Effect of Cell Culture Medium on the Proliferation and Stemness of CD24-/CD44+ Human Breast Cancer Stem Cells

BACKGROUND: Cancer stem cells (CSCs) is defined as tumor initiating cells within tumor that maintain stemness properties and tumorigenicity. Extracellular pH of CSCs in in vitro condition is important for supporting cell proliferation which may also regulate the expression of stemness markers such as OCT4. This work aimed to examine the effect of cell culture media on the proliferation and stemness of human breast cancer stem cells (BCSCs).METHODS: Human CD24-/CD44+ BCSCs were grown in Dulbecco's Modified Eagle Medium/F-12 (DMEM/F-12) with 15mM 4-(2-hydroxyethyl)-1-piperazineethanesulfonic acid (HEPES), without HEPES and adjusted to pH 7.4, or without HEPES but pH was not adjusted. BCSCs were grown under standard conditions for various days. Viable cell number was measured using trypan blue exclusion, whereas proliferation rate using MTS assay. OCT4 mRNA and protein were analyzed using quantitative real time PCR (qRT-PCR) and Western Blot assay, respectively. In vitro tumorigenic activity was determined using mammosphere formation unit (MFU) assay.RESULTS: Our results showed a higher viable cell number and proliferation of BCSCs in DMEM/F-12 HEPES (-) compared to HEPES (+) medium until 4 day incubation. OCT4 mRNA and protein level, as well as MFU of BCSCs were significantly higher in HEPES (-) compared to HEPES (+) medium on day 2.CONCLUSION: DMEM/F-12 medium without HEPES facilitates CD24-/CD44+ BCSCs to have higher proliferation and stemness on day 2 incubation compared to those with HEPES.KEYWORDS: breast cancer, cancer stem cell, OCT4, stemness, proliferation

Tonsil-Derived Mesenchymal Stem Cells Inhibit the Proliferation of Hematological Cancer Cells through Downregulation of IL-6 Gene Expression under Hyperthermia

Stem cells are extensively being studied as promising biological therapeutic candidates in cancer treatment. In various cancer types, some studies show proliferative effects while others show inhibitory effects of MSCs on tumors. Some studies have reported that MSCs isolated from different sources display different anti-cancer properties. Tonsils are one of the secondary lymphoid organs that form an important part of the immune system and located at the mucosal interface. The relation between secondary lymphoid organs and cancer progression lead us to investigate the effect of tonsil-derived MSCs (T-MSC) on cancer treatment. Therefore, we aimed to determine the anti-tumoral effects of tonsil-derived MSCs cultured at febrile temperature on hematological cancer cell lines. We found that co-culture of K562 cells and MOLT-4 with T-MSCs significantly decreased the viable cell number post 7 days of the culture under the febrile and normal culture conditions. Besides, the T-MSC co-culture not only induced the apoptosis on K562 and MOLT-4 cells but also, induced the cell cycle arrest at G2-M phase on MOLT-4 cells. The apoptotic effect of T-MSC co-culture under febrile stimulation was confirmed by upregulation of Bax, c-myc genes for K562 cells and upregulation of Bax, p53 and c-myc genes for MOLT-4 cells in transcriptional level. Our study has contributed to highlight the effect of the cellular interaction between the T-MSCs and human hematological cancer cells during in vitro co-culture under hyperthermia for tumor progression. In the light of these results, we indicated that tonsil-derived MSCs have promising therapeutic potential for cancer therapy.

Lignosulfonate Rapidly Inactivates Human Immunodeficiency and Herpes Simplex Viruses

Very few studies of the antiviral potential of lignosulfonates have been published. With the aim of oral application, among various groups of natural products, the relative antiviral potency of lignosulfonate and its ability to rapidly inactivate viruses were investigated. Methods: As target cells, MT-4 cells in suspension and attached Vero cells were used for infections with human immunodeficiency virus (HIV) and human herpes simplex type-1 virus (HSV). Mock- or virus-infected cells were incubated for 3–5 days with various concentrations of test samples, and the viable cell number was determined with the MTT method. For the shorter exposure experiments, higher titers of HIV or HSV were exposed to test samples for 10 or 3 min, diluted to a normal multiplicity of infection (MOI), and applied to the cells. Antiviral activity was quantified by using the chemotherapy index. Results: In the long-exposure system, lignosulfonates showed comparable anti-HIV activity with those of AZT, ddC, and sulfated polysaccharides, and it exceeded those of hundreds of tannins and flavonoids. When the exposure time was shortened, the chemotherapeutic index of the lignosulfonates for HIV was increased 27-fold. At a physiological pH, lignosulfonate showed higher anti-HIV activity than commercial alkali-lignin, dealkali-lignin, and humic acid, possibly due to the higher solubility and purity. Conclusions: With their rapid virus-inactivation capabilities, lignosulfonates may be useful for the prevention or treatment of virally induced oral diseases.

The effect of Epitranscriptomic writer (METTL3) silencing on Hepatocellular carcinoma cell line

Worldwide, HCC is the sixth most common malignancy and the third most common cause of cancer-related death. RNA epigenetics becomes a hot topic in recent years. Among more than a hundred different RNA modifications, m6A is the most abundant modification. m6A is involved in regulating mRNA stability, splicing, and translation. However, the implications of m6A modification in human carcinogenesis remain poorly understood. METTL3 is a major RNA methyltransferase implicated in mRNA biogenesis, decay, and translation control through m6A modification. We aimed to target METTL3 in HepG2 cell lines by siRNA (small interfering RNA), and then evaluated the effect of this interference on viability and proliferative activity of HepG2 cells. Material and methods Using HepG2 cell lines, METTL3 was targeted using siRNA. The viability of HepG2 was conducted by Trypan blue exclusion test. The cell proliferation was tested by CellTiter 96® AQueous One Solution Cell Proliferation Assay. Results viable cell number and viability percent were significantly reduced in HepG2 cells transfected with siMETTL3 compared to mock cell lines (treated with transfection reagent only) (p<0.05). The active proliferative cell count was lower in cells transfected with siMETTL3 than mock cells (p<0.05). Conclusions Knockdown of METTL3 in HepG2 cell lines successively reduced cell viability and active proliferative cell count. METTL3 may be involved in liver tumorigenesis and its targeting may be of therapeutic benefit.

Optimization of Blood Handling and Peripheral Blood Mononuclear Cell Cryopreservation of Low Cell Number Samples

Background: Rural/remote blood collection can cause delays in processing, reducing PBMC number, viability, cell composition and function. To mitigate these impacts, blood was stored at 4 °C prior to processing. Viable cell number, viability, immune phenotype, and Interferon-γ (IFN-γ) release were measured. Furthermore, the lowest protective volume of cryopreservation media and cell concentration was investigated. Methods: Blood from 10 individuals was stored for up to 10 days. Flow cytometry and IFN-γ ELISPOT were used to measure immune phenotype and function on thawed PBMC. Additionally, PBMC were cryopreserved in volumes ranging from 500 µL to 25 µL and concentration from 10 × 106 cells/mL to 1.67 × 106 cells/mL. Results: PBMC viability and viable cell number significantly reduced over time compared with samples processed immediately, except when stored for 24 h at RT. Monocytes and NK cells significantly reduced over time regardless of storage temperature. Samples with >24 h of RT storage had an increased proportion in Low-Density Neutrophils and T cells compared with samples stored at 4 °C. IFN-γ release was reduced after 24 h of storage, however not in samples stored at 4 °C for >24 h. The lowest protective volume identified was 150 µL with the lowest density of 6.67 × 106 cells/mL. Conclusion: A sample delay of 24 h at RT does not impact the viability and total viable cell numbers. When long-term delays exist (>4 d) total viable cell number and cell viability losses are reduced in samples stored at 4 °C. Immune phenotype and function are slightly altered after 24 h of storage, further impacts of storage are reduced in samples stored at 4 °C.

Evaluation of a novel, multi-functional inhibitor compound for prevention of biofilm formation on carbon steel in marine environments

Chemical biocides remain the most effective mitigation strategy against microbiologically influenced corrosion (MIC), one of the costliest and most pervasive forms of corrosion in industry. However, toxicity and environmental concerns associated with these compounds are encouraging the development of more environmentally friendly MIC inhibitors. In this study, we evaluated the antimicrobial effect of a novel, multi-functional organic corrosion inhibitor (OCI) compound, cetrimonium trans-4-hydroxy-cinnamate (CTA-4OHcinn). Attachment of three bacterial strains, Shewanella chilikensis, Pseudomonas balearica and Klebsiella pneumoniae was evaluated on wet-ground (120 grit finish) and pre-oxidised carbon steel surfaces (AISI 1030), in the presence and absence of the new OCI compound. Our study revealed that all strains preferentially attached to pre-oxidised surfaces as indicated by confocal laser scanning microscopy, scanning electron microscopy and standard colony forming unit (CFU) quantification assays. The inhibitor compound at 10 mM demonstrated 100% reduction in S. chilikensis attachment independent of initial surface condition, while the other two strains were reduced by at least 99.7% of the original viable cell number. Our results demonstrate that CTA-4OHcinn is biocidal active and has promise as a multifunctional, environmentally sound MIC inhibitor for industrial applications.

Evaluation of Antibacterial Drugs Using Silkworms Infected by Cutibacterium acnes

Cutibacterium acnes is a causative agent of inflammatory skin diseases and systemic infections. Systemic infections caused by C. acnes are difficult to treat, and the development of a systemic infection model for C. acnes would be useful for elucidating the mechanisms of infection and searching for therapeutic agents. In this study, we established a silkworm infection model as a new experimental system to evaluate the interaction between C. acnes and the host, and the efficacy of antibacterial drugs. Silkworms infected with C. acnes died when reared at 37 °C. The dose of injected bacterial cells required to kill half of the silkworms (LD50) was determined under rearing conditions at 37 °C. The viable cell number of C. acnes was increased in the hemolymph and fat body of the infected silkworms. Silkworms injected with autoclaved C. acnes cells did not die during the study period. The survival time of silkworms injected with C. acnes was prolonged by the injection of antibacterial drugs such as tetracycline and clindamycin. These findings suggest that the silkworm C. acnes infection model can be used to evaluate host toxicity caused by C. acnes and the in vivo efficacy of antimicrobial drugs.

Reduction of susceptibility to azoles and 5-fluorocytosine and growth acceleration in Candida albicans by glucose in urine

Candida albicans species are causal pathogens for urinary tract infections, vulvovaginitis, and balanitis. Diabetes mellitus is a risk factor for Candida infection. To investigate the potential effects of glucosuria on Candida spp. (C. albicans,C. krusei, and C. glabrata), we investigated the influence of their growth and antifungal susceptibilities by glucose in urine. C. albicans spp. exhibited greater growth in urine with glucose (300 and 3,000 mg/dL) than in plain urine taken from healthy volunteers. After 24 h incubation, the viable cell number was more than 10-fold higher in the urine added 3,000 mg/dL glucose than in plain urine. In antifungal susceptibility, more than 80% of C. albicans clinical isolates increased minimum inhibitory concentrations of azoles (fluconazole, itraconazole, voriconazole, and miconazole) and 5-fluorocytosine with the addition of glucose exceeding their breakpoints. This phenomenon was not observed in clinical isolates of C. krusei and C. glabrata. We observed the growth in the urine to which 3,000 mg/dL glucose was added even in the presence of a 128-fold higher minimum inhibitory concentration of fluconazole. In most of the C. albicans clinical isolates, the mRNA expression of the azole resistance genes ERG11, CDR1, CDR2 and MDR1 increased in glucose-added urine compared with plain urine. In conclusion, the growth ofC. albicans is accelerated and azoles and 5-fluorocytosine become ineffective as a result of a high concentration of glucose in urine. These observations provide valuable information about the clinical course and therapeutic effects of azoles against C. albicans infections in patients with diabetes mellitus and hyperglucosuria.

Application of a roller conveyor type plasma disinfection device with fungus-contaminated citrus fruits

Efficient methods to achieve the safe decontamination of agricultural products are needed. Here, we investigated the decontamination of citrus fruits to test the antifungal potential of a novel non-thermal gas plasma apparatus, termed a roller conveyer plasma instrument. This instrument generates an atmospheric pressure dielectric barrier discharge (APDBP) plasma on a set of rollers. Penicillium venetum was spotted onto the surface of the fruit or pericarps, as well as an aluminium plate to act as a control, before performing the plasma treatment. The results showed that viable cell number of P. venetum decreased with a decimal reduction time (D value or estimated treatment time required to reduce viable cell number by 90%) of 0.967 min on the aluminium plate, 2.90 min and 1.88 min on the pericarps of ‘Kiyomi’ (Citrus unshiu × C. sinensis) and ‘Kawano-natsudaidai’ (C. natsudaidai) respectively, and 2.42 min on the surface of ‘Unshu-mikan’ (C. unshiu). These findings confirmed a fungicidal effect of the plasma not only on an abiotic surface (aluminium plate) but also on a biotic surface (citrus fruit). Further development of the instrument by combining sorting systems with the plasma device promises an efficient means of disinfecting citrus fruits during food processing.

An Experimentally Defined Hypoxia Gene Signature in Glioblastoma and Its Modulation by Metformin

Glioblastoma multiforme (GBM) is the most common and aggressive primary brain tumor, characterized by a high degree of intertumoral heterogeneity. However, a common feature of the GBM microenvironment is hypoxia, which can promote radio- and chemotherapy resistance, immunosuppression, angiogenesis, and stemness. We experimentally defined common GBM adaptations to physiologically relevant oxygen gradients, and we assessed their modulation by the metabolic drug metformin. We directly exposed human GBM cell lines to hypoxia (1% O2) and to physioxia (5% O2). We then performed transcriptional profiling and compared our in vitro findings to predicted hypoxic areas in vivo using in silico analyses. We observed a heterogenous hypoxia response, but also a common gene signature that was induced by a physiologically relevant change in oxygenation from 5% O2 to 1% O2. In silico analyses showed that this hypoxia signature was highly correlated with a perinecrotic localization in GBM tumors, expression of certain glycolytic and immune-related genes, and poor prognosis of GBM patients. Metformin treatment of GBM cell lines under hypoxia and physioxia reduced viable cell number, oxygen consumption rate, and partially reversed the hypoxia gene signature, supporting further exploration of targeting tumor metabolism as a treatment component for hypoxic GBM.