Antitumor effects of sulindac in ovarian cell cultures

Abstract Objective: The purpose of our study was to assess susceptibility of cells of various ovarian cell lines on different nonsteroidal anti-inflammatory drugs (NSAIDs). Materials and methods: Cytotoxic effect of NSAIDs was tested using MTT colorimetric assay. Results: Amongst 6 NSAIDs tested: sulindac, sulindac sulfide, sulindac sulfone, acetylsalicylic acid, nimesulide, and rofecoxib, viability of ovarian carcinoma cells was compromised most strongly by sulindac and sulindac sulfide and concerned all the cell lines tested: SKOV-3, MDAH 2774, OVCA-1, and OVP-10. Sulindac sulfone and rofecoxib also displayed some cytotoxic effect during prolonged 72-hour incubation. Other NSAIDs tested: nimesulide and acetylsalicylic acid were devoid of cytotoxic effect on ovarian cancer cells. Conclusion: Our results are encourage enough to conduct clinical trials that could allow to draw conclusions regarding potential application of sulindac in the adjuvant treatment of a standard chemotherapy of ovarian cancer

Prospects for p53-based cancer therapy.

The p53 tumor suppressor plays the role of a cellular hub which gathers stress signals such as damage to DNA or hypoxia and translates them into a complex response. p53 exerts its action mainly as a potent transcription factor. The two major outcomes of p53 activity are highlighted: cell cycle arrest and apoptosis. During malignant transformation p53 or p53-pathway related molecules are disabled extremely often. Mutations in p53 gene are present in every second human tumor. A mutant form of p53 may not only negate the wild type p53 function but may play additional role in tumor progression. Therefore p53 represents a relatively unique and specific target for anticancer drug design. Current approaches include several different molecules able to restore p53 wild-type conformation and activity. Such small molecule drugs hold great promise in treating human tumors with dysfunction of p53 pathway in the near future

Renal Handling of Albumin—From Early Findings to Current Concepts

Albumin is the main protein of blood plasma, lymph, cerebrospinal and interstitial fluid. The protein participates in a variety of important biological functions, such as maintenance of proper colloidal osmotic pressure, transport of important metabolites and antioxidant action. Synthesis of albumin takes place mainly in the liver, and its catabolism occurs mostly in vascular endothelium of muscle, skin and liver, as well as in the kidney tubular epithelium. Long-lasting investigation in this area has delineated the principal route of its catabolism involving glomerular filtration, tubular endocytic uptake via the multiligand scavenger receptor tandem—megalin and cubilin-amnionless complex, as well as lysosomal degradation to amino acids. However, the research of the last few decades indicates that also additional mechanisms may operate in this process to some extent. Direct uptake of albumin in glomerular podocytes via receptor for crystallizable region of immunoglobulins (neonatal FC receptor) was demonstrated. Additionally, luminal recycling of short peptides into the bloodstream and/or back into tubular lumen or transcytosis of whole molecules was suggested. The article discusses the molecular aspects of these processes and presents the major findings and controversies arising in the light of the research concerning the last decade. Their better characterization is essential for further research into pathophysiology of proteinuric renal failure and development of effective therapeutic strategies

Light ageing with simultaneous colorimetry via fibre optics reflection spectrometry

En octobre 2013, le congrès de l'AFHE se tenait aux archives nationales du monde du travail (ANMT) à Roubaix autour des vertus économiques de l’échec. Les actes viennent de paraître (en décembre 2015) aux éditions du Comité pour l'histoire économique et financières de la France - IGPDE, sous la direction de Natacha Coquery et Matthieu de Oliveira. Présentation : À l’été 2008, la planète tremble en découvrant l’ampleur de la crise financière. Les subprimes deviennent en quelques semaines une r..

Inhibition of Advanced Glycation End-Product Formation and Antioxidant Activity by Extracts and Polyphenols from Scutellaria alpina L. and S. altissima L.

Methanolic extracts from the aerial parts and roots of two Scutellaria species, S. alpina and S. altissima, and five polyphenols from these plants demonstrated a significant ability to inhibit the formation of advanced glycation end-products (AGE) in vitro. S. alpina, which is richer in polyphenolic compounds, had strong antiglycation properties. These extracts demonstrated also high activity in the FRAP (ferric-reducing antioxidant power), antiradical (DPPH) and lipid peroxidation inhibition assays. Among the pure compounds, baicalin was the strongest glycation inhibitor (90.4% inhibition at 100 μg/mL), followed by luteolin (85.4%). Two other flavone glycosides had about half of this activity. Verbascoside was similar to the reference drug aminoguanidine (71.2% and 75.9%, respectively). The strong correlation observed between AGE inhibition and total flavonoid content indicated that flavonoids contribute significantly to antiglycation properties. A positive correlation was also observed between antiglycative and antioxidant activities. The studied skullcap species can be considered as a potential source of therapeutic agents for hyperglycemia-related disorders

X-ray fluorescence holography studies for a Cu_{3}Au crystal

In this work we show that performing a numerical correction for beam attenuation and indirect excitation allows one to fully restore element sensitivity in the three-dimensional reconstruction of the atomic structure. This is exemplified by a comparison of atomic images reconstructed from holograms measured for ordered and disordered phases of a Cu3Au crystal that clearly show sensitivity to changes in occupancy of the atomic sites. Moreover, the numerical correction, which is based on quantitative methods of X-ray fluorescence spectroscopy, was extended to take into account the influence of a disturbed overlayer in the sample