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7. NANOSECOND PULSED ELECTRIC FIELD MODULATES IMMUNOPHENOTYPE OF LYMPHOCYTES.

Author

Szlasa, W., Sauer, N., Novickij, V., Rossowska, J., and Kulbacka, J.

Subjects
ELECTRIC fields, LYMPHOCYTES, T cells, CELL death
Abstract

This study aims to identify changes in the expression profile of antigens defining lymphocyte maturity and function. Also, we proved that application of electric field treatment could modulate the expression profile of lymphocytes while avoiding cell death. Based on our studies, we propose a mechanism in which the cells: (1) permeabilize the cell membrane, (2) increase the expression of lymphocyte-activation antigens, and (3) downregulate the expression of CD7. [Extracted from the article]

Published
2023
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12. Modulation of the Oxygenation State and Intracellular pH of Erythrocytes by Inositol-Trispyrophosphate Investigated by 31 P NMR Study of 2,3-DPG.

Author

Koj S, Niedziela T, Rossowska J, Schmitt JL, Lehn JM, Nicolau C, and Kieda C

Subjects
Hydrogen-Ion Concentration, Humans, Animals, Hemoglobins metabolism, Anion Exchange Protein 1, Erythrocyte metabolism, Erythrocytes metabolism, Erythrocytes drug effects, Oxygen metabolism, Inositol Phosphates metabolism, 2,3-Diphosphoglycerate metabolism, Magnetic Resonance Spectroscopy
Abstract

The hypoxic microenvironment is crucial for tumour cell growth and invasiveness. Tumour tissue results from adaptation to reduced oxygen availability. Hypoxia first activates pro-angiogenic signals for alleviation. Pathologic, tumour angiogenesis maintains hypoxia, impairing treatment outcomes. Vessel normalisation requires physioxia. Oxygen delivery by red blood cell (RBC) carrying haemoglobin (Hb) is enhanced by myo-inositol trispyrophosphate (ITPP), an effector of oxygen transport by RBCs. Altering glycolytic activity, it lowers intracellular pH and increases oxygen release from Hb. 31 P NMR tracking of 2,3-diphosphoglycerate (2,3-DPG), allosteric effector of Hb and non-penetrating anion in RBCs, reports on erythrocytes internal environment. 31 P resonances of 2,3-DPG are pH-sensitive, their positions indicate the oxygenation state of RBCs and interactions with effectors such as ITPP. Here we show in vitro and in vivo, that modifying Hb activity through band-3 anion transporter, ITPP enhances oxygen release and controls RBC internal pH. Its blood availability validates applicability of ITPP-based strategies., (© 2025 The Author(s). Journal of Cellular and Molecular Medicine published by Foundation for Cellular and Molecular Medicine and John Wiley & Sons Ltd.)

Published
2025
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14. Calcium ion delivery by microbubble-assisted sonoporation stimulates cell death in human gastrointestinal cancer cells.

Author

Przystupski D, Baczyńska D, Rossowska J, Kulbacka J, and Ussowicz M

Subjects
Humans, Cell Line, Tumor, Cell Death drug effects, Oxidative Stress drug effects, Drug Delivery Systems methods, Cell Survival drug effects, Cell Proliferation drug effects, Mitochondria metabolism, Mitochondria drug effects, Ultrasonic Waves, Tumor Suppressor Protein p53 metabolism, Microbubbles, Calcium metabolism, Apoptosis drug effects, Gastrointestinal Neoplasms pathology, Gastrointestinal Neoplasms drug therapy, Gastrointestinal Neoplasms metabolism, Gastrointestinal Neoplasms therapy
Abstract

Ultrasound-mediated cell membrane permeabilization - sonoporation, enhances drug delivery directly to tumor sites while reducing systemic side effects. The potential of ultrasound to augment intracellular calcium uptake - a critical regulator of cell death and proliferation - offers innovative alternative to conventional chemotherapy. However, calcium therapeutic applications remain underexplored in sonoporation studies. This research provides a comprehensive analysis of calcium sonoporation (CaSP), which combines ultrasound treatment with calcium ions and SonoVue microbubbles, on gastrointestinal cancer cells LoVo and HPAF-II. Initially, optimal sonoporation parameters were determined: an acoustic wave of 1 MHz frequency with a 50 % duty cycle at intensity of 2 W/cm 2 . Subsequently, various cellular bioeffects, such as viability, oxidative stress, metabolism, mitochondrial function, proliferation, and cell death, were assessed following CaSP treatment. CaSP significantly impaired cancer cell function by inducing oxidative and metabolic stress, evidenced by increased mitochondrial depolarization, decreased ATP levels, and elevated glucose uptake in a Ca 2+ dose-dependent manner, leading to activation of the intrinsic apoptotic pathway. Cellular response to CaSP depended on the TP53 gene's mutational status: colon cancer cells were more susceptible to CaSP-induced apoptosis and G1 phase cell cycle arrest, whereas pancreatic cancer cells showed a higher necrotic response and G2 cell cycle arrest. These promising results encourage future research to optimize sonoporation parameters for clinical use, investigate synergistic effects with existing treatments, and assess long-term safety and efficacy in vivo. Our study highlights CaSP's clinical potential for improved safety and efficacy in cancer therapy, offering significant implications for the pharmaceutical and biomedical fields., Competing Interests: Declaration of Competing Interest The authors declare the following financial interests/personal relationships which may be considered as potential competing interests: Dawid Przystupski reports financial support was provided by Ministry of Science and Higher Education of Poland. If there are other authors, they declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2024 The Authors. Published by Elsevier Masson SAS.. All rights reserved.)

Published
2024
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15. Tripeptides conjugated with thiosemicarbazones: new inhibitors of tyrosinase for cosmeceutical use.

Author

Ledwoń P, Goldeman W, Hałdys K, Jewgiński M, Calamai G, Rossowska J, Papini AM, Rovero P, and Latajka R

Subjects
Animals, Mice, Monophenol Monooxygenase, Enzyme Inhibitors pharmacology, Enzyme Inhibitors chemistry, Melanins, Cosmeceuticals, Thiosemicarbazones pharmacology, Thiosemicarbazones chemistry, Agaricales
Abstract

The development of skin-care products is recently growing. Cosmetic formulas containing active ingredients with proven efficacy, namely cosmeceuticals, are based on various compounds, including peptides. Different whitening agents featuring anti-tyrosinase activity have been applied in the cosmeceutical field. Despite their availability, their applicability is often limited due to several drawbacks including toxicity, lack of stability, and other factors. In this work, we present the inhibitory effect on diphenolase activity of thiosemicarbazone (TSC)-peptide conjugates. Tripeptides FFY, FWY, and FYY were conjugated with three TSCs bearing one or two aromatic rings via amide bond formation in a solid phase. Compounds were then examined as tyrosinase and melanogenesis inhibitors in murine melanoma B16F0 cell line, followed by the cytotoxicity assays of these cells. In silico investigations explained the differences in the activity, observed among tested compounds. Mushroom tyrosinase was inhibited by TSC 1 -conjugates at micromolar level, with IC 50 lower than this for kojic acid, a widely used reference compound. Up to now, this is the first report regarding thiosemicarbazones conjugated with tripeptides, synthesised for the purpose of tyrosinase inhibition.

Published
2023
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16. The modulation of local and systemic anti-tumor immune response induced by methotrexate nanoconjugate in murine MC38 colon carcinoma and B16 F0 melanoma tumor models.

Author

Szczygieł A, Węgierek-Ciura K, Mierzejewska J, Wróblewska A, Rossowska J, Anger-Góra N, Szermer-Olearnik B, Świtalska M, Goszczyński TM, and Pajtasz-Piasecka E

Abstract

Methotrexate (MTX) which is one of the longest-used cytostatics, belongs to the group of antimetabolites and is used for treatment in different types of cancer as well as during autoimmune diseases. MTX can act as a modulator enable to create the optimal environment to generate the specific anti-tumor immune response. A novel system for MTX delivery is its conjugation with high-molecular-weight carriers such as hydroxyethyl starch (HES), a modified amylopectin-based polymer applied in medicine as a colloidal plasma volume expander. Such modification prolongs the plasma half-life of the HES-MTX nanoconjugate and improves the distribution of the drug in the body. In the current study, we focused on evaluating the dose-dependent therapeutic efficacy of chemotherapy with HES-MTX nanoconjugate compared to the free form of MTX, and examining the time-dependent changes in the local and systemic anti-tumor immune response induced by this therapy. To confirm the higher effectiveness of HES-MTX in comparison to MTX, we analyzed its action using murine MC38 colon carcinoma and B16 F0 melanoma tumor models. It was noted that HES-MTX at a dose of 20 mg/kg b.w. was more effective in tumor growth inhibition than MTX in both tumor models. One of the main differences between the two analyzed tumor models concerned the kinetics of the appearance of the immunomodulation. In MC38 tumors, the beneficial change in the tumor microenvironment (TME) landscape, manifested by the depletion of pro-tumor immune cells, and increased influx of cells with strong anti-tumor activity was noted already 3 days after HES-MTX administration, while in B16 F0 model, these changes occurred 10 days after the start of therapy. Thus, the immunomodulatory potential of the HES-MTX nanoconjugate may be closely related to the specific immune cell composition of the TME, which combined with additional treatment such as immunotherapies, would enhance the therapeutic potential of the nanoconjugate., Competing Interests: The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest., (AJCR Copyright © 2023.)

Published
2023

17. Inhibition of MC38 colon cancer growth by multicomponent chemoimmunotherapy with anti-IL-10R antibodies, HES-MTX nanoconjugate, depends on application of IL-12, IL-15 or IL-18 secreting dendritic cell vaccines.

Author

Węgierek-Ciura K, Mierzejewska J, Szczygieł A, Rossowska J, Wróblewska A, Świtalska M, Goszczyński TM, Szermer-Olearnik B, and Pajtasz-Piasecka E

Subjects
Animals, Mice, Dendritic Cells, Immunotherapy methods, Interleukin-10, Interleukin-12, Interleukin-15, Interleukin-18, Methotrexate pharmacology, Methotrexate therapeutic use, Nanoconjugates therapeutic use, Tumor Microenvironment, Cancer Vaccines, Colonic Neoplasms, Cytokines
Abstract

Background: The tumor microenvironment (TME) provides a conducive environment for the growth and survival of tumors. Negative factors present in TME, such as IL-10, may limit the effectiveness of cellular vaccines based on dendritic cells, therefore, it is important to control its effect. The influence of IL-10 on immune cells can be abolished e.g., by using antibodies against the receptor for this cytokine - anti-IL-10R. Furthermore, the anticancer activity of cellular vaccines can be enhanced by modifying them to produce proinflammatory cytokines, such as IL-12, IL-15 or IL-18. Additionally, an immunomodulatory dose of methotrexate and hydroxyethyl starch (HES-MTX) nanoconjugate may stimulate effector immune cells and eliminate regulatory T cells, which should enhance the antitumor action of immunotherapy based on DC vaccines. The main aim of our study was to determine whether the HES-MTX administered before immunotherapy with anti-IL-10R antibodies would change the effect of vaccines based on dendritic cells overproducing IL-12, IL-15, or IL-18., Methods: The activity of modified DCs was checked in two therapeutic protocols - immunotherapy with the addition of anti-IL10R antibodies and chemoimmunotherapy with HES-MTX and anti-IL10R antibodies. The inhibition of tumor growth and the effectiveness of the therapy in inducing a specific antitumor response were determined by analyzing lymphoid and myeloid cell populations in tumor nodules, and the activity of restimulated splenocytes., Results and Conclusions: Using the HES-MTX nanoconjugate before immunotherapy based on multiple administrations of anti-IL-10R antibodies and cellular vaccines capable of overproducing proinflammatory cytokines IL-12, IL-15 or IL-18 created optimal conditions for the effective action of these vaccines in murine colon carcinoma MC38 model. The applied chemoimmunotherapy caused the highest inhibition of tumor growth in the group receiving DC/IL-15/IL-15Rα/TAg + DC/IL-18/TAg at the level of 72.4%. The use of cellular vaccines resulted in cytotoxic activity increase in both immuno- or chemoimmunotherapy. However, the greatest potential was observed both in tumor tissue and splenocytes obtained from mice receiving two- or three-component vaccines in the course of combined application. Thus, the designed treatment schedule may be promising in anticancer therapy., Competing Interests: The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest., (Copyright © 2023 Węgierek-Ciura, Mierzejewska, Szczygieł, Rossowska, Wróblewska, Świtalska, Goszczyński, Szermer-Olearnik and Pajtasz-Piasecka.)

Published
2023
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18. Nanoelectropulse delivery for cell membrane perturbation and oxidation in human colon adenocarcinoma cells with drug resistance.

Author

Kulbacka J, Choromańska A, Szewczyk A, Michel O, Baczyńska D, Sikora A, Rossowska J, Kulbacki M, and Rembiałkowska N

Subjects
Humans, Reactive Oxygen Species metabolism, Calcium metabolism, Cell Membrane metabolism, Electroporation methods, Drug Resistance, Adenocarcinoma, Colonic Neoplasms metabolism
Abstract

Ultrashort electric pulses in the nanosecond range (nsPEF) can affect extra- and intracellular lipid structures and can also alternate cell functioning reversibly and irreversibly. Several of the nsPEF effects are due to the abrupt rise in intracellular free calcium levels and calcium ions influx from the outside. Calcium is one of the most important factors in cell proliferation, differentiation, and cell death (apoptosis or necrosis). Manipulating calcium levels using electroporation can have different effects on normal and malignant cells. This study aimed to examine the impact of nsPEFs, combined with 1 mM Ca 2+ in human colon adenocarcinoma cell lines: sensitive- LoVo and drug resistant-LoVoDX. In this study 200 pulses of 10 ns and high voltage (12.5-50 kVcm -1 ) were used. Cell viability was determined by MTT and clonogenic assay. Proteasomal activity, GSH/GSSG assay, ROS production, and PALS-1 protein were evaluated as oxidative stress markers and protein damage. Cell morphology was visualized by AFM, SEM, and confocal microscopy imaging. The results revealed that nsPEF with 1 mM Ca 2+ is cytotoxic, particularly for LoVoDX cells, and safe for normal cells. NsPEF provoked ROS release, altered cell polarity, and destabilized cell morphology. These results can be important for future protocols for colon adenocarcinoma using calcium nsPEF., Competing Interests: Declaration of Competing Interest The authors declare the following financial interests/personal relationships which may be considered as potential competing interests: Julita Kulbacka reports financial support was provided by National Science Centre Poland., (Copyright © 2022 Elsevier B.V. All rights reserved.)

Published
2023
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19. Combined therapy with methotrexate nanoconjugate and dendritic cells with downregulated IL-10R expression modulates the tumor microenvironment and enhances the systemic anti-tumor immune response in MC38 murine colon carcinoma.

Author

Szczygieł A, Węgierek-Ciura K, Wróblewska A, Mierzejewska J, Rossowska J, Szermer-Olearnik B, Świtalska M, Anger-Góra N, Goszczyński TM, and Pajtasz-Piasecka E

Subjects
Animals, Mice, Methotrexate pharmacology, Methotrexate therapeutic use, Nanoconjugates therapeutic use, Tumor Microenvironment, RNA, Small Interfering genetics, Lymphocyte Activation, Dendritic Cells, Receptors, Interleukin-10 metabolism, Cancer Vaccines, Colonic Neoplasms, Carcinoma drug therapy
Abstract

Background: Understanding the negative impact of the tumor microenvironment on the creation of an effective immune response has contributed to the development of new therapeutic anti-cancer strategies. One such solution is combined therapy consisting of chemotherapeutic administration followed by dendritic cell (DC)-based vaccines. The use of cytostatic leads to the elimination of cancer cells, but can also modulate the tumor milieu. Moreover, great efforts are being made to increase the therapeutic outcome of immunotherapy, e.g. by enhancing the ability of DCs to generate an efficient immune response, even in the presence of immunosuppressive cytokines such as IL-10. The study aimed to determine the effectiveness of combined therapy with chemotherapeutic with immunomodulatory potential - HES-MTX nanoconjugate (composed of methotrexate (MTX) and hydroxyethyl starch (HES)) and DCs with downregulated expression of IL-10 receptor stimulated with tumor antigens (DC/shIL-10R/TAg) applied in MC38 murine colon carcinoma model., Methods: With the use of lentiviral vectors the DCs with decreased expression of IL-10R were obtained and characterized. During in vivo studies MC38-tumor bearing mice received MTX or HES-MTX nanoconjugate as a sole treatment or combined with DC-based immunotherapy containing unmodified DCs or DCs transduced with shRNA against IL-10R (or control shRNA sequence). Tumor volume was monitored during the experiment. One week after the last injection of DC-based vaccines, tumor nodules and spleens were dissected for ex vivo analysis. The changes in the local and systemic anti-tumor immune response were estimated with the use of flow cytometry and ELISA methods., Results and Conclusions: In vitro studies showed that the downregulation of IL-10R expression in DCs enhances their ability to activate the specific anti-tumor immune response. The use of HES-MTX nanoconjugate and DC/shIL-10R/TAg in the therapy of MC38-tumor bearing mice resulted in the greatest tumor growth inhibition. At the local anti-tumor immune response level a decrease in the infiltration of cells with suppressor activity and an increase in the influx of effector cells into MC38 tumor tissue was observed. These changes were crucial to enhance the effective specific immune response at the systemic level, which was revealed in the greatest cytotoxic activity of spleen cells against MC38 cells., Competing Interests: The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest., (Copyright © 2023 Szczygieł, Węgierek-Ciura, Wróblewska, Mierzejewska, Rossowska, Szermer-Olearnik, Świtalska, Anger-Góra, Goszczyński and Pajtasz-Piasecka.)

Published
2023
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20. Nanosecond PEF Induces Oxidative Stress and Apoptosis via Proteasomal Activity Inhibition in Gastric Adenocarcinoma Cells with Drug Resistance.

Author

Kulbacka J, Rembiałkowska N, Szewczyk A, Rossowska J, Drąg-Zalesińska M, Kulbacki M, and Choromańska A

Subjects
Humans, Reactive Oxygen Species, Calcium, Glutathione Disulfide, Apoptosis, Electroporation methods, Oxidative Stress, Drug Resistance, Stomach Neoplasms drug therapy, Adenocarcinoma drug therapy
Abstract

Nanosecond (ns) pulsed electric field (PEF) is a technology in which the application of ultra-short electrical pulses can be used to disrupt the barrier function of cell plasma and internal membranes. Disruptions of the membrane integrity cause a substantial imbalance in cell homeostasis in which oxidative stress is a principal component. In the present study, nsPEF-induced oxidative stress was investigated in two gastric adenocarcinoma cell lines (EPG85-257P and EPG85-257RDB) which differ by their sensitivity to daunorubicin. Cells were exposed to 200 pulses of 10 ns duration, with the amplitude and pulse repetition frequency at 1 kHz, with electric field intensity varying from 12.5 to 50 kV/cm. The electroporation buffer contained either 1 mM or 2 mM calcium chloride. CellMask DeepRed visualized cell plasma permeabilization, Fluo-4 was used to visualize internal calcium ions content, and F-actin was labeled with AlexaFluor ® 488 for the cytoskeleton. The cellular viability was determined by MTT assay. An alkaline and neutral comet assay was employed to detect apoptotic and necrotic cell death. The luminescent method estimated the modifications in GSSG/GSH redox potential and the imbalance of proteasomal activity (chymotrypsin-, trypsin- and caspase-like). The reactive oxygen species (ROS) level was measured by flow cytometry using dihydroethidium (DHE) dye. Morphological visualization indicated cell shrinkage, affected cell membranes (characteristic bubbles and changed cell shape), and the reorganization of actin fibers with sites of its dense concentration; the effect was more intense with the increasing electric field strength. The most significant decrease in cell viability and GSSG/GSH redox potential was noted at the highest amplitude of 50 kV/cm, and calcium ions amplified this effect. nsPEF, particularly with calcium ions, inhibited proteasomal activities, resulting in increased protein degradation. nsPEF increased the percentage of apoptotic cells and ROS levels. The EPG85-257 RDB cell line, which is resistant to standard chemotherapy, was more sensitive to applied nsPEF protocols. The applied nsPEF method disrupted the metabolism of cancer cells and induced apoptotic cell death. The nsPEF ability to cause apoptosis, oxidative stress, and protein degradation make the nsPEF methodology a suitable alternative to current anticancer pharmacological methods.

Published
2022
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21. "Endothelial Antibody Factory" at the Blood Brain Barrier: Novel Approach to Therapy of Neurodegenerative Diseases.

Author

Thinard R, Farkas AE, Halasa M, Chevalier M, Brodaczewska K, Majewska A, Zdanowski R, Paprocka M, Rossowska J, Duc LT, Greferath R, Krizbai I, Van Leuven F, Kieda C, and Nicolau C

Abstract

The failures of anti-β-amyloid immunotherapies suggested that the very low fraction of injected antibodies reaching the brain parenchyma due to the filtering effect of the BBB may be a reason for the lack of therapeutic effect. However, there is no treatment, as yet, for the amyotrophic lateral sclerosis (ALS) despite substantial evidence existing of the involvement of TDP-43 protein in the evolution of ALS. To circumvent this filtering effect, we have developed a novel approach to facilitate the penetration of antibody fragments (Fabs) into the brain parenchyma. Leveraging the homing properties of endothelial progenitor cells (EPCs), we transfected, ex vivo, such cells with vectors encoding anti-β-amyloid and anti-TDP43 Fabs turning them into an "antibody fragment factory". When injected these cells integrate into the BBB, where they secrete anti-TDP43 Fabs. The results showed the formation of tight junctions between the injected engineered EPCs and the unlabeled resident endothelial cells. When the EPCs were further modified to express the anti-TDP43 Fab, we could observe integration of these cells into the vasculature and the secretion of Fabs. Results confirm that production and secretion of Fabs at the BBB level leads to their migration to the brain parenchyma where they might exert a therapeutic effect.

Published
2022
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22. The Beneficial Effect of IL-12 and IL-18 Transduced Dendritic Cells Stimulated with Tumor Antigens on Generation of an Antitumor Response in a Mouse Colon Carcinoma Model.

Author

Mierzejewska J, Węgierek-Ciura K, Rossowska J, Szczygieł A, Anger-Góra N, Szermer-Olearnik B, Geneja M, and Pajtasz-Piasecka E

Subjects
Animals, Antigens, Neoplasm, Colon, Dendritic Cells, Female, Immunity, Interleukin-18 genetics, Mice, Mice, Inbred C57BL, Tumor Microenvironment, Carcinoma, Interleukin-12 genetics
Abstract

The main purpose of our study was to determine the effect of dendritic cell (DC) transduction with lentiviral vectors carrying sequences of il18 and/or il12 genes on the level of antitumor activity in vitro and in vivo . We examined the ability of DCs to migrate to the tumor-draining lymph nodes and infiltrate tumor tissue and to activate the local and systemic antitumor response. On the 15th day, DCs genetically modified for production of IL-12 and/or IL-18 were administered peritumorally to C57BL/6 female mice with established MC38 tumors. Lymphoid organs and tumor tissue were collected from mice on the 3rd, 5th, and 7th days after a single administration of DCs for further analysis. Administration of DCs transduced for production of IL-12 alone and in combination with IL-18 increased the inflow and activity of CD4 + and CD8 + T lymphocytes in the tumor microenvironment and tumor-draining lymph nodes. We also found that even a single administration of such modified DCs could trigger a systemic antitumor response as well as inhibit tumor growth. Application of the developed DC-based vaccines may exert a favorable impact on stimulation of an antitumor immune response, especially if these DC vaccines are administered repeatedly., Competing Interests: The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest., (Copyright © 2022 Jagoda Mierzejewska et al.)

Published
2022
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23. Missing the sweet spot: one of the two N-glycans on human Gb3/CD77 synthase is expendable.

Author

Mikolajczyk K, Bereznicka A, Szymczak-Kulus K, Haczkiewicz-Lesniak K, Szulc B, Olczak M, Rossowska J, Majorczyk E, Kapczynska K, Bovin N, Lisowska M, Kaczmarek R, Miazek A, and Czerwinski M

Subjects
Glycosylation, Humans, Polysaccharides, Trihexosylceramides, Galactosyltransferases metabolism, Glycosphingolipids
Abstract

N-glycosylation is a ubiquitous posttranslational modification that may influence folding, subcellular localization, secretion, solubility and oligomerization of proteins. In this study, we examined the effects of N-glycans on the activity of human Gb3/CD77 synthase, which catalyzes the synthesis of glycosphingolipids with terminal Galα1→4Gal (Gb3 and the P1 antigen) and Galα1→4GalNAc disaccharides (the NOR antigen). The human Gb3/CD77 synthase contains two occupied N-glycosylation sites at positions N121 and N203. Intriguingly, we found that while the N-glycan at N203 is essential for activity and correct subcellular localization, the N-glycan at N121 is dispensable and its absence did not reduce, but, surprisingly, even increased the activity of the enzyme. The fully N-glycosylated human Gb3/CD77 synthase and its glycoform missing the N121 glycan correctly localized in the Golgi, whereas a glycoform without the N203 site partially mislocalized in the endoplasmic reticulum. A double mutein missing both N-glycans was inactive and accumulated in the endoplasmic reticulum. Our results suggest that the decreased specific activity of human Gb3/CD77 synthase glycovariants resulted from their improper subcellular localization and, to a smaller degree, a decrease in enzyme solubility. Taken together, our findings show that the two N-glycans of human Gb3/CD77 synthase have opposing effects on its properties, revealing a dual nature of N-glycosylation and potentially a novel regulatory mechanism controlling the biological activity of proteins., (© The Author(s) 2021. Published by Oxford University Press. All rights reserved. For permissions, please e-mail: journals.permissions@oup.com.)

Published
2021
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24. Treatment with lentiviral vectors encoding shRNA against interleukin 10 modulates the immunosuppressive activity of murine colon carcinoma-associated myeloid-derived suppressor cells.

Author

Anger-Góra N, Węgierek-Ciura K, Szczygieł A, Mierzejewska J, Pajtasz-Piasecka E, and Rossowska J

Abstract

Myeloid-derived suppressor cells (MDSCs) are potent suppressors of antitumor immunity and their accumulation is often associated with poor prognosis. The aim of the present study was to determine the mechanisms of action of lentiviral vectors encoding short hairpin (sh)RNA against interleukin-10 (IL-10), with particular emphasis on their influence on the activity of tumor-derived MDSCs. Lentiviral vectors encoding shRNA against IL-10 (shIL-10 LVs) were utilized to silence the expression of IL-10 either in MDSCs that were generated ex vivo from bone marrow cells cultured in the presence of supernatant from MC38 colon carcinoma cells, or in situ in the MC38 murine colon carcinoma environment. Although monocytic MDSCs (M-MDSCs) transduced with shIL-10 LVs exhibited increased suppressor activity, transduction of polymorphonuclear MDSCs (PMN-MDSCs) appeared to reduce their ability to inhibit T lymphocyte functions. Analysis of EGFP expression in MC38 tumors revealed that intratumorally inoculated shIL-10 LVs transduced tumor-infiltrating myeloid cells with the highest efficiency and, led to a decreased IL-10 level in the tumor microenvironment. However, the effect was accompanied by increased influx of PMN-MDSCs into tumors observed both on the 6th and on the 10th day after shIL-10 LV injections. Nevertheless, it was noted that suppressor activity of myeloid cells isolated from tumors was dependent on the efficiency of tumor-derived PMN-MDSC transduction with shIL-10 LVs. The increased percentage of transduced PMN-MDSCs on the 10th day was associated with diminished immunosuppressive activity of tumor-derived myeloid cells and an elevated ratio of cytotoxic T lymphocytes to M-MDSCs. The obtained data indicated that treatment with shIL-10 LVs may result in modulation of the immunosuppressive activity of MC38 colon carcinoma-derived MDSCs., Competing Interests: The authors declare that they have no competing interests., (Copyright: © Anger-Góra et al.)

Published
2021
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25. Immune Response to COVID-19 mRNA Vaccine-A Pilot Study.

Author

Lange A, Borowik A, Bocheńska J, Rossowska J, and Jaskuła E

Abstract

Twenty individuals (17 females, 3 males, aged 31-65 years (range), median: 46) who received both doses of the BioNTech Pfizer mRNA vaccine were examined (11 to 31 days, median: 25) after the second dose for the presence of antibodies against peptides of SARS-COV-2 and some of MERS-CoV, SARS-CoV1, HCov229E, and HCoVNL63. Clinical evaluation revealed that six people had COVID-19 in the past. We found that: (i) Six people claimed the presence of unwanted effects of vaccination, which were more frequent in those with a history of COVID-19 (4 out of 6 vs. 2 out of 14, p = 0.037); (ii) All individuals independent of the past history of COVID-19 responded equally well in IgG but those who experienced the disease tended to do better in IgA class (729.04 vs. 529.78 U/mL, p = 0.079); (iii) All those who had experienced the disease had IgG antibodies against nucleocapsid antigens but also 5 out of 14 who had not had the disease (6/6 vs. 5/14, p = 0.014); (iv) Anti S2 antibodies were present in the patients having COVID-19 in the past but also were found in those who had not had the disease (6/6 vs. 8/14, p = 0.144); (v) All vaccinated people were highly positive in the IGRA and the level of released IFN gamma was correlated with the numbers of HLADR positive lymphocytes in the blood ( R = 0.5766, p = 0.008).

Published
2021
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26. Investigating the photodynamic efficacy of chlorin e6 by millisecond pulses in metastatic melanoma cells.

Author

Kulbacka J, Chodaczek G, Rossowska J, Szewczyk A, Saczko J, and Bazylińska U

Subjects
Biological Transport, Cell Line, Tumor, Chlorophyllides, Humans, Kinetics, Neoplasm Metastasis, Photosensitizing Agents metabolism, Porphyrins metabolism, Singlet Oxygen metabolism, Time Factors, Melanoma pathology, Photochemotherapy, Photosensitizing Agents pharmacology, Porphyrins pharmacology
Abstract

Melanoma is considered the most aggressive type of skin cancer, still without effective treatment. Thus, alternative therapeutic methods are still in demand, and electroporation-supported photodynamic therapy (EP-PDT) of cancer cells seems a promising approach. New developments in EP-PDT aim at enhanced tumor selectivity and biocompatibility by applying a second-generation photosensitizer, i.e., Chlorin e6 (Ce6). We have verified the improved photodynamic effect of Ce6 on skin cancer melanoma (Me45) cells and control (CHO-K1) cells. In this study, we applied 1 or 5 pulses of 10 ms duration and assessed the EP-PDT effect with a variety of tests, such as singlet oxygen scavenger (ABMDMA) photooxidation, oxidoreductive potential measurements, kinetic measurements with fluorescent microscopy, photosensitizer uptake studies, lipid peroxidation level, and actin fibers organization. The optimization of photosensitizer uptake as a function of temperature was also performed. Our results indicated efficient Ce6 delivery into Me45 cells and good photodynamic efficiency enhanced by the electroporation of cancer cells., Competing Interests: Declaration of Competing Interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2020 Elsevier B.V. All rights reserved.)

Published
2021
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27. Immunomodulatory potential of anticancer therapy composed of methotrexate nanoconjugate and dendritic cell‑based vaccines in murine colon carcinoma.

Author

Szczygieł A, Anger-Góra N, Węgierek-Ciura K, Mierzejewska J, Rossowska J, Goszczyński TM, Świtalska M, and Pajtasz-Piasecka E

Subjects
Animals, Cancer Vaccines immunology, Carcinoma immunology, Carcinoma pathology, Cell Line, Tumor transplantation, Colon drug effects, Colon immunology, Colon pathology, Colonic Neoplasms immunology, Colonic Neoplasms pathology, Combined Modality Therapy methods, Disease Models, Animal, Female, Humans, Hydroxyethyl Starch Derivatives chemistry, Intestinal Mucosa drug effects, Intestinal Mucosa immunology, Intestinal Mucosa pathology, Mice, Nanoconjugates chemistry, Tumor Escape drug effects, Cancer Vaccines administration & dosage, Carcinoma therapy, Colonic Neoplasms therapy, Dendritic Cells immunology, Drug Carriers chemistry, Methotrexate administration & dosage
Abstract

Chemotherapy with low‑molecular weight compounds, despite elimination of cancer cells, entails adverse effects. To overcome this disadvantage, innovative drug delivery systems are being developed, including conjugation of macromolecular carriers with therapeutics, e.g. a nanoconjugate of hydroxyethyl starch and methotrexate (HES‑MTX). The purpose of the present study was to determine whether HES‑MTX, applied as a chemotherapeutic, is able to modulate the immune response and support the antitumor response generated by dendritic cells (DCs) used subsequently as immunotherapeutic vaccines. Therefore, MTX or HES‑MTX was administered, as sole treatment or combined with DC‑based vaccines, to MC38 colon carcinoma tumor‑bearing mice. Alterations in antitumor immune response were evaluated by multiparameter flow cytometry analyses and functional assays. The results demonstrated that the nanoconjugate possesses greater immunomodulatory potential than MTX as reflected by changes in the landscape of immune cells infiltrating the tumor and increased cytotoxicity of splenic lymphocytes. In contrast to MTX, therapy with HES‑MTX as sole treatment or combined with DC‑based vaccines, contributed to significant tumor growth inhibition. However, only treatment with HES‑MTX and DC‑based vaccines activated the systemic specific antitumor response. In conclusion, due to its immunomodulatory properties, the HES‑MTX nanoconjugate could become a potent anticancer agent used in both chemo‑ and chemoimmunotherapeutic treatment schemes.

Published
2021
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28. Monosubstituted Acetophenone Thiosemicarbazones as Potent Inhibitors of Tyrosinase: Synthesis, Inhibitory Studies, and Molecular Docking.

Author

Hałdys K, Goldeman W, Anger-Góra N, Rossowska J, and Latajka R

Abstract

A set of 12 monosubstituted acetophenone thiosemicarbazone derivatives (TSCs) were synthesized and their inhibitory properties toward tyrosinase activity were tested. Moreover, their ability to inhibit melanogenesis in the B16F10 murine melanoma cell line was studied. In order to investigate the nature of interactions between the enzyme and the inhibitors, molecular docking to the active site was performed. TSCs 5, 6, 8, and 9 revealed a half maximal inhibitory concentration (IC 50 ) below 1 µM. Compound 6 turned out to be the most potent tyrosinase inhibitor. All investigated compounds showed reversible inhibition of competitive or mixed type. The para -substituted TSCs had higher affinity for the enzyme as compared to their ortho - and meta -analogues. All investigated compounds inhibited melanin production in B16F10 cells at the micromolar level. Molecular docking showed that the sulfur atom of the thiourea moiety penetrates the active site and interacts with copper ions. The above outcomes might be helpful in the design of new tyrosinase inhibitors in the food and cosmetic industries.

Published
2021
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29. Cepharanthine induces ROS stress in glioma and neuronal cells via modulation of VDAC permeability.

Author

Cierluk K, Szlasa W, Rossowska J, Tarek M, Szewczyk A, Saczko J, and Kulbacka J

Abstract

Cepharanthine (CEP) is a bisbenzylisoquinoline alkaloid. Molecular dynamics studies show that CEP interacts with Voltage-dependent anion channel (VDAC), inducing the voltage-independent channel narrowing. In the new conformation, transport between mitochondria and cytoplasm is altered, which leads to the dose-dependent cytotoxicity. The biological effects of the interaction were investigated on glioblastoma multiforme (SNB-19) and neuronal (PC-12 + NGF) cell lines. The cytotoxic potential of cepharanthine was determined by MTT assay and flow cytometry apoptosis/necrosis studies. T-type calcium channel and VDAC were labelled by the immunocytochemical method. Additionally, fluorescent labelling of reactive oxygen species and mitochondria was performed. Changes in the pore size of VDAC were calculated as well. Molecular dynamics simulations were carried out to examine the interactions of cepharanthine with VDAC. The obtained results prove that cepharanthine enhances the apoptosis in glioma and neuronal cells by the release of reactive oxygen species. Cepharanthine alters the mitochondria-to-cytoplasm transport and thus induces the cytotoxicity with no selectivity., Competing Interests: The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (© 2020 The Author(s).)

Published
2020
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30. Protein Disulphide Isomerase A1 Is Involved in the Regulation of Breast Cancer Cell Adhesion and Transmigration via Lung Microvascular Endothelial Cells.

Author

Stojak M, Milczarek M, Kurpinska A, Suraj-Prazmowska J, Kaczara P, Wojnar-Lason K, Banach J, Stachowicz-Suhs M, Rossowska J, Kalviņš I, Wietrzyk J, and Chlopicki S

Abstract

Cancer cell cross-talk with the host endothelium plays a crucial role in metastasis, but the underlying mechanisms are still not fully understood. We studied the involvement of protein disulphide isomerase A1 (PDIA1) in human breast cancer cell (MCF-7 and MDA-MB-231) adhesion and transendothelial migration. For comparison, the role of PDIA1 in proliferation, migration, cell cycle and apoptosis was also assessed. Pharmacological inhibitor, bepristat 2a and PDIA1 silencing were used to inhibit PDIA1. Inhibition of PDIA1 by bepristat 2a markedly decreased the adhesion of breast cancer cells to collagen type I, fibronectin and human lung microvascular endothelial cells. Transendothelial migration of breast cancer cells across the endothelial monolayer was also inhibited by bepristat 2a, an effect not associated with changes in ICAM-1 expression or changes in cellular bioenergetics. The silencing of PDIA1 produced less pronounced anti-adhesive effects. However, inhibiting extracellular free thiols by non-penetrating blocker p-chloromercuribenzene sulphonate substantially inhibited adhesion. Using a proteomic approach, we identified that β1 and α2 integrins were the most abundant among all integrins in breast cancer cells as well as in lung microvascular endothelial cells, suggesting that integrins could represent a target for PDIA1. In conclusion, extracellular PDIA1 plays a major role in regulating the adhesion of cancer cells and their transendothelial migration, in addition to regulating cell cycle and caspase 3/7 activation by intracellular PDIA1. PDIA1-dependent regulation of cancer-endothelial cell interactions involves disulphide exchange and most likely integrin activation but is not mediated by the regulation of ICAM-1 expression or changes in cellular bioenergetics in breast cancer or endothelial cells.

Published
2020
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31. 3PO as a Selective Inhibitor of 6-Phosphofructo-2-Kinase/Fructose-2,6-Biphosphatase 3 in A375 Human Melanoma Cells.

Author

Kotowski K, Supplitt S, Wiczew D, Przystupski D, Bartosik W, Saczko J, Rossowska J, Drąg-Zalesińska M, Michel O, and Kulbacka J

Subjects
Apoptosis drug effects, Caspase 3 metabolism, Caspase 8 metabolism, Catalytic Domain, Cell Cycle Checkpoints drug effects, Cell Line, Tumor, Enzyme Inhibitors chemistry, Glucose metabolism, Humans, Melanoma pathology, Molecular Docking Simulation, Molecular Targeted Therapy, Phosphofructokinase-2 metabolism, Pyridines chemistry, Tumor Stem Cell Assay, Enzyme Inhibitors pharmacology, Melanoma enzymology, Phosphofructokinase-2 antagonists & inhibitors, Pyridines pharmacology
Abstract

Background/aim: The occurrence of BRAF V600E mutation causes an up-regulation of the B-raf kinase activity leading to the stabilization of hypoxia-inducible factor 1-alpha (HIF-1α) - the promoter of the 6-phosphofructo-2-kinase/fructose-2,6-biphosphatase 3 (PFKFB3) enzyme. The aim of the study was to examine the effect of the (2E)-3-(3-Pyridinyl)-1-(4-pyridinyl)-2-propen-1-one (3PO), as an inhibitor of PFKFB3, on human melanoma cells (A375) with endogenous BRAF V600E mutation., Materials and Methods: A375 cells were exposed to different concentrations of 3PO and the following tests were performed: docking, cytotoxicity assay, immunocytochemistry staining glucose uptake, clonogenic assay, holotomography imaging, and flow cytometry., Results: Our studies revealed that 3PO presents a dose-dependent and time-independent cytotoxic effect and promotes apoptosis of A375 cells. Furthermore, the obtained data indicate that 3PO induces cell cycle arrest in G1/0 and glucose uptake reduction., Conclusion: Taking all together, our research demonstrated a here should be proapoptotic and antiproliferative effect of 3PO on A375 human melanoma cells., (Copyright© 2020, International Institute of Anticancer Research (Dr. George J. Delinasios), All rights reserved.)

Published
2020
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32. De‑O‑acylated lipooligosaccharide of E. coli B reduces the number of metastatic foci via downregulation of myeloid cell activity.

Author

Mierzejewska J, Szczygieł A, Anger-Góra N, Rossowska J, Jarosz J, Wietrzyk J, Kaszowska M, Maciejewska A, Jachymek W, Niedziela T, Lukasiewicz J, Lugowski C, Boratyński J, and Pajtasz-Piasecka E

Subjects
Animals, Cell Line, Tumor, Escherichia coli Proteins administration & dosage, Escherichia coli Proteins pharmacology, Female, Humans, Injections, Intravenous, Lipid A chemistry, Lipid A pharmacology, Lung Neoplasms immunology, Melanoma, Experimental immunology, Mice, RAW 264.7 Cells, Tumor Escape drug effects, Xenograft Model Antitumor Assays, Escherichia coli metabolism, Lipid A administration & dosage, Lung Neoplasms drug therapy, Lung Neoplasms secondary, Melanoma, Experimental drug therapy
Abstract

Lipopolysaccharides are the main surface antigens and virulence factors of gram‑negative bacteria. Removal of four ester‑bound fatty acid residues from hexaacyl lipid A of Escherichia coli lipooligosaccharide (LOS) resulted in the de‑O‑acylated derivative E. coli LOS‑OH (LOS‑OH). This procedure caused a significant reduction in the toxicity of this compound compared to the native molecule. We investigated the effect of such a structural LOS modification on its biological activity using in vitro assays with monocytic cells of the RAW264.7 line, dendritic cells of the JAWS II line, bone marrow‑derived dendritic cells (BM‑DCs), and spleen cells. Furthermore, in in vivo experiments with a melanoma B16 metastasis model, the anti‑metastatic activity of the compounds and spleen cell reactivity mediated by them representing a systemic response were analyzed. The results revealed that LOS‑OH demonstrated weaker ability than LOS to stimulate and polarize an immune response both in vitro and in vivo. It induced lower cytokine production by cells of myeloid lines. Multiple applications of LOS‑OH into mice injected intravenously with B16 cells significantly (P<0.05; P<0.01) reduced the number of metastatic foci in the lungs, presumably via silencing of myeloid cell reactivity as well as the inability to stimulate lymphoid cells both directly and indirectly. These findings suggest that LOS‑OH maintained in the body of metastasis‑bearing mice appears to modulate or downregulate the innate response, leading to the inability of blood myeloid cells to support the migration of melanoma cells to lung tissue.

Published
2020
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33. Halogenated aromatic thiosemicarbazones as potent inhibitors of tyrosinase and melanogenesis.

Author

Hałdys K, Goldeman W, Jewgiński M, Wolińska E, Anger-Góra N, Rossowska J, and Latajka R

Subjects
Enzyme Inhibitors pharmacology, Humans, Melanins biosynthesis, Molecular Structure, Structure-Activity Relationship, Thiosemicarbazones pharmacology, Enzyme Inhibitors therapeutic use, Melanins antagonists & inhibitors, Molecular Docking Simulation methods, Monophenol Monooxygenase drug effects, Thiosemicarbazones therapeutic use
Abstract

A set of 21 halogenated thiosemicarbazones (TSCs) have been synthesized and its inhibitory properties toward activity diphenolase of mushroom tyrosinase and their ability to inhibition of melanogenesis in B16F10 murine, melanoma cell line have been investigated. The molecular docking to the active site of the enzyme has been also performed to investigate the nature of enzyme-inhibitor interactions. The obtained outcomes allowed us to perform SAR analysis. TSC 6, 12 and 21 exhibited the most potent inhibitory properties showing IC 50 of 0.5, 0.9 and 0.8 µM, respectively. They revealed reversible and competitive manner of tyrosinase inhibition. According to SAR analysis, para-substituted acetophenone derivatives of thiosemicarbazones have the highest affinity to the enzyme among the investigated compounds. Melanin production in B16F10 cells was inhibited by all investigated compounds at the micromolar level. Suggested inhibition mechanism is based on the interaction between a sulfur atom of thiourea moiety of the thiosemicarbazones, and copper ions in the active site of the enzyme. These results might be useful in searching novel inhibitors of melanogenesis which could be used in the cosmetic and food industry., (Copyright © 2019 Elsevier Inc. All rights reserved.)

Published
2020
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34. Effects of Photosensitization of Curcumin in Human Glioblastoma Multiforme Cells.

Author

Kielbik A, Wawryka P, Przystupski D, Rossowska J, Szewczyk A, Saczko J, Kulbacka J, and Chwiłkowska A

Subjects
Antineoplastic Agents pharmacology, Apoptosis drug effects, Cell Line, Tumor, Glioma drug therapy, Humans, Male, Middle Aged, Mitochondria drug effects, Photochemotherapy methods, Brain Neoplasms drug therapy, Curcumin pharmacology, Glioblastoma drug therapy, Photosensitizing Agents pharmacology
Abstract

Background/aim: There is no satisfactory treatment of glioblastoma multiforme, a highly invasive brain tumor. The aim of this study was to analyze the cytotoxic effects of curcumin (CUR) alone and as a photosensitizer on glioblastoma cells., Materials and Methods: The SNB-19 cells where incubated for 2 and 24 h with 5-200 mM of CUR. The cells were radiated with blue light (6 J/cm 2 ) and compared to non-irradiated ones. The effects of treatment were assessed by measuring mitochondrial activity with the MTT method and apoptosis progression by flow cytometry. To investigate CUR uptake, fluorescence imaging of cells was performed., Results: Photosensitization of CUR decreased the EC 50 6.3 times when the incubation time was 2 h and over 90% of cells underwent apoptosis. The study of the uptake of CUR showed that during the 2 h, CUR was placed in the entire cytoplasm, and over time, its amount decreased and localized in the subcellular compartments., Conclusion: CUR is a promising medicament that can be used as a photosensitizer in photodynamic therapy for glioma treatment., (Copyright© 2019, International Institute of Anticancer Research (Dr. George J. Delinasios), All rights reserved.)

Published
2019
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35. The Cytoprotective Role of Antioxidants in Mammalian Cells Under Rapidly Varying UV Conditions During Stratospheric Balloon Campaign.

Author

Przystupski D, Górska A, Rozborska P, Bartosik W, Michel O, Rossowska J, Szewczyk A, Drąg-Zalesińska M, Kasperkiewicz P, Górski J, and Kulbacka J

Abstract

The current age of dynamic development of the space industry brings the mankind closer to routine manned space flights and space tourism. This progress leads to a demand for intensive astrobiological research aimed at improving strategies of the pharmacological protection of the human cells against extreme conditions. Although routine research in space remains out of our reach, it is worth noticing that the unique severe environment of the Earth's stratosphere has been found to mimic subcosmic conditions, giving rise to the opportunity to use the stratospheric surface as a research model for the astrobiological studies. Our study included launching into the stratosphere a balloon containing mammalian normal and cancer cells treated with various compounds to examine whether these substances are capable of protecting the cells against stress caused by rapidly varying temperature, pressure, and radiation, especially UV. Owing to oxidative stress caused by irradiation and temperature shock, we used natural compounds which display antioxidant properties, namely, catechin isolated from green tea, honokiol derived from magnolia, curcumin from turmeric, and cinnamon extract. "After-flight" laboratory tests have shown the most active antioxidants as potential agents which can minimize harmful impact of extreme conditions on human cells.

Published
2019
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36. Tacalcitol increases the sensitivity of colorectal cancer cells to 5-fluorouracil by downregulating the thymidylate synthase.

Author

Milczarek M, Rossowska J, Klopotowska D, Stachowicz M, Kutner A, and Wietrzyk J

Subjects
Colorectal Neoplasms genetics, Down-Regulation drug effects, Drug Resistance, Neoplasm drug effects, Drug Synergism, HT29 Cells, Humans, Antimetabolites, Antineoplastic pharmacology, Colorectal Neoplasms drug therapy, Dihydroxycholecalciferols pharmacology, Fluorouracil pharmacology, Thymidylate Synthase genetics
Abstract

5-Fluorouracil (5-FU) is an anticancer drug that is most frequently used to treat colorectal cancer (CRC) patients, but unfortunately it shows limited efficacy. We recently demonstrated that vitamin D analogs (VDAs), particularly tacalcitol (coded as PRI-2191), potentiate its anticancer activity in an in vivo mouse and human CRC model. The purpose of this study was to explain the mechanism underlying the enhancement of 5-FU efficacy by PRI-2191 towards human HT-29 CRC cells. We showed that PRI-2191 induces the CDKN1A (gene encoding p21 Waf1/Cip1 ) expression directly through vitamin D receptor (VDR) in a p53-independent manner and thus decreases the thymidylate synthase expression both at the mRNA and protein level. It is the main mechanism by which PRI-2191 improves the anticancer efficacy of 5-FU towards HT-29 cells. Additionally, we indicated that the VDR also participates in 5-FU mechanism of action. 5-FU significantly increased TYMS (gene encoding thymidylate synthase (TS)) and BIRC5 (gene encoding survivin) level in HT-29 cells with silenced VDR. Furthermore, PRI-2191 induced E-cadherin and ZO-1 expression and thus reduced the level of BIRC5 in HT-29 cells. The induction of E-cadherin expression may also contribute to the reduction of c-Myc level and consequently the downregulation of TS. Our results also indicate that calcium-sensing receptor (CaSR) plays a role in the activity of PRI-2191 but has no influence on the 5-FU mechanism of action. In conclusion, we suggest that both VDR and CaSR might be useful as molecular markers for predicting treatment outcomes and identifying the CRC patient subgroups who might benefit from 5-FU-based chemotherapy combined with vitamin D analog., (Copyright © 2019 The Authors. Published by Elsevier Ltd.. All rights reserved.)

Published
2019
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37. Antitumor Potential of Extracellular Vesicles Released by Genetically Modified Murine Colon Carcinoma Cells With Overexpression of Interleukin-12 and shRNA for TGF-β1.

Author

Rossowska J, Anger N, Wegierek K, Szczygieł A, Mierzejewska J, Milczarek M, Szermer-Olearnik B, and Pajtasz-Piasecka E

Subjects
Animals, Cell Line, Tumor, Dendritic Cells immunology, Dendritic Cells metabolism, Disease Models, Animal, Extracellular Vesicles ultrastructure, Female, Gene Silencing, Lymphocytes, Tumor-Infiltrating immunology, Lymphocytes, Tumor-Infiltrating metabolism, Lymphocytes, Tumor-Infiltrating pathology, Mice, Neoplasms immunology, Neoplasms pathology, RNA Interference, Transforming Growth Factor beta1 metabolism, Extracellular Vesicles metabolism, Gene Expression, Interleukin-12 genetics, Neoplasms genetics, Neoplasms metabolism, RNA, Small Interfering genetics, Transforming Growth Factor beta1 genetics
Abstract

Recent developments demonstrate that tumor-derived extracellular vesicles (EVs) could become a highly effective tool for delivery of antitumor factors. The main objective of the study was to determine whether EVs secreted by MC38 colon carcinoma cells genetically engineered for overproduction of interleukin (IL-)12 and/or shRNA targeting TGF-β1 are effectively loaded with these molecules and whether the obtained EVs could be an efficient tool for antitumor therapy. Fractions of EVs released by genetically modified MC38 cells [both modified tumor-derived exosomes (mTEx) and modified microvesicles (mTMv)] and those released by unmodified, wild-type MC38 cells were characterized in terms of loading efficacy, using real-time PCR and ELISA, as well as their antitumor potential. In order to examine the therapeutic potential of mTEx, they were applied in the form of sole treatment as well as in combination with dendritic cell (DC)-based vaccines stimulated with mTMv in the therapy of mice with subcutaneously growing MC38 tumors. The results demonstrated that genetic modification of wild-type MC38 tumor cells is an effective method of loading the molecules of interest into extracellular vesicles secreted by the cells (both TEx and TMv). The results also showed that mTEx secreted by cells engineered for overproduction of IL-12 and/or shRNA for TGF-β1 are able to induce tumor growth inhibition as opposed to TEx from unmodified MC38 cells. Additionally, antitumor therapy composed of mTEx (especially those deprived of TGF-β1) and DC-based vaccines allowed for regeneration of antitumor immunity and induction of the systemic Th1 response responsible for the sustained effect of the therapy. In conclusion, tumor-derived exosomes loaded with IL-12 and/or deprived of TGF-β1 could become an efficient adjuvant supporting induction of a specific antitumor response in both immuno- and chemotherapeutic schemes of treatment.

Published
2019
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38. Biological effects in photodynamic treatment combined with electropermeabilization in wild and drug resistant breast cancer cells.

Author

Weżgowiec J, Kulbacka J, Saczko J, Rossowska J, Chodaczek G, and Kotulska M

Subjects
Breast Neoplasms metabolism, Breast Neoplasms pathology, Carbocyanines administration & dosage, Carbocyanines pharmacokinetics, Cell Line, Tumor, Cell Membrane Permeability, Cell Survival drug effects, Dihematoporphyrin Ether administration & dosage, Dihematoporphyrin Ether pharmacokinetics, Drug Resistance, Neoplasm, Female, Humans, MCF-7 Cells, Photosensitizing Agents administration & dosage, Photosensitizing Agents pharmacokinetics, Breast Neoplasms drug therapy, Carbocyanines pharmacology, Dihematoporphyrin Ether pharmacology, Electrochemotherapy methods, Photosensitizing Agents pharmacology
Abstract

Electrochemotherapy became one of the therapeutic protocols successfully used in oncology. However, biological effects occurring in cells, especially those which are drug resistant, have not been studied thoroughly. This study presents response of wild and drug resistant breast cancer cells to classical photodynamic therapy with Photofrin or experimental photodynamic therapy with cyanine IR-775, combined with electroporation. Photodynamic reaction or electroporation alone had no cytotoxic effect, but their combination significantly disturbed cellular functions. Applying electroporation allowed the drugs to increase its accumulation, especially for a poorly permeant cyanine in drug resistant cells. FACS analysis showed that even at relatively mild electric field, ca. 90% of cells were permeabilized. High intracellular concentration of drugs triggered the cellular defense system through increased expression of glutathione S-transferase and multidrug resistance proteins (MDR1 and MRP7), particularly in drug resistant cells. Finally, expressively decreased cell metabolism and proliferation, as well as formation of apoptotic bodies and fragmentation of cells were observed after the combined treatment. The results show that electroporation can be used for effective delivery of photosensitizers, even to drug resistant breast cancer cells, which was not tested before. This shows that electro-photodynamic treatment could be a promising approach to overcome a problem of drug resistance in cancer cells., (Copyright © 2018 Elsevier B.V. All rights reserved.)

Published
2018
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39. Reprogramming the murine colon cancer microenvironment using lentivectors encoding shRNA against IL-10 as a component of a potent DC-based chemoimmunotherapy.

Author

Rossowska J, Anger N, Szczygieł A, Mierzejewska J, and Pajtasz-Piasecka E

Subjects
Animals, Antigens, Neoplasm immunology, Cancer Vaccines, Colonic Neoplasms drug therapy, Colonic Neoplasms immunology, Cytokines metabolism, Dendritic Cells immunology, Disease Models, Animal, Female, Gene Order, Gene Silencing, Genetic Vectors genetics, Humans, Immunotherapy, Lentivirus genetics, Mice, Transduction, Genetic, Tumor Microenvironment immunology, Xenograft Model Antitumor Assays, Colonic Neoplasms genetics, Colonic Neoplasms pathology, Dendritic Cells metabolism, Interleukin-10 genetics, RNA, Small Interfering genetics, Tumor Microenvironment genetics
Abstract

Background: The excessive amounts of immunosuppressive factors present in a tumor microenvironment (TME) reduce the effectiveness of cancer vaccines. The main objective of our research was to improve the effectiveness of dendritic cell (DC)-based immunotherapy or chemoimmunotherapy composed of cyclophosphamide (CY) and DCs by application of lentivectors encoding shRNA specific to IL-10 (shIL10 LVs) in murine colon carcinoma MC38 model., Methods: The efficacy of shIL10 LVs in silencing of IL-10 expression was measured both in vitro and in vivo using Real-Time PCR and ELISA assays. In addition, the influence of intratumorally inoculated lentivectors on MC38 tumor microenvironment was examined using flow cytometry method. The effect of applied therapeutic schemes was determined by measurement of tumor growth inhibition and activation state of local and systemic immune response., Results: We observed that intratumorally inoculated shIL10 LVs transduced tumor and TME-infiltrating cells and reduced the secretion of IL-10. Application of shIL10 LVs for three consecutive weeks initiated tumor growth inhibition, whereas treatment with shIL10 LVs and BMDC/TAg did not enhance the antitumor effect. However, when pretreatment with CY was introduced to the proposed scheme, we noticed high MC38 tumor growth inhibition accompanied by reduction of MDSCs and Tregs in TME, as well as activation of potent local and systemic Th1-type antitumor response., Conclusions: The obtained data shows that remodeling of TME by shIL10 LVs and CY enhances DC activity and supports them during regeneration and actuation of a potent antitumor response. Therefore, therapeutic strategies aimed at local IL-10 elimination using lentiviral vectors should be further investigated in context of combined chemoimmunotherapies.

Published
2018
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40. Electroporation with Cisplatin against Metastatic Pancreatic Cancer: In Vitro Study on Human Primary Cell Culture.

Author

Michel O, Kulbacka J, Saczko J, Mączyńska J, Błasiak P, Rossowska J, and Rzechonek A

Subjects
Adenocarcinoma drug therapy, Adenocarcinoma therapy, Carcinoma, Pancreatic Ductal drug therapy, Carcinoma, Pancreatic Ductal therapy, Cell Line, Tumor, Cell Survival drug effects, Daunorubicin pharmacology, Electrochemotherapy methods, Electroporation methods, Humans, Primary Cell Culture methods, Antineoplastic Agents pharmacology, Cisplatin pharmacology, Pancreatic Neoplasms drug therapy, Pancreatic Neoplasms therapy
Abstract

Despite the rapid progression of cancer pharmacotherapy, the high drug resistance of pancreatic ductal adenocarcinoma (PDA) makes it one of the most lethal malignancies. Therefore, there are high expectations associated with experimental therapies, such as electrochemotherapy (ECT). This technique involves the application of short electric pulses to induce transitional permeabilization of the cellular membrane, thus enhancing drug molecules influx. The aim of the study was to investigate the influence of electroporation with cisplatin (CisEP) on the primary culture of human PDA cells from lung metastases-their survival and stress response. Considering the growing importance of various research models, two established human PDA cell lines, EPP85-181P (sensitive to daunorubicin) and EPP85-181RDB (resistant to daunorubicin), were utilized as a reference control. Cisplatin revealed higher cytotoxicity towards established cell lines. Following CisEP application, we observed a significant decrease of cells viability in the primary culture model. After CisEP therapy, an increased immunoreactivity with SOD-2 and Casp-3 antibodies was noticed. In conclusion, we discovered that electroporation can enhance the cytotoxic effect of cisplatin in pancreatic cancer cells in vitro . This effect was evident for cells from the primary culture. The obtained results confirm the importance of primary cells models in studies on the efficacy of experimental cancer therapies.

Published
2018
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41. The role of immune cell subpopulations in the growth and rejection of TC-1/A9 tumors in novel mouse strains differing in the H2-D haplotype and NKC domain.

Author

Indrová M, Rossowska J, Pajtasz-Piasecka E, Mikyšková R, Richter J, Rosina J, Sedlacek R, and Fišerová A

Abstract

The present study aimed to elucidate the role of cluster of differentiation (CD)8+, CD4+, natural killer (NK), and myeloid (CD11b+) cells in the course of the growth and rejection of experimental major histocompatibility complex (MHC) class I-deficient, HPV16 E6/E7-associated TC-1/A9 tumors in mice. Stable mouse lines (F 30 ) generated by inbreeding of Balb/c and C57BL/6 strains, which were characterized by H-2Db+d-NK1.1neg (B6-neg) and H-2Db-d+NK1.1high (Balb-high) phenotypes, were used for the present study. The novel strains spontaneously regressed tumors in 70-90% of cases. Ex vivo histological analysis of the tumor microenvironment in cryosections showed an indirect correlation between the growth of the transplanted tumor (progressor vs. regressor mice) and the proportion of immunocompetent cell infiltration in the tumors. The regressor mice exhibited a higher infiltration of tumors with CD4+ and CD8+ cells, and in Balb-high with NK cells as well, compared with the progressors. All tumor transplants also indicated a huge infiltration of CD11b+ cells, but this infiltration was not dependent on the stage of the TC-1/A9 tumor development. Depletion of individual cell subpopulations in vivo exhibited different effects on the tumor development in the two strains. Elimination of CD8-positive cells enhanced growth of TC-1/A9 tumor transplants in both hybrid stains, whereas CD4+ cell depletion affected rejection of TC-1/A9 tumors in the B6-neg mice only. Depletion of NK cells with anti-asialo GM1 antibody in the Balb-high strain led to enhancement of tumor growth, which was more pronounced after depletion of the NK1.1+ subpopulation. On the other hand, depletion of NK cells with anti-asialo GM1 in B6-neg mice did not affect the regression of TC-1/A9 tumor transplants, but increased the CD11b+ cell infiltration. In summary, these results indicate that co-operation of particular subsets of immunocompetent cells is essential for the rejection of TC-1/A9 tumor transplants. In B6-neg mice, the co-operative action of CD8+ and CD4+ cells is required, whereas in Balb-high mice, the synergy of CD8+ and NK1.1+ cells is of major importance.

Published
2018
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42. The favourable effect of catechin in electrochemotherapy in human pancreatic cancer cells.

Author

Michel O, Przystupski D, Saczko J, Szewczyk A, Niedzielska N, Rossowska J, and Kulbacka J

Subjects
Antioxidants pharmacology, Catechin pharmacology, Cell Line, Tumor, Cisplatin toxicity, Drug Interactions, Electroporation methods, Humans, Oxidative Stress drug effects, Pancreatic Neoplasms drug therapy, Catechin therapeutic use, Electrochemotherapy methods, Pancreatic Neoplasms pathology
Abstract

Until recently, green tea polyphenols were considered strong antioxidants. However, the latest reports have revealed that bioflavonoids can play a multiple role in anticancer therapy, including the inhibition of cell proliferation and generation of the oxidative stress in a dose-dependent manner. The presented research was designed to examine the potential of the green tea (±)-catechin as a reinforcement of the electrochemotherapy (ECT) with cisplatin in pancreatic cancer in vitro. The study was performed on two cell lines of the pancreatic ductal adenocarcinoma (PDA) - parental EPP85-181P and multidrug-resistant EPP85-181RNOV. Prior to the ECT protocol the cells were preincubated with high or low concentration of catechin for 2 or 24 hours, respectively. We assessed the influence of preincubation on the cisplatin toxicity with and without electroporation (EP), the electrosensitivity of PDA cell lines and the uptake of the daunorubicin and propidium iodide. Additionally, we evaluated the antioxidative properties of catechin by the measurement of the ROS-related fluorescence and the immunoreactivity of the oxidative stress-related enzymes superoxide dismutase (SOD2) and glutathione S-transferase (GST). We found that co-treatment with catechin can firmly enhance the efficacy of electroporation with cisplatin in vitro. More favorable effect was obtained for 2-hour incubation, which indicates the involvement of the transcriptional-independent mechanisms of catechin action. The effect may be partially explained by the increased oxidative stress level, which was higher in multidrug-resistant cells. However, further studies on cisplatin-catechin interplay and the thorough examination of the catechin-cell membrane interaction need to be performed.

Published
2018
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43. MRP1 protein expression in leukemic stem cells as a negative prognostic marker in acute myeloid leukemia patients.

Author

Paprocka M, Bielawska-Pohl A, Rossowska J, Krawczenko A, Duś D, Kiełbiński M, Haus O, Podolak-Dawidziak M, and Kuliczkowski K

Subjects
Adult, Aged, Aged, 80 and over, Antineoplastic Combined Chemotherapy Protocols adverse effects, Antineoplastic Combined Chemotherapy Protocols therapeutic use, Bone Marrow Cells metabolism, Bone Marrow Cells pathology, Female, Flow Cytometry, Gene Expression, Humans, Immunophenotyping, Leukemia, Myeloid, Acute drug therapy, Leukemia, Myeloid, Acute genetics, Male, Middle Aged, Multidrug Resistance-Associated Proteins genetics, Neoplastic Stem Cells pathology, Prognosis, Treatment Outcome, Biomarkers, Tumor, Leukemia, Myeloid, Acute metabolism, Leukemia, Myeloid, Acute mortality, Multidrug Resistance-Associated Proteins metabolism, Neoplastic Stem Cells metabolism
Abstract

Background: It is well established that expression of multi-drug resistance (MDR) proteins (MDR1, BCRP, MDR3, MRP1, and LRP) in leukemic blasts correlates with acute myeloid leukemia (AML) patients' clinical response. Assuming that leukemic stem cells (LSC) are resistant to chemotherapy and responsible for relapse, it might be clinically relevant to evaluate the expression level of MDR proteins in LSC and relate it to the clinical outcome., Methods: Bone marrow samples from 26 patients with de novo AML were labeled with antibodies to distinguish CD34+CD38-CD123+ LSC population and with antibodies against MDR1, BCRP, MDR3, MRP1, or LRP proteins. Multicolor flow cytometry was applied to evaluate the expression of MDR proteins in blasts and LSC., Results: Nine of 26 patients with AML attained CR (30%). High negative correlation was found between MDR1 and LRP expression in blasts and the patient's remission. MDR proteins were expressed more frequently in LSC than in leukemic blasts. High negative correlation was also observed between remission achievement and MRP1 expression in LSC., Conclusions: Our data present for the very first time the high negative correlation between MRP1 protein expression in LSC and AML patients' remission. It does strongly suggest that MRP1 expression in LSC is an adverse prognostic marker in patients with de novo AML., (© 2017 John Wiley & Sons A/S. Published by John Wiley & Sons Ltd.)

Published
2017
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44. Immunological landscape of consensus clusters in colorectal cancer.

Author

Karpinski P, Rossowska J, and Sasiadek MM

Abstract

Recent, large-scale expression-based subtyping has advanced our understanding of the genomic landscape of colorectal cancer (CRC) and resulted in a consensus molecular classification that enables the categorization of most CRC tumors into one of four consensus molecular subtypes (CMS). Currently, major progress in characterization of immune landscape of tumor-associated microenvironment has been made especially with respect to microsatellite status of CRCs. While these studies profoundly improved the understanding of molecular and immunological profile of CRCs heterogeneity less is known about repertoire of the tumor infiltrating immune cells of each CMS. In order to comprehensively characterize the immune landscape of CRC we re-analyzed a total of 15 CRC genome-wide expression data sets encompassing 1597 tumors and 125 normal adjacent colon tissues. After quality filtering, CRC clusters were discovered using a combination of multiple clustering algorithms and multiple validity metrics. CIBERSORT algorithm was used to compute relative proportions of 22 human leukocyte subpopulations across CRC clusters and normal colon tissue. Subsequently, differential expression specific to tumor epithelial cells was calculated to characterize mechanisms of tumor escape from immune surveillance occurring in particular CRC clusters. Our results not only characterize the common and cluster-specific influx of immune cells into CRCs but also identify several deregulated gene targets that may contribute to improvement of immunotherapeutic strategies in CRC., Competing Interests: CONFLICTS OF INTEREST The authors declare no conflicts of interest.

Published
2017
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45. Intratumoral Lentivector-Mediated TGF-β1 Gene Downregulation As a Potent Strategy for Enhancing the Antitumor Effect of Therapy Composed of Cyclophosphamide and Dendritic Cells.

Author

Rossowska J, Anger N, Szczygieł A, Mierzejewska J, and Pajtasz-Piasecka E

Abstract

Vaccination with dendritic cells (DCs) stimulated with tumor antigens can induce specific cellular immune response that recognizes a high spectrum of tumor antigens. However, the ability of cancer cells to produce immunosuppressive factors drastically decreases the antitumor activity of DCs. The main purpose of the study was to improve the effectiveness of DC-based immunotherapy or chemoimmunotherapy composed of cyclophosphamide (CY) and DCs by application of lentivectors (LVs)-encoding short hairpin RNA specific for TGF-β1 (shTGFβ1 LVs). We observed that s.c. inoculation of both MC38 cells with silenced expression of TGF-β1 (MC38/shTGF-β1) and direct intratumoral application of shTGFβ1 LVs contributed to reduction of suppressor activity of myeloid cells and Tregs in tumor. Contrary to expectations, in mice bearing wild tumor, the application of shTGFβ1 LVs prior to vaccination with bone marrow-derived DC stimulated with tumor antigens (BMDC/TAg) did not influence myeloid-derived suppressor cell (MDSC) infiltration into tumor. As a result, we observed only minor MC38 tumor growth inhibition (TGI) accompanied by systemic antitumor response activation comparable to that obtained for negative control (shN). However, when the proposed scheme was complemented by pretreatment with a low dose of CY, we noticed high MC38 TGI together with decreased number of MDSCs in tumor and induction of Th1-type response. Moreover, in both schemes of treatment, LVs (shTGFβ1 as well as shN) induced high influx of CTLs into tumor associated probably with the viral antigen introduction into tumor microenvironment. Concluding, the application of shTGFβ1 LVs alone or in combination with DC-based vaccines is not sufficient for long-lasting elimination of suppression in tumor. However, simultaneous reduction of TGF-β1 in tumor microenvironment and its remodeling by pretreatment with a low dose of CY facilitates the settlement of peritumorally inoculated DCs and supports them in restoration and activation of a potent antitumor response.

Published
2017
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46. Polyelectrolyte Oil-Core Nanocarriers for Localized and Sustained Delivery of Daunorubicin to Colon Carcinoma MC38 Cells: The Case of Polysaccharide Multilayer Film in Relation to PEG-ylated Shell.

Author

Bazylińska U, Pietkiewicz J, Rossowska J, Chodaczek G, Gamian A, and Wilk KA

Subjects
Animals, Apoptosis drug effects, Biocompatible Materials, Cell Line, Cell Line, Tumor, Erythrocytes drug effects, Hemolysis drug effects, Mice, Microscopy, Atomic Force, Microscopy, Electron, Scanning, Antibiotics, Antineoplastic administration & dosage, Colonic Neoplasms pathology, Daunorubicin administration & dosage, Drug Carriers, Nanoparticles, Polyelectrolytes chemistry, Polyethylene Glycols chemistry, Polysaccharides chemistry
Abstract

The authors examine properties of daunorubicin (DNR)-loaded oil-core multilayer nanocapsules prepared via layer-by-layer approach with different polyelectrolyte (PE) coatings such as a standard one (containing polysodium 4-styrenesulphonate/poly(diallyldimethyl-ammonium) chloride) and a polysaccharide-based shell (dextran/chitosan), in regard to the outer layer of poly-l-glutamic acid (PGA) grafted with polyethylene glycol (PGA-g-PEG). The nanocarriers are obtained on a cationic nanoemulsion template (stabilized by dicephalic-type surfactant, N,N-bis[3,30-(trimethylammonio)propyl]-dodecanamide dimethylsulfate) and layered with the PE shell of different thicknesses resulting in average size of 150 nm in diameter (as shown by dynamic light scattering, scanning electron microscopy and cryogenic-transmission electron microscopy, and atomic force microscopy). The nanocapsules demonstrate efficient DNR encapsulation and its sustained release under physiological conditions or in the attendance of human serum albumin. The biocompatibility studies using colon carcinoma MC38 and macrophage P388D1 cell lines as well as human erythrocytes reveal that surface charge and outer PE layer type determine nanocarrier features that control their biological activity: protein adsorption, cellular internalization and localization, induction of apoptosis, and hemolytic activity. The investigations indicate that polysaccharide-coated nanocapsules present a considerable potential for application as efficient DNR delivery systems in chemotherapy of colon cancer as an alternative to nanocarriers with PEG-ylated shell., (© 2017 WILEY-VCH Verlag GmbH & Co. KGaA, Weinheim.)

Published
2017
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47. Differentiated all-trans retinoic acid response of naive CD4+CD25- cells isolated from rats with collagen-induced arthritis and healthy ones under in vitro conditions.

Author

Felcenloben I, Żyromska E, Piasecki T, Rossowska J, Kędzierska A, Nowak M, Żyromski M, and Chełmońska-Soyta A

Abstract

Aim O the Study: To compare the potential of CD4+CD25- cells, isolated from both healthy rats and rats with CIA (Collagen-Induced Arthritis), for differentiation into regulatory T cells in the presence of all-trans retinoic acid in order to learn more about the activation mechanisms and therapeutic potential of regulatory T cells., Material and Methods: Sorted CD4+CD25- cells were cultured in vitro with/without ATRA, and then the frequency of regulatory T cells and their ability to secrete IL-10 by CD4+ FOXP3+ cells was examined. Gene expression of the foxp3, rarα, rarβ, rxrβ, and ppar β/δ and protein expression of the Rarα, Rarβ, and Rxrβ in cells after stimulation with ATRA were also investigated., Results: CD4+CD25- cells isolated from healthy animals or from animals with CIA are characterised by different potential of the differentiation into CD4+CD25+ FOXP3+ cells. Retinoic acid receptor Rxrβ is present in the CD4+CD25- cells isolated from rats with CIA., Conclusions: We showed that although ATRA did not increase the frequency of Treg in culture, it significantly increased expression of rarβ and rxrβ only in lymphocytes taken from diseased animals and foxp3 expression only in healthy animals. Moreover, after ATRA stimulation, the frequency of Treg-produced IL-10 tended to be lower in diseased animals than in the healthy group. The results imply that the potential of naïve cell CD4 lymphocytes to differentiate into Tregs and their putative suppressive function is dependent on the donor's health status., Competing Interests: The authors declare no conflict of interest.

Published
2017
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48. Cell Membrane Transport Mechanisms: Ion Channels and Electrical Properties of Cell Membranes.

Author

Kulbacka J, Choromańska A, Rossowska J, Weżgowiec J, Saczko J, and Rols MP

Subjects
Electric Conductivity, Ion Channels chemistry, Biological Transport, Cell Membrane physiology, Ion Channels metabolism
Abstract

Cellular life strongly depends on the membrane ability to precisely control exchange of solutes between the internal and external (environmental) compartments. This barrier regulates which types of solutes can enter and leave the cell. Transmembrane transport involves complex mechanisms responsible for passive and active carriage of ions and small- and medium-size molecules. Transport mechanisms existing in the biological membranes highly determine proper cellular functions and contribute to drug transport. The present chapter deals with features and electrical properties of the cell membrane and addresses the questions how the cell membrane accomplishes transport functions and how transmembrane transport can be affected. Since dysfunctions of plasma membrane transporters very often are the cause of human diseases, we also report how specific transport mechanisms can be modulated or inhibited in order to enhance the therapeutic effect.

Published
2017
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49. Structural and immunomodulatory differences among lactobacilli exopolysaccharides isolated from intestines of mice with experimentally induced inflammatory bowel disease.

Author

Górska S, Sandstrőm C, Wojas-Turek J, Rossowska J, Pajtasz-Piasecka E, Brzozowska E, and Gamian A

Subjects
Animals, Biomarkers metabolism, Bone Marrow Cells metabolism, Cell Differentiation, Cytokines biosynthesis, Dendritic Cells metabolism, Flow Cytometry, Humans, Inflammatory Bowel Diseases chemically induced, Inflammatory Bowel Diseases pathology, Magnetic Resonance Spectroscopy, Mice, Inbred C57BL, Immunomodulation, Inflammatory Bowel Diseases microbiology, Intestines microbiology, Lactobacillus metabolism, Polysaccharides, Bacterial chemistry, Polysaccharides, Bacterial isolation & purification
Abstract

Characteristic changes in the microbiota biostructure and a decreased tolerance to intestinal bacteria have been associated with inflammatory bowel disease (IBD). However, few studies have examined the constituents of the intestinal microbiota, including the surface molecules of the bacteria, in healthy and IBD subsets. Here, we compare the chemical structures and immunomodulatory properties of the exopolysaccharides (EPS) of lactobacilli isolated from mice with induced IBD (IBD "+") versus those of healthy mice (IBD "-"). Classical structural analyses were performed using nuclear magnetic resonance spectroscopy and mass spectrometry. Immunomodulatory properties were assessed by stimulation of dendritic cells derived from mouse bone marrow or human peripheral mononuclear blood cells. Our results revealed that EPS produced by IBD "+" species are structurally different from those isolated from IBD "-". Moreover, the structurally different EPS generate different immune responses by dendritic cells. We speculate that resident strains could, upon gut inflammation, switch to producing EPS with specific motifs that are absent from lactobacilli IBD "-", and/or that bacteria with a particular EPS structure might inhabit the inflamed intestinal mucosa. This study may shed light on the role of EPS in IBD and help the development of a specific probiotic therapy for this disease.

Published
2016
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50. The Effect of Millisecond Pulsed Electric Fields (msPEF) on Intracellular Drug Transport with Negatively Charged Large Nanocarriers Made of Solid Lipid Nanoparticles (SLN): In Vitro Study.

Author

Kulbacka J, Pucek A, Wilk KA, Dubińska-Magiera M, Rossowska J, Kulbacki M, and Kotulska M

Subjects
Animals, Biological Transport, Calorimetry, Differential Scanning, Cell Line, Cell Survival, Coumarins administration & dosage, Coumarins chemistry, Coumarins metabolism, Cytoskeleton metabolism, Flow Cytometry, Humans, Microscopy, Fluorescence, Molecular Structure, Particle Size, Thiazoles administration & dosage, Thiazoles chemistry, Thiazoles metabolism, Drug Carriers, Drug Delivery Systems, Electroporation, Lipids chemistry, Nanoparticles chemistry
Abstract

Drug delivery technology is still a dynamically developing field of medicine. The main direction in nanotechnology research (nanocarriers, nanovehicles, etc.) is efficient drug delivery to target cells with simultaneous drug reduction concentration. However, nanotechnology trends in reducing the carrier sizes to several nanometers limit the volume of the loaded substance and may pose a danger of uncontrolled access into the cells. On the other hand, nanoparticles larger than 200 nm in diameter have difficulties to undergo rapid diffusional transport through cell membranes. The main advantage of large nanoparticles is higher drug encapsulation efficiency and the ability to deliver a wider array of drugs. Our present study contributes a new approach with large Tween 80 solid lipid nanoparticles SLN (i.e., hydrodynamic GM-SLN-glycerol monostearate, GM, as the lipid and ATO5-SLNs-glyceryl palmitostearate, ATO5, as the lipid) with diameters DH of 379.4 nm and 547 nm, respectively. They are used as drug carriers alone and in combination with electroporation (EP) induced by millisecond pulsed electric fields. We evaluate if EP can support the transport of large nanocarriers into cells. The study was performed with two cell lines: human colon adenocarcinoma LoVo and hamster ovarian fibroblastoid CHO-K1 with coumarin 6 (C6) as a fluorescent marker for encapsulation. The biological safety of the potential treatment procedure was evaluated with cell viability after their exposure to nanoparticles and EP. The EP efficacy was evaluated by FACS method. The impact on intracellular structure organization of cytoskeleton was visualized by CLSM method with alpha-actin and beta-tubulin. The obtained results indicate low cytotoxicity of both carrier types, free and loaded with C6. The evaluation of cytoskeleton proteins indicated no intracellular structure damage. The intracellular uptake and accumulation show that SLNs do not support transport of C6 coumarin. Only application of electroporation improved the transport of encapsulated and free C6 into both treated cell lines.

Published
2016
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