Your search keyword '"Boersma, A.W.M. (Anton)"' showing total 9 results

1. MicroRNAs as possible indicators of drug sensitivity in breast cancer cell lines

Author

Uhr, K., Prager-van der Smissen, W.J.C. (Wendy), Heine, A.A.J. (Anouk), Ozturk, B. (Bahar), Jaarsveld, M.T.M. (Marijn) van, Boersma, A.W.M. (Anton), Jager, A. (Agnes), Wiemer, E.A.C. (Erik), Smid, M. (Marcel), Foekens, J.A. (John), Martens, J.W.M. (John), Uhr, K., Prager-van der Smissen, W.J.C. (Wendy), Heine, A.A.J. (Anouk), Ozturk, B. (Bahar), Jaarsveld, M.T.M. (Marijn) van, Boersma, A.W.M. (Anton), Jager, A. (Agnes), Wiemer, E.A.C. (Erik), Smid, M. (Marcel), Foekens, J.A. (John), and Martens, J.W.M. (John)

Abstract

MicroRNAs (miRNAs) regulate gene expression post-transcriptionally. In this way they might influence whether a cell is sensitive or resistant to a certain drug. So far, only a limited number of relatively small scale studies comprising few cell lines and/or drugs have been performed. To obtain a broader view on miRNAs and their association with drug response, we investigated the expression levels of 411 miRNAs in relation to drug sensitivity in 36 breast cancer cell lines. For this purpose IC50 values of a drug screen involving 34 drugs were associated with miRNA expression data of the same breast cancer cell lines. Since molecular subtype of the breast cancer cell lines is considered a confounding factor in drug association studies, multivariate analysis taking subtype into account was performed on significant miRNA-drug associations which retained 13 associations. These associations consisted of 11 different miRNAs and eight different drugs (among which Paclitaxel, Docetaxel and Veliparib). The taxanes, Paclitaxel and Docetaxel, were the only drugs having miRNAs in common: hsa-miR-187-5p and hsa-miR-106a-3p indicative of drug resistance while Paclitaxel sensitivity alone associated with hsa-miR-556-5p. Tivantinib was associated with hsalet-7d-5p and hsa-miR-18a-5p for sensitivity and hsa-miR-637 for resistance. Drug sensitivity was associated with hsa-let-7a-5p for Bortezomib, hsa-miR-135a-3p for JNJ-707 and hsa-miR-185-3p for Panobinostat. Drug resistance was associated with hsa-miR-182-5p for Veliparib and hsa-miR-629-5p for Tipifarnib. Pathway analysis for significant miRNAs was performed to reveal biological roles, aiding to find a potential mechanistic link for the observed associations with drug response. By doing so hsa-miR-187-5p was linked to the cell cycle G2-M checkpoint in line with this checkpoint being the target of taxanes. In conclusion, our study shows that miRNAs could potentially serve as biomarkers for intrinsic drug resistance and that pathway

Published

2019

2. miR-634 restores drug sensitivity in resistant ovarian cancer cells by targeting the Ras-MAPK pathway

Author

Jaarsveld, M.T.M. (Marijn) van, Kuijk, P.F. (Patricia) van, Boersma, A.W.M. (Anton), Helleman, J. (Jozien), IJcken, W.F.J. (Wilfred) van, Mathijssen, A.H.J. (Ron), Pothof, J. (Joris), Berns, P.M.J.J. (Els), Verweij, J. (Jaap), Wiemer, E.A.C. (Erik), Jaarsveld, M.T.M. (Marijn) van, Kuijk, P.F. (Patricia) van, Boersma, A.W.M. (Anton), Helleman, J. (Jozien), IJcken, W.F.J. (Wilfred) van, Mathijssen, A.H.J. (Ron), Pothof, J. (Joris), Berns, P.M.J.J. (Els), Verweij, J. (Jaap), and Wiemer, E.A.C. (Erik)

Abstract

Background: Drug resistance hampers the efficient treatment of malignancies, including advanced stage ovarian cancer, which has a 5-year survival rate of only 30 %. The molecular processes underlying resistance have been extensively studied, however, not much is known about the involvement of microRNAs. Methods: Differentially expressed microRNAs between cisplatin sensitive and resistant cancer cell line pairs were determined using microarrays. Mimics were used to study the role of microRNAs in drug sensitivity of ovarian cancer cell lines and patient derived tumor cells. Luciferase reporter constructs were used to establish regulation of target genes by microRNAs. Results: MiR-634 downregulation was associated with cisplatin resistance. Overexpression of miR-634 affected cell cycle progression and enhanced apoptosis in ovarian cancer cells. miR-634 resensitized resistant ovarian cancer cell lines and patient derived drug resistant tumor cells to cisplatin. Similarly, miR-634 enhanced the response to carboplatin and doxorubicin, but not to paclitaxel. The cell cycle regulator CCND1, and Ras-MAPK pathway components GRB2, ERK2 and RSK2 were directly repressed by miR-634 overexpression. Repression of the Ras-MAPK pathway using a MEK inhibitor phenocopied the miR-634 effects on viability and chemosensitivity. Conclusion:miR-634 levels determine chemosensitivity in ovarian cancer cells. We identify miR-634 as a therapeutic candidate to resensitize chemotherapy resistant ovarian tumors.

Published

2015

3. MiR-17-92 and miR-221/222 cluster members target KIT and ETV1 in human gastrointestinal stromal tumours

Author

Gits, C.M.M. (Caroline), Kuijk, P.F. (Patricia) van, Jonkers, M.B.E., Boersma, A.W.M. (Anton), IJcken, W.F.J. (Wilfred) van, Wozniak, A., Sciot, R. (Raf), Rutkowski, P. (Piotr), Schöffski, P. (Patrick), Taguchi, T., Mathijssen, A.H.J. (Ron), Verweij, J. (Jaap), Sleijfer, S. (Stefan), Debiec-Rychter, M. (Maria), Wiemer, E.A.C. (Erik), Gits, C.M.M. (Caroline), Kuijk, P.F. (Patricia) van, Jonkers, M.B.E., Boersma, A.W.M. (Anton), IJcken, W.F.J. (Wilfred) van, Wozniak, A., Sciot, R. (Raf), Rutkowski, P. (Piotr), Schöffski, P. (Patrick), Taguchi, T., Mathijssen, A.H.J. (Ron), Verweij, J. (Jaap), Sleijfer, S. (Stefan), Debiec-Rychter, M. (Maria), and Wiemer, E.A.C. (Erik)

Abstract

Background:Gastrointestinal stromal tumours (GIST) are characterised by high expression of KIT and ETV1, which cooperate in GIST oncogenesis. Our aim was to identify microRNAs that are deregulated in GIST, have a role in GIST pathogenesis, and could potentially be used as therapeutic tool.Methods:Differentially expressed microRNAs between primary GIST (n=50) and gastrointestinal leiomyosarcomas (GI-LMS, n=10) were determined using microarrays. Selected microRNA mimics were transfected into GIST-882 and GIST-T1 cell lines to study the effects of microRNA overexpression on GIST cells. Luciferase reporter assays were used to establish regulation of target genes by selected microRNAs.Results:MiR-17-92 and miR-221/222 clust

Published

2013

4. MiRNA expression profiling of 51 human breast cancer cell lines reveals subtype and driver mutation-specific miRNAs

Author

Riaz, M. (Muhammad), Jaarsveld, M.T.M. (Marijn) van, Hollestelle, A. (Antoinette), Prager-van der Smissen, W.J.C. (Wendy), Heine, A.A.J. (Anouk), Boersma, A.W.M. (Anton), Liu, J. (Jingjing), Helmijr, J. (Jean), Ozturk, B. (Bahar), Smid, M. (Marcel), Wiemer, E.A.C. (Erik), Foekens, J.A. (John), Martens, J.W.M. (John), Riaz, M. (Muhammad), Jaarsveld, M.T.M. (Marijn) van, Hollestelle, A. (Antoinette), Prager-van der Smissen, W.J.C. (Wendy), Heine, A.A.J. (Anouk), Boersma, A.W.M. (Anton), Liu, J. (Jingjing), Helmijr, J. (Jean), Ozturk, B. (Bahar), Smid, M. (Marcel), Wiemer, E.A.C. (Erik), Foekens, J.A. (John), and Martens, J.W.M. (John)

Abstract

Introduction: Breast cancer is a genetically and phenotypically complex disease. To understand the role of miRNAs in this molecular complexity, we performed miRNA expression analysis in a cohort of molecularly well-characterized human breast cancer cell lines to identify miRNAs associated with the most common molecular subtypes and the most frequent genetic aberrations. Methods: Using a microarray carrying LNA™ modified oligonucleotide capture probes), expression levels of 725 human miRNAs were measured in 51 breast cancer cell lines. Differential miRNA expression was explored by unsupervised cluster analysis and was then associated with the molecular subtypes and genetic aberrations commonly present in breast cancer. Results: Unsupervised cluster analysis using the most variably expressed miRNAs divided the 51 breast cancer cell lines into a major and a minor cluster predominantly mirroring the luminal and basal intrinsic subdivision of breast cancer cell lines. One hundred and thirteen miRNAs were differentially expressed between these two main clusters. Forty miRNAs were differentially expressed between basal-like and normal-like/claudin-low cell lines. Within the luminal-group, 39 miRNAs were associated with ERBB2 overexpression and 24 with E-cadherin gene mutations, which are frequent in this subtype of breast cancer cell lines. In contrast, 31 miRNAs were associated with E-cadherin promoter hypermethylation, which, contrary to E-cadherin mutation, is exclusively observed in breast cancer cell lines that are not of luminal origin. Thirty miRNAs were associated with p16INK4 status while only a few

Published

2013

5. Differential transport of platinum compounds by the human organic cation transporter hOCT2 (hSLC22A2)

Author

Burger, H. (Herman), Zoumaro-Djayoon, A. (Adja), Boersma, A.W.M. (Anton), Helleman, J. (Jozien), Berns, P.M.J.J. (Els), Mathijssen, A.H.J. (Ron), Loos, W.J. (Walter), Wiemer, E.A.C. (Erik), Burger, H. (Herman), Zoumaro-Djayoon, A. (Adja), Boersma, A.W.M. (Anton), Helleman, J. (Jozien), Berns, P.M.J.J. (Els), Mathijssen, A.H.J. (Ron), Loos, W.J. (Walter), and Wiemer, E.A.C. (Erik)

Abstract

BACKGROUND: Solute carriers (SLCs), in particular organic cation transporters (OCTs), have been implicated in the cellular uptake of platinum-containing anticancer compounds. The activity of these carriers may determine the pharmacokinetics and the severity of side effects, including neuro- and nephrotoxicity of platinum-based chemotherapy. As decreased drug accumulation is a key mechanism of platinum resistance, SLCs may also contribute to the development of resistance. Here, we define the role of hSLC22A2 (OCT2) in the cellular uptake of platinum compounds. EXPERIMENTAL APPROACH: Human embryonic kidney (HEK) 293 cells stably expressing the hSLC22A2 gene (HEK293/hSLC22A2) were used in platinum accumulation studies. Following a 2 h exposure to various platinum compounds (100 microM), intracellular platinum levels were determined by flameless atomic absorption spectrometry. KEY RESULTS: HEK293/hSLC22A2 cells, compared with HEK293/Neo control cells, displayed significant increases in oxaliplatin (28.6-fold), Pt[DACH]Cl(2) (20.6-fold), ormaplatin (8.1-fold), tetraplatin (4.5-fold), transplatin (3.7-fold) and cisplatin (1.3-fold), but not carboplatin. SLC22A2-mediated transport could be inhibited by 1-methyl-4-phenylpyridinium. Furthermore, hSLC22A2-mediated oxaliplatin and cisplatin accumulation was time- and concentration-dependent, but non-saturable. Expression of hSLC22A2 in HEK293 cells resulted in enhanced sensitivity to oxaliplatin (12-fold) and cisplatin (1.8-fold). Although, hSLC22A2 mRNA expression was frequently found in ovarian cancer cell lines, its expression in clinical ovarian cancer specimens (n= 80) was low and did not correlate with the treatment outcome of platinum-based regimens. CONCLUSIONS AND IMPLICATIONS: The hSLC22A2 drug transporter is a critical determinant in the uptake and cytotoxicity of various platinum compounds, particularly oxaliplatin.

Published

2010

6. MicroRNA markers for forensic body fluid identification obtained from microarray screening and quantitative RT-PCR confirmation

Author

Zubakov, D. (Dmitry), Boersma, A.W.M. (Anton), Choi, Y. (Ying), Kuijk, P.F. (Patricia) van, Wiemer, E.A.C. (Erik), Kayser, M.H. (Manfred), Zubakov, D. (Dmitry), Boersma, A.W.M. (Anton), Choi, Y. (Ying), Kuijk, P.F. (Patricia) van, Wiemer, E.A.C. (Erik), and Kayser, M.H. (Manfred)

Abstract

MicroRNAs (miRNAs) are non-protein coding molecules with important regulatory functions; many have tissue-specific expression patterns. Their very small size in principle makes them less prone to degradation processes, unlike messenger RNAs (mRNAs), which were previously proposed as molecular tools for forensic body fluid identification. To identify suitable miRNA markers for forensic body fluid identification, we first screened total RNA samples derived from saliva, semen, vaginal secretion, and venous and menstrual blood for the expression of 718 human miRNAs using a microarray platform. All body fluids could be easily distinguished from each other on the basis of complete array-based miRNA expression profiles. Results from quantitative reverse transcription PCR (RTPCR; TaqMan) assays for microarray candid

Published

2010

7. Imatinib mesylate (STI571) is a substrate for the breast cancer resistance protein (BCRP)/ABCG2 drug pump

Author

Burger, H. (Herman), Tol, H. van, Boersma, A.W.M. (Anton), Brok, M. (Mariël), Wiemer, E.A.C. (Erik), Stoter, G. (Gerrit), Nooter, K. (Kees), Burger, H. (Herman), Tol, H. van, Boersma, A.W.M. (Anton), Brok, M. (Mariël), Wiemer, E.A.C. (Erik), Stoter, G. (Gerrit), and Nooter, K. (Kees)

Abstract

Imatinib mesylate (STI571), a potent tyrosine kinase inhibitor, is successfully used in the treatment of chronic myelogenous leukemia and gastrointestinal stromal tumors. However, the intended chronic oral administration of imatinib may lead to development of cellular resistance and subsequent treatment failure. Indeed, several molecular mechanisms leading to imatinib resistance have already been reported, including overexpression of the MDR1/ABCB1 drug pump. We examined whether imatinib is a substrate for the breast cancer resistance protein (BCRP)/ABCG2 drug pump that is frequently overexpressed in human tumors. Using a panel of well-defined BCRP-overexpressing cell lines, we provide the first evidence that imatinib is a substrate for BCRP, that it competes with mitoxantrone for drug export, and that BCRP-mediated efflux can be reversed by the fumitremorgin C analog Ko-143. Since BCRP is highly expressed in the gastrointestinal tract, BCRP might not only play a role in cellular resistance of tumor cells but also influence the gastrointestinal absorption of imatinib.

Published

2004

8. Inactivation of the Saccharomyces cerevisiae SKY1 gene induces a specific modification of the yeast anticancer drug sensitivity profile accompanied by a mutator phenotype

Author

Schenk, P.W. (Paul), Boersma, A.W.M. (Anton), Brok, M. (Mariël), Burger, H. (Herman), Stoter, G. (Gerrit), Nooter, K. (Kees), Schenk, P.W. (Paul), Boersma, A.W.M. (Anton), Brok, M. (Mariël), Burger, H. (Herman), Stoter, G. (Gerrit), and Nooter, K. (Kees)

Abstract

The therapeutic potential of the highly active anticancer agent cisplatin is severely limited by the occurrence of cellular resistance. A better understanding of the molecular pathways involved in cisplatin-induced cell death could potentially indicate ways to overcome cellular unresponsiveness to the drug and thus lead to better treatment results. We used the budding yeast Saccharomyces cerevisiae as a model organism to identify and characterize novel genes involved in cisplatin-induced cell kill, and found that SKY1 (SR-protein-specific kinase from budding yeast) is a cisplatin sensitivity gene whose disruption conferred cisplatin resistance. In cross-resistance studies, we observed resistance of yeast sky1 Delta cells (i.e., cells from which the SKY1 gene had been disrupted) to cisplatin, carboplatin (but not oxaliplatin), doxorubicin and daunorubicin, and hypersensitivity to cadmium chloride and 5-fluorouracil. Furthermore, these cells did not display reduced platinum accumulation, DNA platination or doxorubicin accumulation, indicating that the resistance is unrelated to decreased drug import or increased drug export. Based on the modification of the anticancer drug sensitivity profile and our finding that sky1 Delta cells display a mutator phenotype, we propose that Sky1p might play a significant role in specific repair and/or tolerance pathways. Disruption of the S. cerevisiae SKY1 gene would thus result in deregulation of such mechanisms and, consequently, lead to altered drug sensitivity.

Published

2002

9. SKY1 is involved in cisplatin-induced cell kill in Saccharomyces cerevisiae, and inactivation of its human homologue, SRPK1, induces cisplatin resistance in a human ovarian carcinoma cell line

Author

Schenk, P.W. (Paul), Boersma, A.W.M. (Anton), Brandsma, J.A. (Jourica), Dulk, H. (Hans) den, Burger, H. (Herman), Stoter, G. (Gerrit), Brouwer, J. (Jaap), Nooter, K. (Kees), Schenk, P.W. (Paul), Boersma, A.W.M. (Anton), Brandsma, J.A. (Jourica), Dulk, H. (Hans) den, Burger, H. (Herman), Stoter, G. (Gerrit), Brouwer, J. (Jaap), and Nooter, K. (Kees)

Abstract

The therapeutic potential of cisplatin, one of the most active and widely used anticancer drugs, is severely limited by the occurrence of cellular resistance. In this study, using budding yeast Saccharomyces cerevisiae as a model organism to identify novel drug resistance genes, we found that disruption of the yeast gene SKY1 (serine/arginine-rich protein-specific kinase from budding yeast) by either transposon insertion or one-step gene replacement conferred cellular resistance to cisplatin. Heterologous expression of the human SKY1 homologue SRPK1 (serine/arginine-rich protein-specific kinase) in SKY1 deletion mutant yeast cells restored cisplatin sensitivity, suggesting that SRPK1 is a cisplatin sensitivity gene, the inactivation of which could lead to cisplatin resistance. Subsequently, we investigated the role of SRPK1 in cisplatin sensitivity and resistance in human ovarian carcinoma A2780 cells using antisense oligodeoxynucleotides. Treatment of A2780 cells with antisense oligodeoxynucleotides directed against the translation initiation site of SRPK1 led to down-regulation of SRPK1 protein and conferred a 4-fold resistance to cisplatin. The human SRPK1 gene has not been associated with drug resistance before. Our new findings strongly suggest that SRPK1 is involved in cisplatin-induced cell kill and indicate that SRPK1 might potentially be of importance for studying clinical drug resistance.

Published

2001