The national blueprint for biodefense concluded that the United States is underprepared for biological threats. The licensed anthrax vaccine absorbed vaccine, BioThrax, requires administration of at least 3–5 intramuscular doses. The anthrax vaccine absorbed vaccine consists of complex cell-free culture filtrates of a toxigenic Bacillus anthracis strain and causes tenderness at the injection site and significant adverse events. We integrated a codon-optimized, protective antigen gene of B. anthracis (plus extracellular secretion machinery), into the chromosome of the licensed, oral, live-attenuated typhoid fever vaccineTy21a to form Ty21a-PA-01 and demonstrated excellent expression of the gene encoding protective antigen. We produced the vaccine in a 10-L fermenter; foam-dried and vialed it, and characterized the dried product. The vaccine retained ~50% viability for 20 months at ambient temperature. Sera from animals immunized by the intraperitoneal route had high levels of anti-protective antigen antibodies by enzyme-linked immunosorbent assay and anthrax lethal toxin-neutralizing activity. Immunized mice were fully protected against intranasal challenge with ~5 LD50 of B. anthracis Sterne spores, and 70% (7/10) of vaccinated rabbits were protected against aerosol challenge with 200 LD50 of B. anthracis Ames spores. There was a significant correlation between protection and antibody levels determined by enzyme-linked immunosorbent assay and toxin-neutralizing activity. These data provide the foundation for achievement of our ultimate goal, which is to develop an oral anthrax vaccine that is stable at ambient temperatures and induces the rapid onset of durable, high-level protection after a 1-week immunization regimen.
AimThe aim of our studies was to discover responses of the membrane systems in neurons and cardiomyocytes as well as mechanisms of influences and effects produced by the broadband-spectrum stochastic electromagnetic radiation (BBSS EMR) on them according to data on membrane potential (MP) levels and action potential (AP) parameters obtained by us. Materials and methodsNeurons from the isolated central neural system (CNS) of the snail Helix pomatia were selected to serve as a model for our experiments. We applied an electrophysiological technique implying recording of intracellular potentials of a neuron. The presented research work is of fundamental nature and reveals some intimate mechanisms of actions made by electromagnetic radiation (EMR) on the cytoplasm membrane of a neuron and its channels that is applicable to cardiomyocytes. An absolutely exclusive distinctive feature of our work is that the specific BBSS EMR used in our experiments has unique characteristics and offers broadband stochastic radiated frequencies in the range from 10 n Hz to 10 m Hz at an integral radiation power of only 0,1 µW. Another distinguishing feature of the applied EMR parameters is that the stochastically organized EMR is supplied under such action rhythms, which are close to the natural alpha-, theta-and delta-rhythms of an EEG as well to the natural background base resonance frequency of the Earth, which has been physically measured to be 7,83 Hz, that is evolutionary significant for biological systems. Results and discussionWe are pioneers in the world science who succeeded in ob-
., Rostov-on-Don, 344006, Russian Federation Currently, new knowledge on immunotherapy in solid tumors is being intensively accumulated and new promising techniques are originating. The most advanced are those in the field of searching for new immune checkpoints, development of highly efficient immune adjuvants based on recombinant viruses to improve the effect of anticancer vaccines, as well as design engineering of chimeric receptors of T cells used for adoptive immunotherapy. We have presented some clinical trial results of immunotherapeutic approaches, as well as experimental studies on animal models, which offer new prospects for colon cancer treatment.
e15045 Background: Berberine is an alkaloid compound with a structure that is highly similar to that of intercalating agents. It affects numerous cell signaling pathways and is widely studied as potential anticancer drug. It is known that berberine affects cancer cells migration through metalloproteinase-2 inhibition, but this effect was never studied on glioma cells. Anti-migratory drugs are of special interest in brain cancer therapy since glioma's highly invasive nature makes total surgical removal of tumor practically impossible. The aim of the study was to evaluate berberine anti-migratory activity on glioma cells. Methods: Cell migration capacity of T98G and U87MG cell lines, as well as primary glioma cell culture established in our laboratory, was assessed via standard wound healing assay with automated image acquisition and analysis on Lionheart FX (BioTek) cell imager. Prior to assay setting up cell cultures were maintained in DMEM medium with L-glutamine (1 μM) (Gibco) and 10% FBS (Gibco) at 37C0 and 5.0% CO2. Cells were seeded at 250 000 cells per well on 24-well plates and incubated overnight in order to attach to plate bottom. After that a vertical wound was made manually in each well, and berberine was added to experimental wells to final concentration 50 mg/L. Plates with cells were continuously incubated and photographed in cell imager at 37C0 and 5.0% CO2. The extent of cells migration was measured as the percent of wound area decrease after 24 hours of incubation in relation to starting time point. Data are given as: Mean ± 95% confidence interval. Results: In our study we berberine exhibited anti-migratory activity in all cell cultures under study. In rather fast growing primary cell culture wound area decrease was 99.23%±0.62% in control sample and 91.75%±0.28% in experimental sample. The difference was small but significant at p < 0.001 level (df = 30). Popular permanent glioma cell lines T98G and U87MG showed more prominent decrease in studied parameter with higher degree of variance at the same time. In T98G wound area decrease was 71.6%±12.3% in control and 48.8%± 7.6% in experimental samples after 24 hours of cultivation in presence of 50 mg/L berberine. While U87MG demonstrated 60.28%±5.13% and 37.5%± 8.34% wound area decrease accordingly. The obtained difference between control and experimental groups in permanent cell cultures was statistically significant at the 0.05 level (df = 30). Conclusions: Our preliminary research proved berberine to be potent anti-migratory agent in glioma treatment. Further investigations are needed to evaluate its ability to inhibit glioma cell expansion in vivo.
e15597 Background: Oncolytic virotherapy is developing intensively in modern oncology. Viruses demonstrate the ability to the direct oncolysis and to the stimulation of antitumor immune activity; this experiment was aimed at solving the question of the prevalence of one of them. Glial tumors are the most common brain tumors; oncolytic viruses show certain prospects in their treatment due to the ability to penetrate the blood-brain barrier. The aim of the study was to determine the possible oncolytic effect of new unclassified group K rotaviruses (RVK) on T98G and U87MG glioblastoma cells in vitro. Methods: T98G and U87MG cell cultures were received from Russian banks of cell lines of human and animal tissues. Standard culturing was performed with attenuated apatogenic RVK strains No. 100 and No. 228 at a concentration of 108, 107, 106 and 105 particles/mL. The cytotoxic effect was determined with MTT and Annexin V assays, cell morphology was evaluated by the light-optical method. Results: Both RVK strains demonstrated a dose-dependent cytotoxic activity; the maximal effect was observed in strain No.100 at a dose of 108 particles/mL on U87MG cells (predominantly apoptosis). Studies of cell morphology showed a pronounced effect of RVK on the cell culture: significant degenerative changes in cells, a tendency to a decrease in cluster size, a change in their shape and granularity. Cluster formation in culturing in the serum-free medium is considered in the literature as a property of cancer stem cells responsible in vivo for tumor recurrence and its chemo- and radio-resistance. T98G cells demonstrated morphological changes: nuclear segmentation, diffused cytoplasm, indistinct cell borders with signs of syncytium formation. Conclusions: The established oncolytic effect of RVK strain No. 100 in vitro on glioma cells, presumably with tumor stem cells, indicates a significant potential for the use of these rotaviruses in treatment of glial tumors.
The low connexin 43 expression levels may reflect both a reduction in astroglial functional gap junctions and semicanals and a decrease in the amount of the protein itself that has independently antioncogenic properties. The observed cytoplasmic and nuclear expression of connexin 43 is most likely to be associated with the aberrant activity of a number of kinases, such as proto-oncogene tyrosine-kinase Src or protein kinase C (PKC).
The Biobank of the National Medical Research Center of Oncology is a multi-layered infrastructure with large collections of biological samples, complemented by extensive and well-annotated clinical and pathological patient data, including medical images, pathological histology, and molecular analysis of biosamples. To date, the biobank of the National Medical Research Center of Oncology contains collections of primary and immortalized cancer cell lines of human origin. The collection of primary cell lines was formed from samples of postoperative material taken during the removal of tumors of various localizations (breast cancer, prostate cancer, lung cancer). All cell lines underwent internal quality control for contaminants (exogenous viruses, mycoplasmas and bacterial L-forms), viability and were cultivated without antibiotics. On the basis of the collected samples, a significant number of projects in the field of biomedicine were carried out, the results of which are described in this article.
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