Abstract.It is well known that local anesthetics have a broad spectrum of pharmacological actions, acting as nerve blocks, and treating pain and cardiac arrhythmias via blocking of the sodium channel. The use of local anesthetics could reduce the possibility of cancer metastasis and recurrence following surgical tumor excision. The purpose of the present study was to investigate the inhibitory effect of lidocaine upon the invasion and migration of transient receptor potential cation channel subfamily V member 6 (TRPV6)-expressing cancer cells. Human breast cancer MDA-MB-231 cells, prostatic cancer PC-3 cells and ovarian cancer ES-2 cells were treated with lidocaine. Cell viability was quantitatively determined by MTT assay. The migration of the cells was evaluated using the wound healing assay, and the invasion of the cells was assessed using a Transwell assay. Calcium (Ca 2+ ) measurements were performed using a Fluo-3 AM fluorescence kit. The expression of TRPV6 mRNA and protein in the cells was determined by quantitative-polymerase chain reaction and western blot analysis, respectively. The results suggested that lidocaine inhibits the cell invasion and migration of MDA-MB-231, PC-3 and ES-2 cells at lower than clinical concentrations. The inhibitory effect of lidocaine on TRPV6-expressing cancer cells was associated with a reduced rate of calcium influx, and could occur partly as a result of the downregulation of TRPV6 expression. The use of appropriate local anesthetics may confer potential benefits in clinical practice for the treatment of patients with TRPV6-expressing cancer.
Pulsed electromagnetic field (PEMF) has been suggested as a promising method alternative to drug-based therapies for treating osteoporosis (OP), but the role of PEMF in GIOP animal models still remains unknown. This study was performed to investigate the effect of PEMF on bone formation and lipid metabolism and further explored the several important components and targets of canonical Wnt signaling pathway in GIOP rats. After 12 weeks of intervention, bone mineral density (BMD) level of the whole body increased significantly, serum lipid levels decreased significantly, and trabeculae were thicker in GIOP rats of PEMF group. PEMF stimulation upregulated the mRNA and protein expression of Wnt10b, LRP5, β-catenin, OPG, and Runx2 and downregulated Axin2, PPAR-γ, C/EBPα, FABP4, and Dkk-1. The results of this study suggested that PEMF stimulation can prevent bone loss and improve lipid metabolism disorders in GIOP rats. Canonical Wnt signaling pathway plays an important role in bone formation and lipid metabolism during PEMF stimulation.
Irinotecan is a kind of alkaloid with antitumour activity, but its low solubility and high toxicity limit its application. Epigallocatechin‐3‐gallate (EGCG) is one of the main bioactive components in tea. The epidemiological investigation and animal and cell experiments show that EGCG has a preventive and therapeutic effect on many kinds of tumours. Here, colorectal cancer cells RKO and HCT116 were employed, and the CCK8 proliferation test was used to screen the appropriate concentration of EGCG and irinotecan, and the effects of single and/or combined drugs on migration, invasion, DNA damage, cell cycle and autophagy of tumour cells were investigated. The results showed that EGCG combined with irinotecan (0.5 μmol L−) not only had a stronger inhibitory effect on tumour cells than EGCG or irinotecan alone but also prevented tumour cell migration and invasion. EGCG alone did not cause DNA damage in colorectal cancer cells, but its combination with irinotecan could induce S or G2 phase arrest by inhibiting topoisomerase I to cause more extensive DNA damage. EGCG also induced apoptosis by promoting autophagy with irinotecan synergistically. These results indicated that EGCG in combination with irinotecan could be a promising strategy for colorectal cancer.
Background:
Usnic acid (UA), also known as lichenol, has been reported to have inhibitory effects on a variety
of cancer cells, but its specific mechanism remained to be elucidated. Tumor chemotherapy drugs, especially DNA damage
chemotherapeutic drugs target Chromosomal DNA, but their spontaneous and acquired drug resistance are also an urgent
problem to be solved. Therefore, drug combination research has become the focus of researchers.
Methods:
Here, we evaluated the tumor-suppressing molecular mechanism of UA in colorectal cancer cells RKO from the
perspective of ATM-mediated DNA damage signaling pathway through H2O2 simulating DNA damage chemotherapeutic
drugs. CCK8 cell proliferation assay was used to determine the inhibition of RKO cells by hydrogen peroxide and UA alone
or in combination, and wound healing assay was applied to determine the effect of the drug on cell migration.
Results:
Transfected cells with miRNA18a-5p mimics and inhibitors, MDC and DCFH-DA staining for the measurement of
autophagy and ROS, cell cycle and apoptosis were detected by flow cytometry, expressions of microRNA and mRNA were
determined by fluorescence quantitative PCR, and protein by Western blot.
Discussion:
We found that UA can up-regulate ATM via miR-18a to activate DNA damage signaling pathway and inhibit
the proliferation and migration of RKO cells in a concentration-dependent manner.
Conclusion:
At the same time, DNA damage responses including cell cycle, autophagy, apoptosis and ROS levels are also
regulated by UA respectively. Therefore, UA combined with DNA damage chemotherapeutic drugs may be an effective
treatment for cancer.
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