3D fluid-dynamic ovarian cancer model resembling systemic drug administration for efficacy assay.

Recently, 3D in vitro cancer models have become important alternatives to animal tests for establishing the efficacy of anticancer treatments. In this work, 3D SKOV-3 cell-laden alginate hydrogels were established as ovarian tumor models and cultured within a fluid-dynamic bioreactor (MIVO®) device able to mimic the capillary flow dynamics feeding the tumor. Cisplatin efficacy tests were performed within the device over time and compared with (i) the in vitro culture under static conditions and (ii) a xenograft mouse model with SKOV-3 cells, by monitoring and measuring cell proliferation or tumor regression, respectively, over time. After one week of treatment with 10 µM cisplatin, viability of cells within the 3D hydrogels cultured under static conditions remained above 80%. In contrast, the viability of cells within the 3D hydrogels cultured within dynamic MIVO® decreased by up to 50%, and very few proliferating Ki67-positive cells were observed through immunostaining. Analysis of drug diffusion, confirmed by computational analysis, explained that these results are due to different cisplatin diffusion mechanisms in the two culture conditions. Interestingly, the outcome of the drug efficacy test in the xenograft model was about 44% of tumor regression after 5 weeks, as predicted in a shorter time in the fluid-dynamic in vitro tests carried out in the MIVO® device. These results indicate that the in vivo-like dynamic environment provided by the MIVO® device allows to better model the 3D tumor environment and predict in vivo drug efficacy than a static in vitro model.

Cholesterol conjugated oligonucleotide and LNA: a comparison of cellular and nuclear uptake by Hep2 cells enhanced by streptolysin-O.

Antisense and antigene oligonucleotides (ONs) are attractive drugs for gene therapy, but major limiting factors for their routine use are inefficient cellular uptake and low accessibility to the target sites. Adding various lipophilic conjugates to the ON improves intracellular delivery as has been previously reported. We studied the cellular delivery of various ON modifications, as well as their cytosolic and nuclear distribution in mammalian Hep2-EGFP-NLS cell line. We compared uptake efficacy of ON and LNA, both conjugated with cholesterol at the 5' end. All ONs were 3' labeled with fluorescent Cy 5 dye. We made a comparison of the ONs uptake efficacy and the kinetics, both adding ONs to the culture medium, and using streptolysin-O (SL-O) permeabilization. The cellular uptake of each ON used in this study was visualized by fluorescent microscopy. We confirmed the results by FACS analysis. We determined the ratio between initial ON-chol concentration (0.4 microM) and the final amount in nucleus.SL-O can highly improve kinetics of ON delivery; not only into the cytoplasm but also to the nucleus, the presumed site of antigene ON action. The most effective nuclear uptake was observed when ON conjugated with cholesterol (ON-chol) and SL-O was used. Nuclear distribution of ON was reached within few minutes. In contrast, ON simply added to the medium reached cytoplasm only and the process of delivery took several hours.

Retinoblastoma protein acts as Pax 8 transcriptional coactivator.

Control of cell proliferation and differentiation by the retinoblastoma protein (pRb) depends on its interactions with key cellular substrates. Available data indicate that pRb and the transcription factor Pax 8 play a crucial role in the differentiation of thyroid follicular cells. In this study, we show that pRb takes part in the complex assembled on the thyroperoxidase gene promoter acting as a transcriptional coactivator of Pax 8. Accordingly, pRb interacts with and potentiates Pax 8 transcriptional activity. In addition, we show that the downregulation of pRb gene expression, in thyrocytes, through RNA interference results in a reduction of the thyroperoxidase gene promoter activity mediated by the Pax 8-binding site. In agreement with these results and with the ability of the adenoviral protein E1A to bind pRb, we show that E1A downregulates Pax 8 activity and that such inhibition requires the E1A-Rb interaction. Furthermore, we show that the Pax 8/pRb synergy plays a role on the sodium/iodide symporter gene expression as well.

Triplex forming oligonucleotides--tool for gene targeting.

This review deals with the antigene strategy whereby an oligonucleotide binds to the major or minor groove of double helical DNA where it forms a local triple helix. Preoccupation of this article is triplex-forming oligonucleotides (TFO). These are short, synthetic single-stranded DNAs that recognize polypurine:polypyrimidine regions in double stranded DNA in a sequence-specific manner and form triplex. Therefore, the mechanisms for DNA recognition by triple helix formation are discussed, together with main characteristics of TFO and also major obstacles that remain to be overcome are highlighted. TFOs can selectively inhibit gene expression at the transcriptional level or repair genetic defect by direct genome modification in human cells. These qualities makes TFO potentially powerful therapeutic tool for gene repair and/or expression regulation.