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The goal of this study was to assess the anticancer efficacy of chlorojanerin against various cancer cells. The effects of chlorojanerin on cell cytotoxicity, cell cycle arrest, and cell apoptosis were examined using MTT assay, propidium iodide staining, and FITC Annexin V assay. RT-PCR was employed to determine the expression levels of apoptosis-related genes. Furthermore, docking simulations were utilized to further elucidate the binding preferences of chlorojanerin with Bcl-2. According to MTT assay, chlorojanerin inhibited the proliferation of all tested cells in a dose-dependent manner with a promising effect against A549 lung cancer cells with an IC50 of 10 µM. Cell growth inhibition by chlorojanerin was linked with G2/M phase cell cycle arrest in A549 treated cells. Flow cytometry analysis indicated that the proliferation inhibition effect of chlorojanerin was associated with apoptosis induction in A549 cells. Remarkably, chlorojanerin altered the expression of many genes involved in apoptosis initiation. Moreover, we determined that chlorojanerin fit into the active site of Bcl-2 according to the molecular docking study. Collectively, our results demonstrate that chlorojanerin mediated an anticancer effect involving cell cycle arrest and apoptotic cell death and, therefore, could potentially serve as a therapeutic agent in lung cancer treatment.
Background: The use of cold atmospheric plasma (CAP) in oncology has been intensively investigated over the past 15 years as it inhibits the growth of many tumor cells. It is known that reactive oxidative species (ROS) produced in CAP are responsible for this effect. However, to translate the use of CAP into medical practice, it is essential to know how CAP treatment affects non-malignant cells. Thus, the current in vitro study deals with the effect of CAP on human bone cancer cells and human osteoblasts. Here, identical CAP treatment regimens were applied to the malignant and non-malignant bone cells and their impact was compared. Methods: Two different human bone cancer cell types, U2-OS (osteosarcoma) and A673 (Ewing’s sarcoma), and non-malignant primary osteoblasts (HOB) were used. The CAP treatment was performed with the clinically approved kINPen MED. After CAP treatment, growth kinetics and a viability assay were performed. For detecting apoptosis, a caspase-3/7 assay and a TUNEL assay were used. Accumulated ROS was measured in cell culture medium and intracellular. To investigate the influence of CAP on cell motility, a scratch assay was carried out. Results: The CAP treatment showed strong inhibition of cell growth and viability in bone cancer cells. Apoptotic processes were enhanced in the malignant cells. Osteoblasts showed a higher potential for ROS resistance in comparison to malignant cells. There was no difference in cell motility between benign and malignant cells following CAP treatment. Conclusions: Osteoblasts show better tolerance to CAP treatment, indicated by less affected viability compared to CAP-treated bone cancer cells. This points toward the selective effect of CAP on sarcoma cells and represents a further step toward the clinical application of CAP.
Background: Cold atmospheric plasma (CAP) is increasingly used in the field of oncology.
Many of the mechanisms of action of CAP, such as inhibiting proliferation, DNA breakage, or the
destruction of cell membrane integrity, have been investigated in many different types of tumors.
In this regard, data are available from both in vivo and in vitro studies. Not only the direct treatment
of a tumor but also the influence on its blood supply play a decisive role in the success of the therapy
and the patient’s further prognosis. Whether the CAP influences this process is unknown, and the
first indications in this regard are addressed in this study. Methods: Two different devices, kINPen
and MiniJet, were used as CAP sources. Human endothelial cell line HDMEC were treated directly
and indirectly with CAP, and growth kinetics were performed. To indicate apoptotic processes,
caspase-3/7 assay and TUNEL assay were used. The influence of CAP on cellular metabolism
was examined using the MTT and glucose assay. After CAP exposure, tube formation assay was
performed to examine the capillary tube formation abilities of HDMEC and their migration was
messured in separate assays. To investigate in a possible mutagenic effect of CAP treatment,
a hypoxanthine-guanine-phosphoribosyl-transferase assay with non malignant cell (CCL-93) line was
performed. Results: The direct CAP treatment of the HDMEC showed a robust growth-inhibiting
effect, but the indirect one did not. The MMT assay showed an apparent reduction in cell metabolism
in the first 24 h after CAP treatment, which appeared to normalize 48 h and 72 h after CAP application.
These results were also confirmed by the glucose assay. The caspase 3/7 assay and TUNEL assay
showed a significant increase in apoptotic processes in the HDMEC after CAP treatment. These results
were independent of the CAP device. Both the migration and tube formation of HDMEC were
significant inhibited after CAP-treatment. No malignant effects could be demonstrated by the CAP
treatment on a non-malignant cell line.
: Human osteosarcoma (OS) is the most common primary malignant bone tumor occurring
most commonly in adolescents and young adults. Major improvements in disease-free survival have
been achieved by implementing a combination therapy consisting of radical surgical resection of the
tumor and systemic multi-agent chemotherapy. However, long-term survival remains poor, so novel
targeted therapies to improve outcomes for patients with osteosarcoma remains an area of active
research. This includes immunotherapy, photodynamic therapy, or treatment with nanoparticles.
Cold atmospheric plasma (CAP), a highly reactive (partially) ionized physical state, has been shown
to inherit a significant anticancer capacity, leading to a new field in medicine called “plasma oncology.”
The current article summarizes the potential of CAP in the treatment of human OS and reviews the
underlying molecular mode of action.
The pUS3, a serine/threonine protein kinase that is conserved in Alphaherpesvirinae may play an important in phosphorylation and regulation of the activities of viral and cellular proteins. It has also been proposed that pUS3 affects virulence. Whereas many studies of the pUS3 functions of HSV-1 and PrV, a closely related homolog of BHV-1 have supported these assumptions, the role of BHV-1pUS3 is not yet fully understood so far. The aims of this study therefore were to investigate the functions of BHV-1pUS3 for virus replication in cultured cells, effect on apoptosis and identification of protein interactions with cellular proteins and addressed the function of the aminoterminal region by generating a short isoform of BHV-1pUS3 which corresponds in size to the natural short isoforms of PrVpUS3 and HSV-1pUS3. Results of the study are briefly summarized here: -BHV-1pUS3 is, although not essential, beneficial for infectious replication of BHV-1 in-vitro. It also supports direct cell-to-cell spread of BHV-1/Aus12 and prevents the formation of electron dense aggregates with embedded capsids in nuclei of BHV-1 infected cells, a phenotype that may affect nuclear egress of BHV-1 nucleocapsids. -The protein, independent from other BHV-1 encoded functions, located mainly to the nuclei of cells. -In contrast to functions of pUS3 in PrV and HSV-1, the protein of BHV-1 has no anti-apoptotic activity. -Biologically active BHV-1pUS3 physically interacts with the cellular SET protein and overexpression of SET, independent from the expression of the protein, inhibits productive BHV-1 replication in a dose dependent manner. -The aminoterminal 101 amino acids of the protein are dispensable for all in-vitro functions tested whereas kinase activity is required.