Research training between 14 and 18 in Hungary

The first five years of a new program to organize high-level scientific research training for gifted high school students in Hungary are described. Besides giving unique research opportunities for talented students in their most receptive age, the program already helped the establishment of almost 100 scientific research clubs in Hungarian high schools, provided a focal point for science training of high school teachers and helped regional cooperation in Central-Eastern Europe.     

Targeting cellular metabolism using rapamycin and/or doxycycline enhances anti-tumour effects in human glioma cells

Background

Glioma is the most common highly aggressive, primary adult brain tumour. Clinical data show that therapeutic approaches cannot reach the expectations in patients, thus gliomas are mainly incurable diseases. Tumour cells can adapt rapidly to alterations during therapeutic treatments related to their metabolic rewiring and profound heterogeneity in tissue environment. Renewed interests aim to develop effective treatments targeting angiogenesis, kinase activity and/or cellular metabolism. mTOR (mammalian target of rapamycin), whose hyper-activation is characteristic for many tumours, promotes metabolic alterations, macromolecule biosynthesis, cellular growth and survival. Unfortunately, mTOR inhibitors with their lower toxicity have not resulted in appreciable survival benefit. Analysing mTOR inhibitor sensitivity, other metabolism targeting treatments and their combinations could help to find potential agents and biomarkers for therapeutic development in glioma patients.

Methods

In vitro proliferation assays, protein expression and metabolite concentration analyses were used to study the effects of mTOR inhibitors, other metabolic treatments and their combinations in glioma cell lines. Furthermore, mTOR activity and cellular metabolism related protein expression patterns were also investigated by immunohistochemistry in human biopsies. Temozolomide and/or rapamycin treatments altered the expressions of enzymes related to lipid synthesis, glycolysis and mitochondrial functions as consequences of metabolic adaptation; therefore, other anti-metabolic drugs (chloroquine, etomoxir, doxycycline) were combined in vitro.

Results

Our results suggest that co-targeting metabolic pathways had tumour cell dependent additive/synergistic effects related to mTOR and metabolic protein expression patterns cell line dependently. Drug combinations, especially rapamycin?+?doxycycline may have promising anti-tumour effect in gliomas. Additionally, our immunohistochemistry results suggest that metabolic and mTOR activity alterations are not related to the recent glioma classification, and these protein expression profiles show individual differences in patients’ materials.

Conclusions

Based on these, combinations of different new/old drugs targeting cellular metabolism could be promising to inhibit high adaptation capacity of tumour cells depending on their metabolic shifts. Relating to this, such a development of current therapy needs to find special biomarkers to characterise metabolic heterogeneity of gliomas.

     

Chromatin proteins as a possible target for antitumour agents: alterations of chromatin proteins in dibromodulcitol treated Yoshida tumors

The effect of dibromodulcitol (DBD) on Yoshida sarcoma chromatin components has been investigated. Measurements on the radioactivity of nuclear components after in vivo treatment with [3H]DBD for 1 h indicated preferential drug binding to the high molecular weight component of the nuclear residual acidic protein (non-histones) and also to Histone 1 (H1) (very lysine rich, F1). Two-hour DBD treatment resulted in partial degradation and reduced [3H]leucine incorporation into the same fractions of chromatin. However, 6 h after DBD treatment, the synthesis of the degraded chromatin proteins began and by 24 h was completed. During the same treatment period the composition of chromatin showed a remarkable alteration; 2 h after DBD treatment the amount of the nuclear residual acidic proteins relative to DNA decreased by approx. 50%, but returned to control value 24 h after drug treatment. This in conjunction with the data on [3H]leucine incorporation suggests that certain chromatin proteins are degraded and subsequently newly synthesised after DND treatment resulting in an exchange of chromatin components. The formation of a nucleohistone complex between H1 and DNA was inhibited by pretreatment of H1 and DBD, dianhydrodulcitol (DAD) and bischloroethylnitrosourea (BCNU).     

Study of drugs against neoplastic metastasis

Further progress in the therapy of malignant diseases is expected from the introduction of potent antimetastatic drugs. Surveying of the complex and multi-step behavior of the metastatic process, compounds showing inhibitory action against tumor cell migration may be ranked among the promising antimetastatic agents. Our present study indicate, however, that the antimigratory actions of certain antitumor drugs (doxorubicin, taxol), and inhibitors of signal transduction (PD-98059, LY-294002, SB-203580) are highly dependent on the assay applied (Boyden-chamber, 3D ECM cell culture). It has been proposed that agents interrupting cell-extracellular matrix contacts (hexyldeoxyuridine, borrelidin) and others interfering with the regulatory mechanism of gene translation (rapamycin, ribavirin) could be regarded as leading compounds in the antimetastatic drug development process. Nevertheless, for introducing diagnostically based targeted therapy the forthcoming tasks must include the further elucidation of the molecular mechanisms implicated in the amoeboid and cluster type of cell migration.     

Syndecan-1 enhances proliferation, migration and metastasis of HT-1080 cells in cooperation with syndecan-2

Syndecans are transmembrane heparan sulphate proteoglycans. Their role in the development of the malignant phenotype is ambiguous and depends upon the particular type of cancer. Nevertheless, syndecans are promising targets in cancer therapy, and it is important to elucidate the mechanisms controlling their various cellular effects. According to earlier studies, both syndecan-1 and syndecan-2 promote malignancy of HT-1080 human fibrosarcoma cells, by increasing the proliferation rate and the metastatic potential and migratory ability, respectively. To better understand their tumour promoter role in this cell line, syndecan expression levels were modulated in HT-1080 cells and the growth rate, chemotaxis and invasion capacity were studied. For in vivo testing, syndecan-1 overexpressing cells were also inoculated into mice. Overexpression of full length or truncated syndecan-1 lacking the entire ectodomain but containing the four juxtamembrane amino acids promoted proliferation and chemotaxis. These effects were accompanied by a marked increase in syndecan-2 protein expression. The pro-migratory and pro-proliferative effects of truncated syndecan-1 were not observable when syndecan-2 was silenced. Antisense silencing of syndecan-2, but not that of syndecan-1, inhibited cell migration. In vivo, both full length and truncated syndecan-1 increased tumour growth and metastatic rate. Based on our in vitro results, we conclude that the tumour promoter role of syndecan-1 observed in HT-1080 cells is independent of its ectodomain; however, in vivo the presence of the ectodomain further increases tumour proliferation. The enhanced migratory ability induced by syndecan-1 overexpression is mediated by syndecan-2. Overexpression of syndecan-1 also leads to activation of IGF1R and increased expression of Ets-1. These changes were not evident when syndecan-2 was overexpressed. These findings suggest the involvement of IGF1R and Ets-1 in the induction of syndecan-2 synthesis and stimulation of proliferation by syndecan-1. This is the first report demonstrating that syndecan-1 enhances malignancy of a mesenchymal tumour cell line, via induction of syndecan-2 expression.     

Effect of sodium-ascorbate and vanadate on the Rb+-uptake of human red blood cells

To follow the Rb+-uptake of human red blood cells (rbc-s) under different circumstances, a micro-method was developed. According to our experiments the Rb+-uptake of rbc-s in a healthy person was about 3.5-4.0 mumoles Rb/mg Fe at 37 degrees C during 120 minutes. When red cells were incubated with solutions containing different concentrations, between 15 and 120 mmole/l, of Na-ascorbate [Na-ascorbate was applied at the expense of Na-isethionate (sodium salt of 2-hydroxyethan-1-sulfonic acid)] the Rb+-uptake of red cells increased at 37 degrees C with 37 to 70% respectively. In other experiments it was established that the ouabain-sensitive Rb+-uptake of rbc-s decreased with 50% in the presence of 0.1 mmole/l vanadate, while if Na-ascorbate was applied simultaneously with different concentrations of vanadate, or after a preincubation with 1 mmole/l vanadate, the Rb+-uptake of red cells, which had been reduced by vanadate, returned close to that of control. This effect can be explained by the reductive property of Na-ascorbate, i.e. by the transformation of vanadate to vanadil.