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.
Purpose of the study. Testing of new chemotherapeutic agents in translational and biology medicine needs studies on immortalized cell lines. However, such models do not always have the biological properties of a tumor in situ, in contrast to primary cell cultures. Primary cultures of lung cancer cells have biological, morphological and molecular characteristics close or identical to tumor cells in vivo. Obtaining collections of primary lung cancer cell lines is an important task in creating various models for preclinical studies.Materials and methods. The materials are represented by postoperative tumor samples obtained from 25 patients with newly diagnosed lung cancer without prior treatment. The following methods were used to obtain primary cultures: enzymatic dissociation in Hanks' solution with the addition of 300 units/ml collagenase I (Thermo Fisher Scientific, USA), enzymatic dissociation using the Brain Tumor Dissoсiation Kit (Miltenyi Biotec, Germany) and 150 units/ml. ml of collagenase I, as well as the method of explants. The following methods were used to remove fibroblasts: the use of the FibrOut™ system (CHI Scientific, USA), magnetic separation of fibroblasts using Anti-Fibroblast MicroBeads (Miltenyi Biotec, Germany), and cold trypsinization.Results. We have obtained 15 primary lung cancer cell cultures that have passed the zero order passage. In this work, the method of enzymatic dissociation turned out to be the most effective. Incubation of lung tumor samples with collagenase for 1 hour preserves the viability and adhesiveness of the cells. The explant method did not show its effectiveness for long-term cultivation, there was no migration of tumor cells to plastic. Magnetic separation, as a method of removing stromal components of fibroblasts, showed the greatest efficiency, while maintaining the viability of tumor cells.Conclusion. The obtained primary cell cultures of lung cancer can be used for many tasks of experimental oncology: studies of the biological characteristics of lung cancer, development of preclinical models for the studies on new chemotherapeutic drugs.
e15610 Background: Cancer stem cells (CSCs) are promising targets in modern oncology. A lot of CSCs enrichment and cultivation techniques are being currently developed. Most of the approaches deploy high doses of growth factors in culture media, - EGF and FGF2 above all, - without prior testing. Since prolonged exposition to growth factors may cause paradoxical growth inhibition it is worth developing test systems to evaluate culturing conditions before establishing the main experiment. Encapsulation in alginate may serve as a promising approach to develop such test-systems due to alginate reduced ability to adsorb proteins and maintain proper attachment to the ECM of non-stem cell even in the presence of serum. It is important to notice that serum addition may be crucial during initial stages of primary CSCs culture establishment. The aim of the study was to test EGF and FGF2 effects on anoikis resistant cells growth in permanent colorectal cancer cell lines. Methods: The cells of Caco-2, HT-29, and HCT 116 cultures were encapsulated in 1% alginate beads at a concentration of 100 000 cells/ml. Subsequently encapsulated cells were kept in 2 variants of culture media: DMEM/F12 + 10%FBS with and without addition of growth factors (EGF 20 ng/ml, FGF2 10 ng/ml). The cultivation was carried out for 10 days, after that the colonies area (A) was measured. Data are given as: Mean ± 95% confidence interval. Results: The average area of Caco-2 culture colonies increased significantly with the addition of growth factors (FBS only A = 1755.16±195.87 μm2, with additional growth factors Af = 3270.57±274.91 μm2), the difference was significant (t = 8.83, n = 300, p < 0,05). The area of HCT116 colonies after growth factors addition increased only slightly (A = 2844.89±461.57 μm2, Af = 3530.31±503.85 μm2), the difference nevertheless did not reach significant values (t = 1.94, n = 300, p > 0.05). At the same time, the area of HT-29 colonies significantly decreased in the culture medium containing additional growth factors (A = 4605.10±324.02 μm2, Af = 3167.85±249.07 μm2), the difference was significant (t = 6.92, n = 300, p < 0.05). Conclusions: Combining alginate encapsulation and colonies size measurement enabled us to evaluate culturing conditions of anoikis resistant cells in permanent CRC cultures and proved growth factors addition to be an ambiguous practice in CSCs research. This tactics can be applied in a broad spectrum of tasks concerning more effective CSCs medium formulations development.
scite is a Brooklyn-based organization that helps researchers better discover and understand research articles through Smart Citations–citations that display the context of the citation and describe whether the article provides supporting or contrasting evidence. scite is used by students and researchers from around the world and is funded in part by the National Science Foundation and the National Institute on Drug Abuse of the National Institutes of Health.
customersupport@researchsolutions.com
10624 S. Eastern Ave., Ste. A-614
Henderson, NV 89052, USA
This site is protected by reCAPTCHA and the Google Privacy Policy and Terms of Service apply.
Copyright © 2024 scite LLC. All rights reserved.
Made with 💙 for researchers
Part of the Research Solutions Family.