Your search keyword '"Brandsma, Inger"' showing total 11 results

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

Author

Sato, Koichi, Brandsma, Inger, van Rossum-Fikkert, Sari E, Verkaik, Nicole, Oostra, Anneke B, Dorsman, Josephine C, van Gent, Dik C, Knipscheer, Puck, Kanaar, Roland, Zelensky, Alex N, Sato, Koichi, Brandsma, Inger, van Rossum-Fikkert, Sari E, Verkaik, Nicole, Oostra, Anneke B, Dorsman, Josephine C, van Gent, Dik C, Knipscheer, Puck, Kanaar, Roland, and Zelensky, Alex N

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

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

Author

Sato, K, Brandsma, Inger, Van Rossum - Fikkert, Sari, Verkaik, Nicole, Oostra, AB, Dorsman, JC, van Gent, Dik, Knipscheer, P, Kanaar, Roland, Zelenskyy, Alex, Sato, K, Brandsma, Inger, Van Rossum - Fikkert, Sari, Verkaik, Nicole, Oostra, AB, Dorsman, JC, van Gent, Dik, Knipscheer, P, Kanaar, Roland, and Zelenskyy, Alex

Published

2020

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

Author

Hubrecht Institute with UMC, Sato, Koichi, Brandsma, Inger, van Rossum-Fikkert, Sari E, Verkaik, Nicole, Oostra, Anneke B, Dorsman, Josephine C, van Gent, Dik C, Knipscheer, Puck, Kanaar, Roland, Zelensky, Alex N, Hubrecht Institute with UMC, Sato, Koichi, Brandsma, Inger, van Rossum-Fikkert, Sari E, Verkaik, Nicole, Oostra, Anneke B, Dorsman, Josephine C, van Gent, Dik C, Knipscheer, Puck, Kanaar, Roland, and Zelensky, Alex N

Published

2020

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

Author

Brandsma, Inger, Sato, Koichi, van Rossum-Fikkert, Sari E, van Vliet, Nicole, Sleddens, Esther, Reuter, Marcel, Odijk, Hanny, van den Tempel, Nathalie, Dekkers, Dick H W, Bezstarosti, Karel, Demmers, Jeroen A A, Maas, Alex, Lebbink, Joyce, Wyman, Claire, Essers, Jeroen, van Gent, Dik C, Baarends, Willy M, Knipscheer, Puck, Kanaar, Roland, Zelensky, Alex N, Brandsma, Inger, Sato, Koichi, van Rossum-Fikkert, Sari E, van Vliet, Nicole, Sleddens, Esther, Reuter, Marcel, Odijk, Hanny, van den Tempel, Nathalie, Dekkers, Dick H W, Bezstarosti, Karel, Demmers, Jeroen A A, Maas, Alex, Lebbink, Joyce, Wyman, Claire, Essers, Jeroen, van Gent, Dik C, Baarends, Willy M, Knipscheer, Puck, Kanaar, Roland, and Zelensky, Alex N

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.

Published

2019

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

Author

Brandsma, Inger, Sato, Koichi, van Rossum-Fikkert, Sari E, van Vliet, Nicole, Sleddens, Esther, Reuter, Marcel, Odijk, Hanny, van den Tempel, Nathalie, Dekkers, Dick H W, Bezstarosti, Karel, Demmers, Jeroen A A, Maas, Alex, Lebbink, Joyce, Wyman, Claire, Essers, Jeroen, van Gent, Dik C, Baarends, Willy M, Knipscheer, Puck, Kanaar, Roland, Zelensky, Alex N, Brandsma, Inger, Sato, Koichi, van Rossum-Fikkert, Sari E, van Vliet, Nicole, Sleddens, Esther, Reuter, Marcel, Odijk, Hanny, van den Tempel, Nathalie, Dekkers, Dick H W, Bezstarosti, Karel, Demmers, Jeroen A A, Maas, Alex, Lebbink, Joyce, Wyman, Claire, Essers, Jeroen, van Gent, Dik C, Baarends, Willy M, Knipscheer, Puck, Kanaar, Roland, and Zelensky, Alex N

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.

Published

2019

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

Author

Brandsma, Inger, Sato, K, Van Rossum - Fikkert, Sari, Vliet, N, Sleddens, E, Reuter, Marcel, Odijk, Hanny, Tempel, Nathalie, Dekkers, Dick, Bezstarosti, Karel, Demmers, Jeroen, Maas, AIR (Arne), Lebbink, Joyce, Wyman, C.L., Essers, J., van Gent, Dik, Baarends, Willy, Knipscheer, P, Kanaar, Roland, Zelenskyy, Alex, Brandsma, Inger, Sato, K, Van Rossum - Fikkert, Sari, Vliet, N, Sleddens, E, Reuter, Marcel, Odijk, Hanny, Tempel, Nathalie, Dekkers, Dick, Bezstarosti, Karel, Demmers, Jeroen, Maas, AIR (Arne), Lebbink, Joyce, Wyman, C.L., Essers, J., van Gent, Dik, Baarends, Willy, Knipscheer, P, Kanaar, Roland, and Zelenskyy, Alex

Published

2019

7. On the Mechanism of Hyperthermia-Induced BRCA2 Protein Degradation

Author

Tempel, Nathalie, Zelenskyy, Alex, Odijk, Hanny, Laffeber, Charlie, Schmidt, CK, Brandsma, Inger, Demmers, Jeroen, Krawczyk, PM, Kanaar, Roland, Tempel, Nathalie, Zelenskyy, Alex, Odijk, Hanny, Laffeber, Charlie, Schmidt, CK, Brandsma, Inger, Demmers, Jeroen, Krawczyk, PM, and Kanaar, Roland

Published

2019

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

Author

Hubrecht Institute with UMC, Brandsma, Inger, Sato, Koichi, van Rossum-Fikkert, Sari E., van Vliet, Nicole, Sleddens, Esther, Reuter, Marcel, Odijk, Hanny, van den Tempel, Nathalie, Dekkers, Dick H.W., Bezstarosti, Karel, Demmers, Jeroen A.A., Maas, Alex, Lebbink, Joyce, Wyman, Claire, Essers, Jeroen, van Gent, Dik C., Baarends, Willy M., Knipscheer, Puck, Kanaar, Roland, Zelensky, Alex N., Hubrecht Institute with UMC, Brandsma, Inger, Sato, Koichi, van Rossum-Fikkert, Sari E., van Vliet, Nicole, Sleddens, Esther, Reuter, Marcel, Odijk, Hanny, van den Tempel, Nathalie, Dekkers, Dick H.W., Bezstarosti, Karel, Demmers, Jeroen A.A., Maas, Alex, Lebbink, Joyce, Wyman, Claire, Essers, Jeroen, van Gent, Dik C., Baarends, Willy M., Knipscheer, Puck, Kanaar, Roland, and Zelensky, Alex N.

Published

2019

9. Balancing Pathways in DNA Double Strand Break Repair

Author

Brandsma, Inger and Brandsma, Inger

Published

2016

10. Attenuated XPC Expression Is Not Associated with Impaired DNA Repair in Bladder Cancer

Author

Naipal, Kishan, Raams, Anja, Bruens, Serena, Brandsma, Inger, Verkaik, Nicole, Jaspers, Koos, Hoeijmakers, Jan, van Leenders, Arno, Pothof, Joris, Kanaar, Roland, Boormans, Joost, van Gent, Dik, Naipal, Kishan, Raams, Anja, Bruens, Serena, Brandsma, Inger, Verkaik, Nicole, Jaspers, Koos, Hoeijmakers, Jan, van Leenders, Arno, Pothof, Joris, Kanaar, Roland, Boormans, Joost, and van Gent, Dik

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

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

Author

Brandsma, Inger, Gent, Dik C., Brandsma, Inger, and Gent, Dik C.

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