence of DNA-PK prevents ligation of the two synapsed termini, but allows ligation to another DNA molecule. This alteration of the ligation route is independent of the type of ligase that we used, indicating that the intrinsic architecture of the DNA-PK complex itself is not able to support ligation of the synapsed DNA termini. We present a working model in which DNA-PK creates a stable molecular bridge between two DNA ends that is remodeled after DNA-PK autophosphorylation in such a way that the extreme termini become accessible without disrupting synapsis. We infer that joining of synapsed DNA termini would require an additional protein factor.

Published

2003

39. The role of DNA dependent protein kinase in synapsis of DNA ends

Author

Weterings, E.P.W.C. (Eric), Verkaik, N.S. (Nicole), Brüggenwirth, H.T. (Hennie), Gent, D.C. (Dik) van, Hoeijmakers, J.H.J. (Jan), Weterings, E.P.W.C. (Eric), Verkaik, N.S. (Nicole), Brüggenwirth, H.T. (Hennie), Gent, D.C. (Dik) van, and Hoeijmakers, J.H.J. (Jan)

Abstract

DNA dependent protein kinase (DNA-PK) plays a central role in the non-homologous end-joining pathway of DNA double strand break repair. Its catalytic subunit (DNA-PK(CS)) functions as a serine/threonine protein kinase. We show that DNA-PK forms a stable complex at DNA termini that blocks the action of exonucleases and ligases. The DNA termini become accessible after autophosphorylation of DNA-PK(CS), which we demonstrate to require synapsis of DNA ends. Interestingly, the presence of DNA-PK prevents ligation of the two synapsed termini, but allows ligation to another DNA molecule. This alteration of the ligation route is independent of the type of ligase that we used, indicating that the intrinsic architecture of the DNA-PK complex itself is not able to support ligation of the synapsed DNA termini. We present a working model in which DNA-PK creates a stable molecular bridge between two DNA ends that is remodeled after DNA-PK autophosphorylation in such a way that the extreme termini become accessible without disrupting synapsis. We infer that joining of synapsed DNA termini would require an additional protein factor.

Published

2003

40. DNA end-binding specificity of human Rad50/Mre11 is influenced by ATP

Author

Jager, M. (Martijn) de, Wyman, C. (Claire), Gent, D.C. (Dik) van, Kanaar, R. (Roland), Jager, M. (Martijn) de, Wyman, C. (Claire), Gent, D.C. (Dik) van, and Kanaar, R. (Roland)

Abstract

The Rad50, Mre11 and Nbs1 complex is involved in many essential chromosomal organization processes dealing with DNA ends, including two major pathways of DNA double-strand break repair, homologous recombination and non-homologous end joining. Previous data on the structure of the human Rad50 and Mre11 (R/M) complex suggest that a common role for the protein complex in these processes is to provide a physical link between DNA ends such that they can be processed in an organized and coordinated manner. Here we describe the DNA binding properties of the R/M complex. The complex bound to both single-stranded and double-stranded DNA. Scanning force microscopy analysis of DNA binding by R/M showed the requirement for an end to form oligomeric R/M complexes, which could then migrate or transfer away from the end. The R/M complex had a lower preference for DNA substrates with 3'-overhangs compared with blunt ends or 5'-overhangs. Interestingly, ATP binding, but not hydrolysis, increased the preference of R/M binding to DNA substrates with 3'-overhangs relative to substrates with blunt ends and 5'-overhangs.

Published

2002

41. DNA end-binding specificity of human Rad50/Mre11 is influenced by ATP

Author

Jager, M. (Martijn) de, Wyman, C. (Claire), Gent, D.C. (Dik) van, Kanaar, R. (Roland), Jager, M. (Martijn) de, Wyman, C. (Claire), Gent, D.C. (Dik) van, and Kanaar, R. (Roland)

Abstract

The Rad50, Mre11 and Nbs1 complex is involved in many essential chromosomal organization processes dealing with DNA ends, including two major pathways of DNA double-strand break repair, homologous recombination and non-homologous end joining. Previous data on the structure of the human Rad50 and Mre11 (R/M) complex suggest that a common role for the protein complex in these processes is to provide a physical link between DNA ends such that they can be processed in an organized and coordinated manner. Here we describe the DNA binding properties of the R/M complex. The complex bound to both single-stranded and double-stranded DNA. Scanning force microscopy analysis of DNA binding by R/M showed the requirement for an end to form oligomeric R/M complexes, which could then migrate or transfer away from the end. The R/M complex had a lower preference for DNA substrates with 3'-overhangs compared with blunt ends or 5'-overhangs. Interestingly, ATP binding, but not hydrolysis, increased the preference of R/M binding to DNA substrates with 3'-overhangs relative to substrates with blunt ends and 5'-overhangs.

Published

2002

42. The immunophenotypic and immunogenotypic B-cell differentiation arrest in bone marrow of RAG-deficient SCID patients corresponds to residual recombination activities of mutated RAG proteins

Author

Noordzij, J.G. (Jeroen), Bruin-Versteeg, S. (Sandra) de, Verkaik, N.S. (Nicole), Vossen, J.M.J.J. (Jaak), Groot, R. (Ronald) de, Bernatowska, E. (Ewa), Langerak, A.W. (Anton), Gent, D.C. (Dik) van, Dongen, J.J.M. (Jacques) van, Noordzij, J.G. (Jeroen), Bruin-Versteeg, S. (Sandra) de, Verkaik, N.S. (Nicole), Vossen, J.M.J.J. (Jaak), Groot, R. (Ronald) de, Bernatowska, E. (Ewa), Langerak, A.W. (Anton), Gent, D.C. (Dik) van, and Dongen, J.J.M. (Jacques) van

Abstract

The protein products of the recombination activating genes (RAG1 and RAG2) initiate the formation of immunoglobulin (Ig) and T-cell receptors, which are essential for B- and T-cell development, respectively. Mutations in the RAG genes result in severe combined immunodeficiency disease (SCID), generally characterized by the absence of mature B and T lymphocytes, but presence of natural killer (NK) cells. Biochemically, mutations in the RAG genes result either in nonfunctional proteins or in proteins

Published

2002

43. DNA-binding and strand-annealing activities of human Mre11: implications for its roles in DNA double-strand break repair pathways

Author

Jager, M. (Martijn) de, Dronkert, M.L.G. (Mies), Modesti, M. (Mauro), Beerens, C.E.M.T. (Cecile), Kanaar, R. (Roland), Gent, D.C. (Dik) van, Jager, M. (Martijn) de, Dronkert, M.L.G. (Mies), Modesti, M. (Mauro), Beerens, C.E.M.T. (Cecile), Kanaar, R. (Roland), and Gent, D.C. (Dik) van

Abstract

DNA double-strand breaks (DSBs) in eukaryotic cells can be repaired by non-homologous end-joining or homologous recombination. The complex containing the Mre11, Rad50 and Nbs1 proteins has been implicated in both DSB repair pathways, even though they are mechanistically different. To get a better understanding of the properties of the human Mre11 (hMre11) protein, we investigated som

Published

2001

44. DNA-binding and strand-annealing activities of human Mre11: implications for its roles in DNA double-strand break repair pathways

Author

Jager, M. (Martijn) de, Dronkert, M.L.G. (Mies), Modesti, M. (Mauro), Beerens, C.E.M.T. (Cecile), Kanaar, R. (Roland), Gent, D.C. (Dik) van, Jager, M. (Martijn) de, Dronkert, M.L.G. (Mies), Modesti, M. (Mauro), Beerens, C.E.M.T. (Cecile), Kanaar, R. (Roland), and Gent, D.C. (Dik) van

Abstract

DNA double-strand breaks (DSBs) in eukaryotic cells can be repaired by non-homologous end-joining or homologous recombination. The complex containing the Mre11, Rad50 and Nbs1 proteins has been implicated in both DSB repair pathways, even though they are mechanistically different. To get a better understanding of the properties of the human Mre11 (hMre11) protein, we investigated some of its bio

Published

2001

45. N-terminal truncated human RAG1 proteins can direct T-cell receptor but not immunoglobulin gene rearrangements

Author

Noordzij, J.G. (Jeroen), Verkaik, N.S. (Nicole), Hartwig, N.G. (Nico), Groot, R. (Ronald) de, Gent, D.C. (Dik) van, Dongen, J.J.M. (Jacques) van, Noordzij, J.G. (Jeroen), Verkaik, N.S. (Nicole), Hartwig, N.G. (Nico), Groot, R. (Ronald) de, Gent, D.C. (Dik) van, and Dongen, J.J.M. (Jacques) van

Abstract

The proteins encoded by RAG1 and RAG2 can initiate gene recombination by site-specific cleavage of DNA in immunoglobulin and T-cell receptor (TCR) loci. We identified a new homozygous RAG1 gene mutation (631delT) that leads to a premature stop codon in the 5' part of the RAG1 gene. The patient carrying this 631delT RAG1 gene mutation died at the age of 5 weeks from an Omenn syndrome-like T(+)/B(- )severe combined immunodeficiency disease. The high number of blood T-lymphocytes (55 x 10(6)/mL) showed an almost polyclonal TCR gene rearrangement repertoire not of maternal origin. In contrast, B-lymphocytes and immunoglobulin gene rearrangements were hardly detectable. We showed that the 631delT RAG1 gene can give rise to an N-terminal truncated RAG1 protein, using an internal AUG codon as the translation start site. Consistent with the V(D)J recombination in T cells, this N-terminal truncated RAG1 protein was active in a plasmid V(D)J recombination assay. Apparently, the N-terminal truncated RAG1 protein can recombine TCR genes but not immunoglobulin genes. We conclude that the N-terminus of the RAG1 protein is specifically involved in immunoglobulin gene rearrangements.

Published

2000

46. Stimulation of V(D)J cleavage by high mobility group proteins

Author

Gent, D.C. (Dik) van, Hiom, K., Paull, T.T., Gellert, M., Gent, D.C. (Dik) van, Hiom, K., Paull, T.T., and Gellert, M.

Abstract

V(D)J recombination requires a pair of signal sequences with spacer lengths of 12 and 23 bp between the conserved heptamer and nonamer elements. The RAG1 and RAG2 proteins initiate the reaction by making double-strand DNA breaks at both signals, and must thus be able to operate on these two different spatial arrangements. We show that the DNA-bending proteins HMG1 and HMG2 stimulate cleavage and RAG protein binding at the 23 bp spacer signal. These findings suggest that DNA bending is important for bridging the longer spacer, and explain how a similar array of RAG proteins could accommodate a signal with either a 12 or a 23 bp spacer. An additional effect of HMG proteins is to stimulate coupled cleavage greatly when both signal sequences are present, suggesting that these proteins also aid the formation of a synaptic complex.

Published

1997

47. Specificity in V(D)J recombination: new lessons from biochemistry and genetics

Author

Ramsden, D.A., Gent, D.C. (Dik) van, Gellert, M., Ramsden, D.A., Gent, D.C. (Dik) van, and Gellert, M.

Abstract

Recent in vitro work on V(D)J recombination has helped to clarify its mechanism. The first stage of the reaction, which can be reproduced with the purified RAG1 and RAG2 proteins, is a site-specific cleavage that generates the same broken DNA species found in vivo. The cleavage reaction is closely related to known types of transpositional recombination, such as that of HIV integrase. All the site specificity of V(D)J recombination, including the 12/23 rule, is determined by the RAG proteins. The later steps largely overlap with the repair of radiation-induced DNA double-strand breaks, as indicated by the identity of several newly characterized factors involved in repair. These developments open the way for a thorough biochemical study of V(D)J recombination.

Published

1997

48. Distinct DNA sequence and structure requirements for the two steps of V(D)J recombination signal cleavage

Author

Ramsden, D.A., McBlane, J.F., Gent, D.C. (Dik) van, Gellert, M., Ramsden, D.A., McBlane, J.F., Gent, D.C. (Dik) van, and Gellert, M.

Abstract

Cleavage of V(D)J recombination signals by purified RAG1 and RAG2 proteins permits the dissection of DNA structure and sequence requirements. The two recognition elements of a signal (nonamer and heptamer) are used differently, and their cooperation depends on correct helical phasing. The nonamer is most important for initial binding, while efficient nicking and hairpin formation require the heptamer sequence. Both nicking and hairpin formation are remarkably tolerant of variations in DNA structure. Certain flanking sequences inhibit hairpin formation, but this can be bypassed by base unpairing, and even a completely single-stranded signal sequence is well utilized. We suggest that DNA unpairing around the signal-coding border is essential for the initiation of V(D)J combination.

Published

1996

49. The RAG1 and RAG2 proteins establish the 12/23 rule in V(D)J recombination

Author

Gent, D.C. (Dik) van and Gent, D.C. (Dik) van

Abstract

V(D)J recombination requires a pair of signal sequences with spacer lengths of 12 and 23 base pairs. Cleavage by the RAG1 AND RAG2 proteins was previously shown to demand only a single signal sequence. Here, we established conditions where 12- and 23-spacer signal sequences are both necessary for cleavage. Coupled cutting at both sites requires

Published

1996

50. Initiation of V(D)J recombination in a cell-free system

Author

Gent, D.C. (Dik) van, McBlane, J.F., Ramsden, D.A., Sadokfsky, M.J., Hesse, J.E. (Joanne), Gellert, M., Gent, D.C. (Dik) van, McBlane, J.F., Ramsden, D.A., Sadokfsky, M.J., Hesse, J.E. (Joanne), and Gellert, M.

Abstract

Cells performing V(D)J recombination make specific cuts in DNA at recombination signal sequences. Here, we show that nuclear extracts of pre-B cell lines carry out this specific cleavage. The products of cleavage are the same as found previously in thymocytes: full-length, blunt, 5'-phosphorylated signal ends, and covalently sealed (hairpin) coding ends. A complete signal sequence is required. Recombinant RAG1 protein greatly increases activity and complements an inactive extract from a RAG1 (-/-) pre-B cell line. When the extracts are fractionated, cleavage activity correlates with the presence of RAG2 protein. These results suggest that RAG1 and RAG2 are components of the V(D)J recombinase.

Published

1995