Targeting the Cytoskeleton with Plant-Bioactive Compounds in Cancer Therapy

In this overview we describe the main plant-derived bioactive compounds used in cancer therapy which has the cell cytoskeleton as therapeutic target. Three major classes of these compounds are described: antimitotics with microtubule-destabilizing and—stabilizing effects, plant-bioactive compounds that interact with intermediate filaments/actin, and plant-bioactive compounds that interact with intermediate filaments like keratins and vimentin. We also focus on the molecular aspects of interactions with their cellular targets: microtubules, intermediate filaments, and microfilaments. Some critical aspects of cardiac side effects of cancer chemotherapy are also discussed, focusing on cardiac cytoskeleton and protective effect of plant-derived compounds. The application of plant bioactives in the treatment of cancer has resulted in increased therapeutic efficacy through targeting the cytoskeleton, respectively, prevention of the injury of cytoskeletal components elicited by chemotherapeutics

Searching for cold-adapted microorganisms in the underground glacier of Scarisoara Ice Cave, Romania

Scarisoara Ice Cave (Romania) hosts one of world’s largest and oldest underground glacier. While no studies were carried out on the existence of microorganisms in this cave’s ice block, our interest is to investigate the presence of microorganisms and their chronological distribution in the cave’s subterranean ice in relationship with past climatic changes. Samples were collected from ice layers of different age (from present to ~900 cal. yrs. BP), and the diversity of embedded microbial communities was assessed by classical cultivation and molecular techniques. The microorganisms from icesediments were cultivated at 4 °C and 15 °C, in the presence and absence of light. Epifluorescence microscopy analysis indicates the presence of autotrophic prokaryotes and eukaryotes in sunlightexposed ice and water samples. Total DNA was isolated from each ice sample and the bacterial and eukaryotic SSU-rRNA genes were amplified by PCR. The chemical composition and organic content of both deeply buried (>10 m inside the ice block) and surface (supra- glacial pond water) habitats were analyzed in relation to their age and organic composition. This study is the first to report on the presence of both prokaryotic and eukaryotic microorganisms in the subterranean ice block of Scarisoara Ice Cave, thriving in both organic-rich ice and clear ice layers. Phototrophic prokaryotes and eukaryotes were identified in sun-exposed recent ice. The composition of cold-adapted ice embedded microbiota varied with the habitat age and organic content, as resulting from dissimilarities in growth curve profiles at two different temperatures. The presence of bacteria and eukaryotes in all the analyzed samples was asserted by PCR amplification of SSU-rRNA gene fragments. These findings can be further used to reconstruct changes in the microbial diversity over the past approximately 5000 years, in correlation with climatic and environmental changes recorded by the ice block

Paracellular and transcellular migration of metastatic cells through the cerebral endothelium

Breast cancer and melanoma are among the most frequent cancer types leading to brain metastases. Despite the unquestionable clinical significance, important aspects of the development of secondary tumours of the central nervous system are largely uncharacterized, including extravasation of metastatic cells through the blood-brain barrier. By using transmission electron microscopy, here we followed interactions of cancer cells and brain endothelial cells during the adhesion, intercalation/incorporation and transendothelial migration steps. We observed that brain endothelial cells were actively involved in the initial phases of the extravasation by extending filopodia-like membrane protrusions towards the tumour cells. Melanoma cells tended to intercalate between endothelial cells and to transmigrate by utilizing the paracellular route. On the other hand, breast cancer cells were frequently incorporated into the endothelium and were able to migrate through the transcellular way from the apical to the basolateral side of brain endothelial cells. When co-culturing melanoma cells with cerebral endothelial cells, we observed N-cadherin enrichment at melanoma-melanoma and melanoma-endothelial cell borders. However, for breast cancer cells N-cadherin proved to be dispensable for the transendothelial migration both in vitro and in vivo. Our results indicate that breast cancer cells are more effective in the transcellular type of migration than melanoma cells

Vasile Goldiş

ABSTRACT. The latest scientific flora research (researches accomplished on the continental sands from the North-West region of the country), emphasized that there are compositional changes of the vegetal layer. In the experimental stations, the natural surfaces suffered a restriction, especially in the case of semi-fixed sand hills. This contributes to a numeric reduction of plants. The sand hills' peculiar vegetation was affected by the expansion of some ruderal plants and weeds, with a local invasive character. The recent increase of dereliction areas influences negatively the persistency of specific rare species. Under these circumstances, during 2008, some rare species were rediscovered; some of them have not been signalized during the last 30 years, being considered disappeared from the flora in the North-West of Romania

Plant-Derived Biomolecules and Drug Delivery Systems in the Treatment of Liver and Kidney Diseases.

Chronic liver and kidney diseases are among the most fearful pathologies affecting an increasing number of people, having severe consequences on life quality. Although much progress has been made in recent years, availability of cost-effective and innovative therapies is still an unmet medical need. One of the major challenges in the therapy of liver and kidney diseases is to selectively deliver drugs to achieve therapeutically relevant concentration in the target organ, in order to decrease the amount of drug needed and to reduce unwanted side effects. In this review we summarize recent advances in selective drug targeting to liver or to kidney including cell-selective therapeutic approaches as well. We pay special attention to plant-derived bioactive molecules which constitute promising tools for the treatment of chronic liver and kidney diseases. We discuss cellular, subcellular and molecular mechanisms underlying the observed pharmacological effects of plant-derived drugs and give an overview of formulations, which can increase therapeutic effectiveness of these biomolecules in the treatment of chronic liver and kidney disorders