Nina Rembiałkowska

Anticancer properties of low molecular weight oat beta-glucan – An in vitro study.

Anticancer properties of 1-3, 1-4 oat beta glucan are under intensive investigation now. Antitumor characteristic of fungi and yeast beta-glucans have been widely recognized, but those polysaccharides are mostly insoluble which creates several problems especially in topical formulation. Also high molecular weight oat beta-glucans reveal high viscosity which restricts its application. According to those problems in the current study the antitumor activities of low molecular weight beta-glucan derived from oats were investigated in cancer cells: Me45, A431 and normal HaCaT and murine macrophages P388/D1. The low molecular weight beta-glucan from oat significantly deceased cancer cells viability, while for the normal cells it was non-toxic. It was observed that with the increasing incubation time and the beta-glucan concentration the cancer cells viability significantly deceased. Furthermore for the normal cells the low molecular weight beta-glucan from oat was non-toxic. Immunocytochemical ABC analysis showed that beta-glucan induced strong expression of caspase-12 in both cancer cell lines, while in HaCaT cells ABC reaction was significantly lower and in P388/D1 cell line ABC reaction was negative. Our preliminary studies show strong anti-tumor properties of new low molecular weight beta-glucan from oat and at the same time no toxicity for normal cells.

Doxorubicin delivery enhanced by electroporation to gastrointestinal adenocarcinoma cells with P-gp overexpression.

Electroporation (EP) can effectively support the penetration of macromolecules from the extracellular space into cells. Electropores induced by the influence of electromagnetic field generate additional paths of transport for macromolecules. The aim of this study was evaluation of the electroporation effect on doxorubicin transport efficiency to human colon (LoVo and LoVo/DX) and gastric (EPG85-257/P and EPG85-257/RDB) adenocarcinoma cells with overexpression of P-glycoprotein and murine macrophage cell line (P388/D1). In our EP experiments cells were placed into a cuvette with aluminum electrodes and pulsed with five square electric pulses of 1300 V/cm and duration of 50 μs each. Cells were also treated with low doxorubicin concentration ([DOX]=1.7 μM). The ultrastructure (TEM) and changes of P-glycoprotein expression of tumor cells subjected to electric field were monitored. The mitochondrial cell function and trypan blue staining were evaluated after 24h. Our results indicate the most pronounced effect of EP with DOX and disturbed ultrastructure in resistant gastric and colon cells with decrease of P-gp expression. Electroporation may be an attractive delivery method of cytostatic drugs in chemotherapy, enabling reduction of drug dose, exposure time and side effects.

Combination of therapy with 5-fluorouracil and cisplatin with electroporation in human ovarian carcinoma model in vitro

High electric field, applied to plasma membrane, affects organization of the lipid molecules, generating transient hydrophilic electropores. The application of the cell membrane electroporation in combination with cytotoxic drugs could increase the drug transport into cells. This approach is known as electrochemotherapy (ECT). Our work shows new data concerning the influence of electrochemical reaction with cisplatin or with 5-fluorouracil (5-FU) on cancer ovarian cells resistant to standard therapy with cisplatin, in comparison to ECT effect on human primary fibroblasts. We investigated the effect of electroporation and electrochemotherapy with 5-FU and cisplatin on human ovarian clear-cell carcinoma cell line (OvBH-1) and epithelial ovarian carcinoma cell line (SKOV-3) - both resistant to cisplatin typically used in ovarian cancers. As control cells, human gingival fibroblasts (HGFs) from primary culture were used. Electropermeabilization efficiency was determined by FACS analysis with iodide propidium. Efficiency of electrochemotherapy was evaluated with viability assay. The cytotoxic effect was dependent on the electroporation parameters and on drug concentration. Electroporation alone only insignificantly decreased cells proliferation in OvBH-1 line; SKOV-3 line was more sensitive to the electrical field. Electrochemotherapy with cisplatin and 5-FU showed promising effects on both ovarian cell lines with recovery of normal cells revealed after 72 hours.

Effects of electrophotodynamic therapy in vitro on human melanoma cells--melanotic (MeWo) and amelanotic (C32).

Photodynamic therapy has been considered ineffective for melanomas because of the competition between the absorbance of melanin from the melanoma and the absorbance of photosensitizers at the photosensitizer excitation light wavelength. Melanomas show considerable heterogeneity and resistance to phototherapy. The effectiveness of photodynamic therapy could be intensified by electroporation for enhanced transport of a photosensitizer by transient pores in the membrane. In this study, photodynamic therapy combined with electroporation was tested in vitro on the human melanoma cell lines melanotic melanoma (MeWo) and amelanotic melanoma (C32). Control experiments were conducted on human keratinocytes (HaCaT). Photofrin was used as a photosensitizer. Photosensitizer distribution, cloning efficacy test, comet assay, and assessment of apoptotic proteins were performed. Melanin levels were determined before and after photodynamic therapy. The experiments indicated that electroporation effectively supports the photodynamic method. It was found that photodynamic therapy with electroporation efficiently induces apoptosis in melanotic and amelanotic melanoma cells.

The effectiveness of chemotherapy and electrochemotherapy on ovarian cell lines in vitro

The presented study aimed to evaluate in vitro the effectiveness of improvement standard chemotherapy with bleomycin by electroporation in two various ovarian cancer cell lines. Two human ovarian cell lines OvBH-1 and SKOV-3 were used. The lines were selected because of their resistance to several therapeutic methods. As anticancer drug we use range of concentrations of bleomycin. In EP and ECT experiments different voltage values: from 0 to 1200 V/cm, 8 pulses with duration of 100μs and intervals between pulses 1s long were used. The cells viability after applied treatments was evaluated by MTT assay. The expression of heat shock proteins - HSP27 was examined by immunocytochemical ABC method.The cytotoxicity with different concentrations of bleomycin alone was not significantly decrease in both cell lines. It confirms resistance of these cells to conventional chemotherapy. The highest decrease of cell proliferation was observed after EP with bleomycin after 48h of incubation for 1000 V/cm. The intensity of expression of small heat shock proteins HSP27 slightly increased after ECT in both treated cell lines, in particular in OvBH-1. The presented study indicated that application of electroporation may effectively enhance chemotherapy with bleomycin, particularly in the case of treating ovarian cancer resistant to standard therapy.

Transmembrane Transport and Anticancer Activity of Strontium Ranelate Delivered with Nanosecond Pulsed Electric Fields (nsPEFs) into Human Cells in Vitro

Electropulse technology using nanosecond pulsed electric fields (nsPEFs) presents a new stimulating factor to interfere with cell functions or induce cell death in cancer cells. nsPEFs permeablilizes cells generating large numbers of non-stable nanopores in all cell membranes. This newly created pores can be efficiently used by drugs for a molecule transport in anticancer therapy. In the current research we attempted to apply nsPEF to transport strontium ranelate. Two human gastric cancer cell line (EPG85-257P and EPG85-257RDB), colon adenocarcinoma (LS-180), breast adenocarcinoma cell lines (MCF-7/WT and MCF-7/DX), melanoma (Me45), epidermal cancer (A431), normal keratinocytes (HaCaT) and macrophages (P388/D1) were used for nano-electrochemotherapy in vitro. The following electrical field parameters: EP - 12.5 kV/cm, 25 kV/cm, 37 kV/cm, with repetition frequency of 100 Hz, 200 impulses of 10 ns each, and time rise of 2 ns. MTT assay was applied for evaluation of combined therapy effectiveness after 24 and 72 hours. The intracellular calcium level was detected by Fluo-4, membrane permeabilization was detected by CellMask – membrane marker. The nsPEF-strontium therapy was significantly efficient in adenocarcinoma type of cells. Cells derived from skin were resistant to the applied therapy.