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28 results on '"Kurantowicz, Natalia"'

8. Silver and graphenic carbon nanostructures differentially influence the morphology and viabilityof cardiac progenitor cells

Author

Hotowy, Anna, Grodzik, Marta, Zielińska-Górska, Marlena, Chojnacka, Natalia, Kurantowicz, Natalia, Dyjak, Slawomir, Strojny, Barbara, Kutwin, Marta, Chwalibog, André, Sawosz, Ewa, Hotowy, Anna, Grodzik, Marta, Zielińska-Górska, Marlena, Chojnacka, Natalia, Kurantowicz, Natalia, Dyjak, Slawomir, Strojny, Barbara, Kutwin, Marta, Chwalibog, André, and Sawosz, Ewa

Abstract

The characteristic features of nanomaterials provide rich opportunities for a broad range of applications due to their different physicochemical properties. Nanocolloidal silver and graphenic carbon materials differ in most physicochemical characteristics, except for their nanodimensions. Since there is a growing demand for stem cell therapies for coronary disorders, examining cardiac progenitor cells (CPC) in terms of their response to nanostructure treatment seems to be a reasonable approach. Morphological studies and viability assessments were performed with CPC in vitro, treated with small concentrations of silver nanoparticles (AgNP), hierarchical nanoporous graphenic carbon (HNC) and their mixtures. A viability test confirmed the morphological assessment of CPC treated with AgNP and HNC; moreover, the action of both nanomaterials was time-dependent and dose-dependent. For AgNP, between the two of the applied concentrations lies a border between their potential beneficial effect and toxicity. For HNC, at a lower concentration, strong stimulation of cell viability was noted, whereas a higher dosage activated their differentiation. It is necessary to perform further research examining the mechanisms of the action of AgNP and especially of unexplored HNC, and their mixtures, on CPC and other cells.

Published
2020

9. Diamond, graphite, and graphene oxide nanoparticles decrease migration and invasiveness in glioblastoma cell lines by impairing extracellular adhesion

Author

Wierzbicki, Mateusz, primary, Jaworski, Slawomir, additional, Kutwin, Marta, additional, Grodzik, Marta, additional, Strojny, Barbara, additional, Kurantowicz, Natalia, additional, Zdunek, Krzysztof, additional, Chodun, Rafał, additional, Chwalibog, André, additional, and Sawosz, Ewa, additional

Published
2017
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11. Diamond, graphite, and graphene oxide nanoparticles decrease migration and invasiveness in glioblastoma cell lines by impairing extracellular adhesion

Author

Wierzbicki, Mateusz, Jaworski, Slawomir, Kutwin, Marta, Grodzik, Marta, Strojny, Barbara, Kurantowicz, Natalia, Zdunek, Krzysztof, Chodun, Rafal, Chwalibog, Andre, Sawosz, Ewa, Wierzbicki, Mateusz, Jaworski, Slawomir, Kutwin, Marta, Grodzik, Marta, Strojny, Barbara, Kurantowicz, Natalia, Zdunek, Krzysztof, Chodun, Rafal, Chwalibog, Andre, and Sawosz, Ewa

Abstract

The highly invasive nature of glioblastoma is one of the most significant problems regarding the treatment of this tumor. Diamond nanoparticles (ND), graphite nanoparticles (NG), and graphene oxide nanoplatelets (nGO) have been explored for their biomedical applications, especially for drug delivery. The objective of this research was to assess changes in the adhesion, migration, and invasiveness of two glioblastoma cell lines, U87 and U118, after ND, NG, and nGO treatment. All treatments affected the cell surface structure, adhesion-dependent EGFR/AKT/mTOR, and β-catenin signaling pathways, decreasing the migration and invasiveness of both glioblastoma cell lines. The examined nanoparticles did not show strong toxicity but effectively deregulated cell migration. ND was effectively taken up by cells, whereas nGO and NG strongly interacted with the cell surface. These results indicate that nanoparticles could be used in biomedical applications as a low toxicity active compound for glioblastoma treatment.

Published
2017

12. Toxicity studies of six types of carbon nanoparticles in a chicken-embryo model

Author

Kurantowicz, Natalia, Sawosz, Ewa, Halik, Gabriela, Strojny, Barbara, Hotowy, Anna, Grodzik, Marta, Piast, Radoslaw, Pasanphan, Wanvimol, Chwalibog, André, Kurantowicz, Natalia, Sawosz, Ewa, Halik, Gabriela, Strojny, Barbara, Hotowy, Anna, Grodzik, Marta, Piast, Radoslaw, Pasanphan, Wanvimol, and Chwalibog, André

Abstract

In the present study, the toxicity of six different types of carbon nanoparticles (CNPs) was investigated using a chicken-embryo model. Fertilized chicken eggs were divided into the following treatment groups: placebo, diamond NPs, graphite NPs, pristine graphene, small graphene oxide, large graphene oxide, and reduced graphene oxide. Experimental solutions at a concentration of 500 µg/mL were administrated into the egg albumin. Gross pathology and the rate of survival were examined after 5, 10, 15, and 20 days of incubation. After 20 days of incubation, blood samples were collected and the weight of the body and organs measured. The relative ratio of embryo survival decreased after treatment all treatments except diamond NPs. There was no correlation between the rate of survival and the ζ-potential or the surface charge of the CNPs in solution. Body and organ weight, red blood-cell morphology, blood serum biochemical parameters, and oxidative damage in the liver did not differ among the groups. These results indicate that CNPs can remain in blood circulation without any major side effects, suggesting their potential applicability as vehicles for drug delivery or active compounds per se. However, there is a need for further investigation of their properties, which vary depending on production methods and surface functionalization.

Published
2017

13. Diamond, graphite, and graphene oxide nanoparticles decrease migration and invasiveness in glioblastoma cell lines by impairing extracellular adhesion

Author

Wierzbicki,Mateusz, Jaworski,Slawomir, Kutwin,Marta, Grodzik,Marta, Strojny,Barbara, Kurantowicz,Natalia, Zdunek,Krzysztof, Chodun,Rafał, Chwalibog,André, Sawosz,Ewa, Wierzbicki,Mateusz, Jaworski,Slawomir, Kutwin,Marta, Grodzik,Marta, Strojny,Barbara, Kurantowicz,Natalia, Zdunek,Krzysztof, Chodun,Rafał, Chwalibog,André, and Sawosz,Ewa

Abstract

Mateusz Wierzbicki,1 SÅ‚awomir Jaworski,1 Marta Kutwin,1 Marta Grodzik,1 Barbara Strojny,1 Natalia Kurantowicz,1 Krzysztof Zdunek,2 RafaÅ‚ Chodun,2 André Chwalibog,3 Ewa Sawosz1 1Division of Nanobiotechnology, Warsaw University of Life Science, 2Faculty of Materials Science and Engineering, Warsaw University of Technology, Warsaw, Poland; 3Department of Veterinary and Animal Sciences, University of Copenhagen, Frederiksberg, Denmark Abstract: The highly invasive nature of glioblastoma is one of the most significant problems regarding the treatment of this tumor. Diamond nanoparticles (ND), graphite nanoparticles (NG), and graphene oxide nanoplatelets (nGO) have been explored for their biomedical applications, especially for drug delivery. The objective of this research was to assess changes in the adhesion, migration, and invasiveness of two glioblastoma cell lines, U87 and U118, after ND, NG, and nGO treatment. All treatments affected the cell surface structure, adhesion-dependent EGFR/AKT/mTOR, and β-catenin signaling pathways, decreasing the migration and invasiveness of both glioblastoma cell lines. The examined nanoparticles did not show strong toxicity but effectively deregulated cell migration. ND was effectively taken up by cells, whereas nGO and NG strongly interacted with the cell surface. These results indicate that nanoparticles could be used in biomedical applications as a low toxicity active compound for glioblastoma treatment. Keywords: diamond, graphene oxide, graphite, nanoparticles, glioblastoma, migration, invasiveness

Published
2017

14. Toxicity studies of six types of carbon nanoparticles in a chicken-embryo model

Author

Kurantowicz,Natalia, Sawosz,Ewa, Halik,Gabriela, Strojny,Barbara, Hotowy,Anna, Grodzik,Marta, Piast,Radosław, Pasanphan,Wanvimol, Chwalibog,André, Kurantowicz,Natalia, Sawosz,Ewa, Halik,Gabriela, Strojny,Barbara, Hotowy,Anna, Grodzik,Marta, Piast,Radosław, Pasanphan,Wanvimol, and Chwalibog,André

Abstract

Natalia Kurantowicz,1 Ewa Sawosz,1 Gabriela Halik,1 Barbara Strojny,1 Anna Hotowy,1 Marta Grodzik,1 RadosÅ‚aw Piast,2 Wanvimol Pasanphan,3 André Chwalibog4 1Department of Animal Nutrition and Biotechnology, Warsaw University of Life Sciences, 2Faculty of Chemistry, Warsaw University, Warsaw, Poland; 3Department of Materials Science, Faculty of Science, Kasetsart University, Bangkok, Thailand; 4Department of Veterinary Clinical and Animal Sciences, University of Copenhagen, Copenhagen, Denmark Abstract: In the present study, the toxicity of six different types of carbon nanoparticles (CNPs) was investigated using a chicken-embryo model. Fertilized chicken eggs were divided into the following treatment groups: placebo, diamond NPs, graphite NPs, pristine graphene, small graphene oxide, large graphene oxide, and reduced graphene oxide. Experimental solutions at a concentration of 500 µg/mL were administrated into the egg albumin. Gross pathology and the rate of survival were examined after 5, 10, 15, and 20 days of incubation. After 20 days of incubation, blood samples were collected and the weight of the body and organs measured. The relative ratio of embryo survival decreased after treatment all treatments except diamond NPs. There was no correlation between the rate of survival and the ζ-potential or the surface charge of the CNPs in solution. Body and organ weight, red blood-cell morphology, blood serum biochemical parameters, and oxidative damage in the liver did not differ among the groups. These results indicate that CNPs can remain in blood circulation without any major side effects, suggesting their potential applicability as vehicles for drug delivery or active compounds per se. However, there is a need for further investigation of their properties, which vary depending on production methods and surface functionalization. Keywords: nanoparticles, diamond, graphite, graphene, toxicity, red blood cells, oxidative stress, s

Published
2017

15. Diamond nanoparticles modity curcumin activity:in vitro studies on cancer and normal cells and in ovo studies on chicken embryo model

Author

Strojny, Barbara, Grodzik, Marta, Sawosz, Ewa, Winnicka, Anna, Kurantowicz, Natalia, Jaworski, Slawomir, Kutwin, Marta, Urbanska, Kaja, Hotowy, Anna, Wierzbicki, Mateusz, Chwalibog, André, Strojny, Barbara, Grodzik, Marta, Sawosz, Ewa, Winnicka, Anna, Kurantowicz, Natalia, Jaworski, Slawomir, Kutwin, Marta, Urbanska, Kaja, Hotowy, Anna, Wierzbicki, Mateusz, and Chwalibog, André

Published
2016

16. Diamond Nanoparticles Modify Curcumin Activity: In Vitro Studies on Cancer and Normal Cells and In Ovo Studies on Chicken Embryo Model

Author

Strojny, Barbara, primary, Grodzik, Marta, additional, Sawosz, Ewa, additional, Winnicka, Anna, additional, Kurantowicz, Natalia, additional, Jaworski, Sławomir, additional, Kutwin, Marta, additional, Urbańska, Kaja, additional, Hotowy, Anna, additional, Wierzbicki, Mateusz, additional, and Chwalibog, André, additional

Published
2016
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17. Long term influence of carbon nanoparticles on health and liver status in rats

Author

Strojny, Barbara, Kurantowicz, Natalia, Sawosz, Ewa, Grodzik, Marta, Jaworski, Slamowir, Kutwin, Marta, Wierzbicki, Mateusz, Hotowy, Anna, Lipińska, Ludwika, Chwalibog, André, Strojny, Barbara, Kurantowicz, Natalia, Sawosz, Ewa, Grodzik, Marta, Jaworski, Slamowir, Kutwin, Marta, Wierzbicki, Mateusz, Hotowy, Anna, Lipińska, Ludwika, and Chwalibog, André

Published
2015

18. In Ovo administration of silver nanoparticles and/or amino acids influence metabolism and immune gene expression in chicken embryos

Author

Bhanja, Subrat K., Hotowy, Anna Malgorzata, Mehra, Manish, Sawosz, Ewa, Pineda, Lane Manalili, Vadalasetty, Radhika Krishna Prasad, Kurantowicz, Natalia, Chwalibog, André, Bhanja, Subrat K., Hotowy, Anna Malgorzata, Mehra, Manish, Sawosz, Ewa, Pineda, Lane Manalili, Vadalasetty, Radhika Krishna Prasad, Kurantowicz, Natalia, and Chwalibog, André

Abstract

Due to their physicochemical and biological properties, silver nanoparticles (NanoAg) have a wide range of applications. In the present study, their roles as a carrier of nutrients and an immunomodulator were tested in chicken embryos. Cysteine (Cys)+NanoAg injected embryos had smaller livers but heavier breasts on the 19th day of embryogenesis. Cys injected embryos had lower oxygen consumption compared to threonine (Thr) or NanoAg injected embryos. The energy expenditure in Thr+NanoAg, or NanoAg injected embryos was higher than Cys or Cys+NanoAg but was not different from uninjected control embryos. Relative expression of the hepatic insulin-like growth factor-I (IGF-I) gene was higher in Cys or NanoAg injected embryos after lipopolysaccharide (LPS) induction. The gene expression of hepatic tumour necrosis factor-alpha (TNF-α) and interleukin-6 (IL-6) did not differ among amino acids, NanoAg and uninjected controls in the non-LPS groups, but increased by many folds in the LPS treated NanoAg, Cys and Cys+NanoAg groups. In LPS treated spleens, TNF-α expression was also up-regulated by NanoAg, amino acids and their combinations, but interleukin-10 (IL-10) expression was down-regulated in Thr, Cys or Thr+NanoAg injected embryos. Toll like receptor-2 (TLR2) expression did not differ in NanoAg or amino acids injected embryos; however, toll like receptor-4 (TLR4) expression was higher in all treated embryos, except for Cys+NanoAg, than in uninjected control embryos. We concluded that NanoAg either alone or in combination with amino acids did not affect embryonic growth but improved immunocompetence, indicating that NanoAg and amino acid complexes can act as potential agents for the enhancement of innate and adaptive immunity in chicken.

Published
2015

19. Graphene functionalized with arginine decreases the development of glioblastoma multiforme tumor in a gene-dependent manner

Author

Sawosz, Ewa, Jaworski, Slawomir, Kutwin, Marta, Vadalasetty, Krishna Prasad, Grodzik, Marta, Wierzbicki, Mateusz, Kurantowicz, Natalia, Strojny, Barbara, Hotowy, Anna, Lipińska, Ludwika, Jagiełło, Joanna, Chwalibog, André, Sawosz, Ewa, Jaworski, Slawomir, Kutwin, Marta, Vadalasetty, Krishna Prasad, Grodzik, Marta, Wierzbicki, Mateusz, Kurantowicz, Natalia, Strojny, Barbara, Hotowy, Anna, Lipińska, Ludwika, Jagiełło, Joanna, and Chwalibog, André

Published
2015

22. Graphene Functionalized with Arginine Decreases the Development of Glioblastoma Multiforme Tumor in a Gene-Dependent Manner

Author

Sawosz, Ewa, primary, Jaworski, Sławomir, additional, Kutwin, Marta, additional, Vadalasetty, Krishna, additional, Grodzik, Marta, additional, Wierzbicki, Mateusz, additional, Kurantowicz, Natalia, additional, Strojny, Barbara, additional, Hotowy, Anna, additional, Lipińska, Ludwika, additional, Jagiełło, Joanna, additional, and Chwalibog, André, additional

Published
2015
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24. Toxicity of pristine graphene in experiments in a chicken embryo model

Author

Sawosz,Ewa, Jaworski,Slawomir, Kutwin,Marta, Hotowy,Anna, Wierzbicki,Mateusz, Grodzik,Marta, Kurantowicz,Natalia, Strojny,Barbara, Lipińska,Ludwika, Chwalibog,André, Sawosz,Ewa, Jaworski,Slawomir, Kutwin,Marta, Hotowy,Anna, Wierzbicki,Mateusz, Grodzik,Marta, Kurantowicz,Natalia, Strojny,Barbara, Lipińska,Ludwika, and Chwalibog,André

Abstract

Ewa Sawosz,1 Slawomir Jaworski,1 Marta Kutwin,1 Anna Hotowy,1 Mateusz Wierzbicki,1 Marta Grodzik,1 Natalia Kurantowicz,1 Barbara Strojny,1 Ludwika Lipinska,2 André Chwalibog3 1Division of Nanobiotechnology, Warsaw University of Life Sciences, Warsaw, Poland; 2Institute of Electronic Materials Technology, Warsaw, Poland; 3Department of Veterinary Clinical and Animal Sciences, University of Copenhagen, Frederiksberg, Denmark Abstract: Evaluation of the potential cytotoxicity of graphene is a key factor for medical applications, where flakes or a surface of graphene may be used as bioactive molecules, drug carriers, or biosensors. In the present work, effects of pristine graphene (pG) on the development of a living organism, with an emphasis on morphological and molecular states of the brain, were investigated using a chicken embryo model. Fertilized chicken eggs were divided into the control group and groups administered with pG suspended in milli-Q water at concentrations of 50 µg/L, 100 µg/L, 500 µg/L, 1,000 µg/L, 5,000 µg/L, and 10,000 µg/L (n=30 per group). The experimental solutions were injected in ovo into the albumin and then the eggs were incubated. After 19 days of incubation, the survival, weight of the body and organs, and blood serum biochemical indices were measured. The brain samples were collected for microscopic examination of brain ultrastructure and measurements of gene and protein expression. Survival of embryos was significantly decreased after treatment with pG, but the body and organ weights as well as biochemical indices were not affected. In all treatment groups, some atypical ultrastructures of the brain were observed, but they were not enhanced by the increasing concentrations of pG. Expression of proliferating cell nuclear antigen at the messenger ribonucleic acid level was downregulated, and the number of proliferating cell nuclear antigen-positive nuc

Published
2014

25. Toxicity of pristine graphene in experiments in a chicken embryo model

Author

Sawosz, Ewa, Jaworski, Slawomir, Kutwin, Marta, Hotowy, Anna, Wierzbicki, Mateusz, Grodzik, Marta, Kurantowicz, Natalia, Strojny, Barbara, Lipinska, Ludwika, Chwalibog, André, Sawosz, Ewa, Jaworski, Slawomir, Kutwin, Marta, Hotowy, Anna, Wierzbicki, Mateusz, Grodzik, Marta, Kurantowicz, Natalia, Strojny, Barbara, Lipinska, Ludwika, and Chwalibog, André

Published
2014

28. Toxicity of pristine graphene in experiments in a chicken embryo model.

Author

Sawosz E, Jaworski S, Kutwin M, Hotowy A, Wierzbicki M, Grodzik M, Kurantowicz N, Strojny B, Lipińska L, and Chwalibog A

Subjects
Animals, Brain growth & development, Brain ultrastructure, Chick Embryo, Chickens, Graphite chemistry, Nanoparticles chemistry, Brain drug effects, Gene Expression Regulation, Developmental drug effects, Graphite toxicity, Nanoparticles toxicity
Abstract

Evaluation of the potential cytotoxicity of graphene is a key factor for medical applications, where flakes or a surface of graphene may be used as bioactive molecules, drug carriers, or biosensors. In the present work, effects of pristine graphene (pG) on the development of a living organism, with an emphasis on morphological and molecular states of the brain, were investigated using a chicken embryo model. Fertilized chicken eggs were divided into the control group and groups administered with pG suspended in milli-Q water at concentrations of 50 μg/L, 100 μg/L, 500 μg/L, 1,000 μg/L, 5,000 μg/L, and 10,000 μg/L (n=30 per group). The experimental solutions were injected in ovo into the albumin and then the eggs were incubated. After 19 days of incubation, the survival, weight of the body and organs, and blood serum biochemical indices were measured. The brain samples were collected for microscopic examination of brain ultrastructure and measurements of gene and protein expression. Survival of embryos was significantly decreased after treatment with pG, but the body and organ weights as well as biochemical indices were not affected. In all treatment groups, some atypical ultrastructures of the brain were observed, but they were not enhanced by the increasing concentrations of pG. Expression of proliferating cell nuclear antigen at the messenger ribonucleic acid level was downregulated, and the number of proliferating cell nuclear antigen-positive nuclei was significantly reduced in the 500-10,000 μg/L groups compared with the control group, indicating a decreased rate of deoxyribonucleic acid synthesis in the brain. The present results demonstrate some harmful effects of the applied pG flakes on the developing organism, including brain tissue, which ought to be considered prior to any medical applications.

Published
2014
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