Your search keyword '"Zakrzewski, Krzysztof"' showing total 3 results

1. Expression-based decision tree model reveals distinct microRNA expression pattern in pediatric neuronal and mixed neuronal-glial tumors

Author

Zakrzewska, Magdalena, Gruszka, Renata, Stawiski, Konrad, Fendler, Wojciech, Kordacka, Joanna, Grajkowska, Wiesława, Daszkiewicz, Paweł, Liberski, Paweł P., and Zakrzewski, Krzysztof

Published

2019

2. Transcriptional profiles of pilocytic astrocytoma are related to their three different locations, but not to radiological tumor features.

Author

Zakrzewski, Krzysztof, Jarząb, Michał, Pfeifer, Aleksandra, Oczko-Wojciechowska, Małgorzata, Jarząb, Barbara, Liberski, Paweł P., and Zakrzewska, Magdalena

Subjects

*ASTROCYTOMAS, *GENE expression, *GENETIC transcription, *BRAIN tumors, *TUMORS in children, *GENETICS, *PROGNOSIS, *DIAGNOSIS, *CANCER relapse, *COMBINED modality therapy, *GLIOMAS, *MAGNETIC resonance imaging, *GENE expression profiling, CENTRAL nervous system tumors

Abstract

Background: Pilocytic astrocytoma is the most common type of brain tumor in the pediatric population, with a generally favorable prognosis, although recurrences or leptomeningeal dissemination are sometimes also observed. For tumors originating in the supra-or infratentorial location, a different molecular background was suggested, but plausible correlations between the transcriptional profile and radiological features and/or clinical course are still undefined. The purpose of this study was to identify gene expression profiles related to the most frequent locations of this tumor, subtypes based on various radiological features, and the clinical pattern of the disease.Methods: Eighty six children (55 males and 31 females) with histologically verified pilocytic astrocytoma were included in this study. Their age at the time of diagnosis ranged from fourteen months to seventeen years, with a mean age of seven years. There were 40 cerebellar, 23 optic tract/hypothalamic, 21 cerebral hemispheric, and two brainstem tumors. According to the radiological features presented on MRI, all cases were divided into four subtypes: cystic tumor with a non-enhancing cyst wall; cystic tumor with an enhancing cyst wall; solid tumor with central necrosis; and solid or mainly solid tumor. In 81 cases primary surgical resection was the only and curative treatment, and in five cases progression of the disease was observed. In 47 cases the analysis was done by using high density oligonucleotide microarrays (Affymetrix HG-U133 Plus 2.0) with subsequent bioinformatic analyses and confirmation of the results by independent RT-qPCR (on 39 samples).Results: Bioinformatic analyses showed that the gene expression profile of pilocytic astrocytoma is highly dependent on the tumor location. The most prominent differences were noted for IRX2, PAX3, CXCL14, LHX2, SIX6, CNTN1 and SIX1 genes expression even within different compartments of the supratentorial region. Analysis of the genes potentially associated with radiological features showed much weaker transcriptome differences. Single genes showed association with the tendency to progression.Conclusions: Here we have shown that pilocytic astrocytomas of three different locations can be precisely differentiated on the basis of their gene expression level, but their transcriptional profiles does not strongly reflect the radiological appearance of the tumor or the course of the disease. [ABSTRACT FROM AUTHOR]

Published

2015

3. Arrested neural and advanced mesenchymal differentiation of glioblastoma cells-comparative study with neural progenitors.

Author

Rieske, Piotr, Golanska, Ewa, Zakrzewska, Magdalena, Piaskowski, Sylwester, Hulas-Bigoszewska, Krystyna, Wolanczyk, Magdalena, Szybka, Malgorzata, Witusik-Perkowska, Monika, Jaskolski, Dariusz J., Zakrzewski, Krzysztof, Biernat, Wojciech, Krynska, Barbara, and Liberski, Pawel P.

Subjects

GLIOBLASTOMA multiforme, CELL culture, CANCER cells, CELL lines, WESTERN immunoblotting, IMMUNOCYTOCHEMISTRY

Abstract

Background: Although features of variable differentiation in glioblastoma cell cultures have been reported, a comparative analysis of differentiation properties of normal neural GFAP positive progenitors, and those shown by glioblastoma cells, has not been performed. Methods: Following methods were used to compare glioblastoma cells and GFAP+NNP (NHA): exposure to neural differentiation medium, exposure to adipogenic and osteogenic medium, western blot analysis, immunocytochemistry, single cell assay, BrdU incorporation assay. To characterize glioblastoma cells EGFR amplification analysis, LOH/MSI analysis, and P53 nucleotide sequence analysis were performed. Results: In vitro differentiation of cancer cells derived from eight glioblastomas was compared with GFAP-positive normal neural progenitors (GFAP+NNP). Prior to exposure to differentiation medium, both types of cells showed similar multilineage phenotype (CD44+/MAP2+/GFAP+/ Vimentin+/Beta III-tubulin+/Fibronectin+) and were positive for SOX-2 and Nestin. In contrast to GFAP+NNP, an efficient differentiation arrest was observed in all cell lines isolated from glioblastomas. Nevertheless, a subpopulation of cells isolated from four glioblastomas differentiated after serum-starvation with varying efficiency into derivatives indistinguishable from the neural derivatives of GFAP+NNP. Moreover, the cells derived from a majority of glioblastomas (7 out of 8), as well as GFAP+NNP, showed features of mesenchymal differentiation when exposed to medium with serum. Conclusion: Our results showed that stable co-expression of multilineage markers by glioblastoma cells resulted from differentiation arrest. According to our data up to 95% of glioblastoma cells can present in vitro multilineage phenotype. The mesenchymal differentiation of glioblastoma cells is advanced and similar to mesenchymal differentiation of normal neural progenitors GFAP+NNP. [ABSTRACT FROM AUTHOR]

Published

2009