Four new taraxastane-type triterpenoic acids from Cirsium setosum.

Four new taraxastane-type triterpenoids acids 3ß,22α-dihydroxy-20-taraxasten-30-oic acid (1), 3ß-hydroxy-22-oxo-20-taraxasten-30-oic acid (2), 3-oxo-22α-hydroxy-20- taraxasten-30-oic acid (3), and 3ß,19ß-dihydroxy-20-taraxasten-30-oic acid (4) were isolated and characterized from Cirsium setosum (Willd.) MB. Their structures were determined by the combination of 1D and 2D NMR experiments ((1)H-(1)HCOSY, HSQC, HMBC and ROESY) and mass spectrometry. Compound 2 exhibited potent selective cytotoxicity against human ovarian cancer cell line A2780 with an IC50 value of 3.9 µM.

[Yin-yang relationship between oncogene and antioncogene].

OBJECTIVE: Oncogene and antioncogene play contrary effects on the cell growth and proliferation controlling process, and cancer occurs when the presence of imbalance expression between them. That means there is yin-yang relationship between oncogene (yang) and antioncogene (yin), and also inside both of them. Taking the oncogene myc and antioncogene p53 for example, the yin gene p53 acts, in the yin side, to promote cell apoptosis and inhibit cell growth, while in the yang side, it facilitates for repairing the injured DNA to keep cell survival; the yang gene myc, promoting cell growth and proliferation in the yang side and inducing cell apoptosis in the yin side. To elucidate the yin-yang reactions between oncogene and antioncogene would be of important significance in the all-round and profound research of cancer.

[Advancement of patch-clamp technique and its application in drug high-throughput screening].

The patch-clamp technique, a dominant technique in cellular electrophysiology, is always being regarded as the gold standard for ion channel research. Application of the patch-clamp technique can demonstrate the existences of ion channels and provide valuable information for ion channels, including their electrophysiological properties, molecular structures and the mechanism of drug action. Genomics and proteomics research has showed that the development of drugs for ion channel target would be very promising in future. In recent years, numerous improvements have been achieved, which will facilitate the application of patch clamp technique in drug high-throughput screening. These techniques will break through the bottleneck in the development of drugs aiming at ion channels. New advancements in patch-clamp technique and application in drug high-throughput screening are reviewed in the paper.